Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig25 Genome size: 2129 Host's GC content: 62.80 Predicted Codon Position GC: 1st: 65.52 2nd: 43.66 3rd: 73.96 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig29 Genome size: 2434 Host's GC content: 55.18 Predicted Codon Position GC: 1st: 60.83 2nd: 41.60 3rd: 61.06 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig43 Genome size: 2302 Host's GC content: 62.77 Predicted Codon Position GC: 1st: 65.50 2nd: 43.65 3rd: 73.91 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig46 Genome size: 2426 Host's GC content: 49.30 Predicted Codon Position GC: 1st: 57.22 2nd: 40.01 3rd: 51.11 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig48 Genome size: 1996 Host's GC content: 57.67 Predicted Codon Position GC: 1st: 62.36 2nd: 42.27 3rd: 65.27 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig53 Genome size: 1984 Host's GC content: 61.14 Predicted Codon Position GC: 1st: 64.50 2nd: 43.21 3rd: 71.15 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig57 Genome size: 2304 Host's GC content: 61.07 Predicted Codon Position GC: 1st: 64.46 2nd: 43.19 3rd: 71.03 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig58 Genome size: 2310 Host's GC content: 53.90 Predicted Codon Position GC: 1st: 60.05 2nd: 41.25 3rd: 58.89 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig61 Genome size: 2596 Host's GC content: 64.41 Predicted Codon Position GC: 1st: 66.51 2nd: 44.09 3rd: 76.68 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig62 Genome size: 2130 Host's GC content: 60.52 Predicted Codon Position GC: 1st: 64.12 2nd: 43.04 3rd: 70.09 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig65 Genome size: 2423 Host's GC content: 60.34 Predicted Codon Position GC: 1st: 64.01 2nd: 42.99 3rd: 69.79 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig70 Genome size: 1992 Host's GC content: 53.11 Predicted Codon Position GC: 1st: 59.56 2nd: 41.04 3rd: 57.57 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig75 Genome size: 2084 Host's GC content: 58.16 Predicted Codon Position GC: 1st: 62.67 2nd: 42.40 3rd: 66.10 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig76 Genome size: 2264 Host's GC content: 58.97 Predicted Codon Position GC: 1st: 63.16 2nd: 42.62 3rd: 67.47 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig82 Genome size: 2023 Host's GC content: 62.28 Predicted Codon Position GC: 1st: 65.20 2nd: 43.52 3rd: 73.08 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig83 Genome size: 2038 Host's GC content: 57.56 Predicted Codon Position GC: 1st: 62.30 2nd: 42.24 3rd: 65.09 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig89 Genome size: 2255 Host's GC content: 62.62 Predicted Codon Position GC: 1st: 65.41 2nd: 43.61 3rd: 73.65 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig98 Genome size: 2030 Host's GC content: 61.03 Predicted Codon Position GC: 1st: 64.44 2nd: 43.18 3rd: 70.97 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig105 Genome size: 2317 Host's GC content: 59.86 Predicted Codon Position GC: 1st: 63.72 2nd: 42.86 3rd: 68.99 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig107 Genome size: 1995 Host's GC content: 56.64 Predicted Codon Position GC: 1st: 61.73 2nd: 41.99 3rd: 63.54 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig109 Genome size: 2158 Host's GC content: 52.50 Predicted Codon Position GC: 1st: 59.19 2nd: 40.88 3rd: 56.53 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig113 Genome size: 2182 Host's GC content: 60.54 Predicted Codon Position GC: 1st: 64.13 2nd: 43.05 3rd: 70.14 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig122 Genome size: 2133 Host's GC content: 63.67 Predicted Codon Position GC: 1st: 66.05 2nd: 43.89 3rd: 75.42 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig126 Genome size: 2194 Host's GC content: 59.07 Predicted Codon Position GC: 1st: 63.23 2nd: 42.65 3rd: 67.65 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig127 Genome size: 2024 Host's GC content: 59.09 Predicted Codon Position GC: 1st: 63.24 2nd: 42.65 3rd: 67.68 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig134 Genome size: 2036 Host's GC content: 58.35 Predicted Codon Position GC: 1st: 62.79 2nd: 42.45 3rd: 66.43 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig137 Genome size: 2200 Host's GC content: 60.91 Predicted Codon Position GC: 1st: 64.36 2nd: 43.15 3rd: 70.76 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig138 Genome size: 2133 Host's GC content: 61.98 Predicted Codon Position GC: 1st: 65.02 2nd: 43.43 3rd: 72.57 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig139 Genome size: 2200 Host's GC content: 34.18 Predicted Codon Position GC: 1st: 47.92 2nd: 35.93 3rd: 25.54 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig141 Genome size: 2277 Host's GC content: 62.49 Predicted Codon Position GC: 1st: 65.33 2nd: 43.57 3rd: 73.44 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig146 Genome size: 2243 Host's GC content: 60.99 Predicted Codon Position GC: 1st: 64.41 2nd: 43.17 3rd: 70.89 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig150 Genome size: 2061 Host's GC content: 56.38 Predicted Codon Position GC: 1st: 61.57 2nd: 41.92 3rd: 63.10 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig154 Genome size: 2156 Host's GC content: 65.03 Predicted Codon Position GC: 1st: 66.89 2nd: 44.26 3rd: 77.73 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig156 Genome size: 2141 Host's GC content: 58.90 Predicted Codon Position GC: 1st: 63.12 2nd: 42.60 3rd: 67.35 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig162 Genome size: 2029 Host's GC content: 63.04 Predicted Codon Position GC: 1st: 65.67 2nd: 43.72 3rd: 74.36 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig166 Genome size: 2704 Host's GC content: 60.06 Predicted Codon Position GC: 1st: 63.84 2nd: 42.92 3rd: 69.32 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig168 Genome size: 2023 Host's GC content: 61.69 Predicted Codon Position GC: 1st: 64.84 2nd: 43.36 3rd: 72.08 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig171 Genome size: 2009 Host's GC content: 54.75 Predicted Codon Position GC: 1st: 60.57 2nd: 41.48 3rd: 60.34 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig174 Genome size: 2185 Host's GC content: 59.45 Predicted Codon Position GC: 1st: 63.46 2nd: 42.75 3rd: 68.29 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig176 Genome size: 2518 Host's GC content: 52.34 Predicted Codon Position GC: 1st: 59.09 2nd: 40.83 3rd: 56.26 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig177 Genome size: 2012 Host's GC content: 59.59 Predicted Codon Position GC: 1st: 63.55 2nd: 42.79 3rd: 68.53 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig180 Genome size: 2646 Host's GC content: 61.60 Predicted Codon Position GC: 1st: 64.79 2nd: 43.33 3rd: 71.93 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig181 Genome size: 2347 Host's GC content: 56.75 Predicted Codon Position GC: 1st: 61.80 2nd: 42.02 3rd: 63.73 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig184 Genome size: 2672 Host's GC content: 63.25 Predicted Codon Position GC: 1st: 65.80 2nd: 43.78 3rd: 74.72 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig185 Genome size: 2385 Host's GC content: 51.78 Predicted Codon Position GC: 1st: 58.75 2nd: 40.68 3rd: 55.32 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig187 Genome size: 2289 Host's GC content: 62.08 Predicted Codon Position GC: 1st: 65.08 2nd: 43.46 3rd: 72.74 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig188 Genome size: 2255 Host's GC content: 55.39 Predicted Codon Position GC: 1st: 60.96 2nd: 41.65 3rd: 61.42 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig190 Genome size: 2703 Host's GC content: 52.94 Predicted Codon Position GC: 1st: 59.46 2nd: 40.99 3rd: 57.28 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig192 Genome size: 2706 Host's GC content: 61.31 Predicted Codon Position GC: 1st: 64.60 2nd: 43.25 3rd: 71.43 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig193 Genome size: 2634 Host's GC content: 57.48 Predicted Codon Position GC: 1st: 62.25 2nd: 42.22 3rd: 64.95 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig195 Genome size: 1972 Host's GC content: 59.38 Predicted Codon Position GC: 1st: 63.42 2nd: 42.73 3rd: 68.17 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig196 Genome size: 2281 Host's GC content: 64.84 Predicted Codon Position GC: 1st: 66.78 2nd: 44.21 3rd: 77.41 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig197 Genome size: 2000 Host's GC content: 65.05 Predicted Codon Position GC: 1st: 66.91 2nd: 44.26 3rd: 77.76 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig198 Genome size: 2497 Host's GC content: 57.03 Predicted Codon Position GC: 1st: 61.97 2nd: 42.10 3rd: 64.19 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig200 Genome size: 2710 Host's GC content: 60.96 Predicted Codon Position GC: 1st: 64.39 2nd: 43.16 3rd: 70.84 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig201 Genome size: 2571 Host's GC content: 62.19 Predicted Codon Position GC: 1st: 65.15 2nd: 43.49 3rd: 72.93 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig202 Genome size: 2155 Host's GC content: 62.23 Predicted Codon Position GC: 1st: 65.17 2nd: 43.50 3rd: 72.99 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig204 Genome size: 2856 Host's GC content: 59.77 Predicted Codon Position GC: 1st: 63.66 2nd: 42.84 3rd: 68.83 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig205 Genome size: 3428 Host's GC content: 56.88 Predicted Codon Position GC: 1st: 61.88 2nd: 42.06 3rd: 63.95 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig206 Genome size: 2265 Host's GC content: 63.09 Predicted Codon Position GC: 1st: 65.70 2nd: 43.73 3rd: 74.45 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig207 Genome size: 2017 Host's GC content: 63.56 Predicted Codon Position GC: 1st: 65.99 2nd: 43.86 3rd: 75.24 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig208 Genome size: 2770 Host's GC content: 62.35 Predicted Codon Position GC: 1st: 65.24 2nd: 43.53 3rd: 73.19 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig209 Genome size: 2911 Host's GC content: 58.23 Predicted Codon Position GC: 1st: 62.71 2nd: 42.42 3rd: 66.22 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig210 Genome size: 2844 Host's GC content: 62.62 Predicted Codon Position GC: 1st: 65.41 2nd: 43.61 3rd: 73.66 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig211 Genome size: 2976 Host's GC content: 61.09 Predicted Codon Position GC: 1st: 64.47 2nd: 43.19 3rd: 71.06 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig212 Genome size: 3106 Host's GC content: 59.56 Predicted Codon Position GC: 1st: 63.53 2nd: 42.78 3rd: 68.48 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig213 Genome size: 2243 Host's GC content: 61.26 Predicted Codon Position GC: 1st: 64.57 2nd: 43.24 3rd: 71.35 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig214 Genome size: 3047 Host's GC content: 61.11 Predicted Codon Position GC: 1st: 64.48 2nd: 43.20 3rd: 71.10 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig216 Genome size: 2288 Host's GC content: 60.23 Predicted Codon Position GC: 1st: 63.94 2nd: 42.96 3rd: 69.60 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig217 Genome size: 2681 Host's GC content: 58.08 Predicted Codon Position GC: 1st: 62.62 2nd: 42.38 3rd: 65.96 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig218 Genome size: 2003 Host's GC content: 58.16 Predicted Codon Position GC: 1st: 62.67 2nd: 42.40 3rd: 66.11 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig219 Genome size: 3002 Host's GC content: 53.53 Predicted Codon Position GC: 1st: 59.82 2nd: 41.15 3rd: 58.27 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig220 Genome size: 2655 Host's GC content: 59.74 Predicted Codon Position GC: 1st: 63.64 2nd: 42.83 3rd: 68.77 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig221 Genome size: 2423 Host's GC content: 58.61 Predicted Codon Position GC: 1st: 62.94 2nd: 42.52 3rd: 66.86 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig223 Genome size: 2171 Host's GC content: 62.60 Predicted Codon Position GC: 1st: 65.40 2nd: 43.60 3rd: 73.62 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig224 Genome size: 3378 Host's GC content: 60.27 Predicted Codon Position GC: 1st: 63.97 2nd: 42.97 3rd: 69.68 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig225 Genome size: 2228 Host's GC content: 63.29 Predicted Codon Position GC: 1st: 65.82 2nd: 43.79 3rd: 74.78 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig226 Genome size: 2805 Host's GC content: 60.61 Predicted Codon Position GC: 1st: 64.17 2nd: 43.06 3rd: 70.25 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig228 Genome size: 2641 Host's GC content: 55.51 Predicted Codon Position GC: 1st: 61.04 2nd: 41.69 3rd: 61.62 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig229 Genome size: 2556 Host's GC content: 63.62 Predicted Codon Position GC: 1st: 66.02 2nd: 43.88 3rd: 75.34 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig231 Genome size: 2360 Host's GC content: 62.71 Predicted Codon Position GC: 1st: 65.47 2nd: 43.63 3rd: 73.81 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig232 Genome size: 2305 Host's GC content: 61.82 Predicted Codon Position GC: 1st: 64.92 2nd: 43.39 3rd: 72.30 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig233 Genome size: 3116 Host's GC content: 63.54 Predicted Codon Position GC: 1st: 65.98 2nd: 43.86 3rd: 75.21 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig236 Genome size: 4473 Host's GC content: 59.04 Predicted Codon Position GC: 1st: 63.21 2nd: 42.64 3rd: 67.60 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig237 Genome size: 3250 Host's GC content: 61.23 Predicted Codon Position GC: 1st: 64.56 2nd: 43.23 3rd: 71.30 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig239 Genome size: 2440 Host's GC content: 70.82 Predicted Codon Position GC: 1st: 70.45 2nd: 45.82 3rd: 87.53 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig242 Genome size: 3791 Host's GC content: 61.33 Predicted Codon Position GC: 1st: 64.62 2nd: 43.26 3rd: 71.47 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig244 Genome size: 3007 Host's GC content: 65.55 Predicted Codon Position GC: 1st: 67.21 2nd: 44.40 3rd: 78.61 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig245 Genome size: 3862 Host's GC content: 62.97 Predicted Codon Position GC: 1st: 65.63 2nd: 43.70 3rd: 74.25 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig246 Genome size: 3320 Host's GC content: 69.67 Predicted Codon Position GC: 1st: 69.75 2nd: 45.51 3rd: 85.58 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig247 Genome size: 3612 Host's GC content: 59.88 Predicted Codon Position GC: 1st: 63.73 2nd: 42.87 3rd: 69.02 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig248 Genome size: 2873 Host's GC content: 68.53 Predicted Codon Position GC: 1st: 69.05 2nd: 45.20 3rd: 83.66 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig249 Genome size: 3154 Host's GC content: 61.10 Predicted Codon Position GC: 1st: 64.47 2nd: 43.20 3rd: 71.08 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig250 Genome size: 3202 Host's GC content: 73.45 Predicted Codon Position GC: 1st: 72.07 2nd: 46.53 3rd: 91.98 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig251 Genome size: 4160 Host's GC content: 70.91 Predicted Codon Position GC: 1st: 70.51 2nd: 45.85 3rd: 87.69 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig252 Genome size: 3244 Host's GC content: 66.40 Predicted Codon Position GC: 1st: 67.74 2nd: 44.63 3rd: 80.05 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig253 Genome size: 3553 Host's GC content: 67.24 Predicted Codon Position GC: 1st: 68.25 2nd: 44.85 3rd: 81.47 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig254 Genome size: 3704 Host's GC content: 71.17 Predicted Codon Position GC: 1st: 70.67 2nd: 45.91 3rd: 88.11 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig255 Genome size: 3265 Host's GC content: 68.06 Predicted Codon Position GC: 1st: 68.75 2nd: 45.07 3rd: 82.85 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig256 Genome size: 3776 Host's GC content: 67.64 Predicted Codon Position GC: 1st: 68.50 2nd: 44.96 3rd: 82.14 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig257 Genome size: 4643 Host's GC content: 67.37 Predicted Codon Position GC: 1st: 68.33 2nd: 44.89 3rd: 81.69 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig258 Genome size: 4254 Host's GC content: 69.63 Predicted Codon Position GC: 1st: 69.72 2nd: 45.50 3rd: 85.51 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig259 Genome size: 5409 Host's GC content: 66.33 Predicted Codon Position GC: 1st: 67.70 2nd: 44.61 3rd: 79.94 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig260 Genome size: 4257 Host's GC content: 61.19 Predicted Codon Position GC: 1st: 64.53 2nd: 43.22 3rd: 71.24 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig261 Genome size: 6811 Host's GC content: 64.60 Predicted Codon Position GC: 1st: 66.63 2nd: 44.14 3rd: 77.01 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig262 Genome size: 5019 Host's GC content: 68.52 Predicted Codon Position GC: 1st: 69.04 2nd: 45.20 3rd: 83.64 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig263 Genome size: 5569 Host's GC content: 68.67 Predicted Codon Position GC: 1st: 69.13 2nd: 45.24 3rd: 83.88 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig264 Genome size: 4923 Host's GC content: 66.61 Predicted Codon Position GC: 1st: 67.86 2nd: 44.68 3rd: 80.40 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig265 Genome size: 7258 Host's GC content: 61.17 Predicted Codon Position GC: 1st: 64.52 2nd: 43.22 3rd: 71.21 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig266 Genome size: 5813 Host's GC content: 68.88 Predicted Codon Position GC: 1st: 69.26 2nd: 45.30 3rd: 84.25 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig267 Genome size: 7122 Host's GC content: 65.88 Predicted Codon Position GC: 1st: 67.42 2nd: 44.49 3rd: 79.17 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig268 Genome size: 5955 Host's GC content: 65.41 Predicted Codon Position GC: 1st: 67.13 2nd: 44.36 3rd: 78.37 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig269 Genome size: 7924 Host's GC content: 69.46 Predicted Codon Position GC: 1st: 69.62 2nd: 45.45 3rd: 85.23 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig270 Genome size: 5849 Host's GC content: 67.76 Predicted Codon Position GC: 1st: 68.57 2nd: 44.99 3rd: 82.34 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig271 Genome size: 8174 Host's GC content: 66.94 Predicted Codon Position GC: 1st: 68.07 2nd: 44.77 3rd: 80.97 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig272 Genome size: 9320 Host's GC content: 70.70 Predicted Codon Position GC: 1st: 70.38 2nd: 45.79 3rd: 87.32 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig273 Genome size: 8463 Host's GC content: 64.88 Predicted Codon Position GC: 1st: 66.80 2nd: 44.22 3rd: 77.48 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig274 Genome size: 10867 Host's GC content: 66.73 Predicted Codon Position GC: 1st: 67.94 2nd: 44.72 3rd: 80.61 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig275 Genome size: 11210 Host's GC content: 70.17 Predicted Codon Position GC: 1st: 70.05 2nd: 45.65 3rd: 86.43 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig276 Genome size: 12633 Host's GC content: 64.73 Predicted Codon Position GC: 1st: 66.71 2nd: 44.18 3rd: 77.22 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig277 Genome size: 11545 Host's GC content: 69.76 Predicted Codon Position GC: 1st: 69.80 2nd: 45.54 3rd: 85.74 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig278 Genome size: 12354 Host's GC content: 68.73 Predicted Codon Position GC: 1st: 69.17 2nd: 45.26 3rd: 83.99 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig279 Genome size: 11280 Host's GC content: 68.14 Predicted Codon Position GC: 1st: 68.81 2nd: 45.10 3rd: 82.99 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig280 Genome size: 12114 Host's GC content: 64.05 Predicted Codon Position GC: 1st: 66.29 2nd: 43.99 3rd: 76.07 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig281 Genome size: 11775 Host's GC content: 68.92 Predicted Codon Position GC: 1st: 69.28 2nd: 45.31 3rd: 84.31 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig282 Genome size: 8905 Host's GC content: 60.56 Predicted Codon Position GC: 1st: 64.15 2nd: 43.05 3rd: 70.17 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig283 Genome size: 12753 Host's GC content: 68.62 Predicted Codon Position GC: 1st: 69.10 2nd: 45.23 3rd: 83.80 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig284 Genome size: 16350 Host's GC content: 70.76 Predicted Codon Position GC: 1st: 70.42 2nd: 45.81 3rd: 87.43 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig285 Genome size: 15523 Host's GC content: 70.32 Predicted Codon Position GC: 1st: 70.14 2nd: 45.69 3rd: 86.67 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig286 Genome size: 13357 Host's GC content: 67.35 Predicted Codon Position GC: 1st: 68.32 2nd: 44.88 3rd: 81.66 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig287 Genome size: 12957 Host's GC content: 68.82 Predicted Codon Position GC: 1st: 69.22 2nd: 45.28 3rd: 84.14 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig288 Genome size: 14543 Host's GC content: 69.36 Predicted Codon Position GC: 1st: 69.56 2nd: 45.43 3rd: 85.06 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig289 Genome size: 17496 Host's GC content: 64.23 Predicted Codon Position GC: 1st: 66.40 2nd: 44.04 3rd: 76.37 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig290 Genome size: 13128 Host's GC content: 63.00 Predicted Codon Position GC: 1st: 65.65 2nd: 43.71 3rd: 74.30 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig291 Genome size: 11703 Host's GC content: 63.42 Predicted Codon Position GC: 1st: 65.90 2nd: 43.82 3rd: 75.01 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig292 Genome size: 15564 Host's GC content: 67.68 Predicted Codon Position GC: 1st: 68.52 2nd: 44.97 3rd: 82.21 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig293 Genome size: 19540 Host's GC content: 70.85 Predicted Codon Position GC: 1st: 70.48 2nd: 45.83 3rd: 87.59 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig294 Genome size: 16948 Host's GC content: 64.98 Predicted Codon Position GC: 1st: 66.86 2nd: 44.24 3rd: 77.65 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig295 Genome size: 21368 Host's GC content: 68.46 Predicted Codon Position GC: 1st: 69.00 2nd: 45.18 3rd: 83.53 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig296 Genome size: 17420 Host's GC content: 68.13 Predicted Codon Position GC: 1st: 68.80 2nd: 45.09 3rd: 82.97 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig297 Genome size: 18771 Host's GC content: 66.73 Predicted Codon Position GC: 1st: 67.94 2nd: 44.72 3rd: 80.61 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig298 Genome size: 19370 Host's GC content: 67.52 Predicted Codon Position GC: 1st: 68.42 2nd: 44.93 3rd: 81.94 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig299 Genome size: 20438 Host's GC content: 67.03 Predicted Codon Position GC: 1st: 68.12 2nd: 44.80 3rd: 81.11 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig300 Genome size: 23130 Host's GC content: 67.24 Predicted Codon Position GC: 1st: 68.25 2nd: 44.86 3rd: 81.47 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig301 Genome size: 23311 Host's GC content: 68.16 Predicted Codon Position GC: 1st: 68.82 2nd: 45.10 3rd: 83.03 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig302 Genome size: 26259 Host's GC content: 67.03 Predicted Codon Position GC: 1st: 68.12 2nd: 44.80 3rd: 81.12 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig303 Genome size: 27783 Host's GC content: 67.60 Predicted Codon Position GC: 1st: 68.48 2nd: 44.95 3rd: 82.08 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig304 Genome size: 23120 Host's GC content: 66.41 Predicted Codon Position GC: 1st: 67.74 2nd: 44.63 3rd: 80.07 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig305 Genome size: 25029 Host's GC content: 66.38 Predicted Codon Position GC: 1st: 67.72 2nd: 44.62 3rd: 80.01 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig306 Genome size: 30644 Host's GC content: 69.25 Predicted Codon Position GC: 1st: 69.49 2nd: 45.40 3rd: 84.88 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig307 Genome size: 28039 Host's GC content: 66.10 Predicted Codon Position GC: 1st: 67.55 2nd: 44.55 3rd: 79.55 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig308 Genome size: 29226 Host's GC content: 66.46 Predicted Codon Position GC: 1st: 67.77 2nd: 44.64 3rd: 80.15 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig309 Genome size: 27255 Host's GC content: 67.70 Predicted Codon Position GC: 1st: 68.54 2nd: 44.98 3rd: 82.25 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig310 Genome size: 25560 Host's GC content: 67.88 Predicted Codon Position GC: 1st: 68.64 2nd: 45.03 3rd: 82.55 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig311 Genome size: 27314 Host's GC content: 69.36 Predicted Codon Position GC: 1st: 69.56 2nd: 45.43 3rd: 85.06 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig312 Genome size: 36804 Host's GC content: 68.26 Predicted Codon Position GC: 1st: 68.88 2nd: 45.13 3rd: 83.19 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig313 Genome size: 25296 Host's GC content: 64.09 Predicted Codon Position GC: 1st: 66.31 2nd: 44.00 3rd: 76.14 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig314 Genome size: 34444 Host's GC content: 66.33 Predicted Codon Position GC: 1st: 67.70 2nd: 44.61 3rd: 79.94 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig315 Genome size: 30865 Host's GC content: 66.59 Predicted Codon Position GC: 1st: 67.85 2nd: 44.68 3rd: 80.36 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig316 Genome size: 25645 Host's GC content: 62.15 Predicted Codon Position GC: 1st: 65.12 2nd: 43.48 3rd: 72.86 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig317 Genome size: 33564 Host's GC content: 68.55 Predicted Codon Position GC: 1st: 69.06 2nd: 45.21 3rd: 83.68 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig318 Genome size: 39131 Host's GC content: 67.11 Predicted Codon Position GC: 1st: 68.17 2nd: 44.82 3rd: 81.26 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig319 Genome size: 31909 Host's GC content: 68.56 Predicted Codon Position GC: 1st: 69.06 2nd: 45.21 3rd: 83.70 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig320 Genome size: 42227 Host's GC content: 66.06 Predicted Codon Position GC: 1st: 67.53 2nd: 44.54 3rd: 79.48 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig321 Genome size: 36364 Host's GC content: 67.10 Predicted Codon Position GC: 1st: 68.16 2nd: 44.82 3rd: 81.23 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig322 Genome size: 33629 Host's GC content: 67.62 Predicted Codon Position GC: 1st: 68.49 2nd: 44.96 3rd: 82.12 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig323 Genome size: 32896 Host's GC content: 66.41 Predicted Codon Position GC: 1st: 67.74 2nd: 44.63 3rd: 80.06 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig324 Genome size: 40286 Host's GC content: 66.71 Predicted Codon Position GC: 1st: 67.92 2nd: 44.71 3rd: 80.57 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig325 Genome size: 38282 Host's GC content: 66.74 Predicted Codon Position GC: 1st: 67.95 2nd: 44.72 3rd: 80.63 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig326 Genome size: 44821 Host's GC content: 67.72 Predicted Codon Position GC: 1st: 68.55 2nd: 44.98 3rd: 82.28 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig327 Genome size: 42530 Host's GC content: 66.76 Predicted Codon Position GC: 1st: 67.96 2nd: 44.72 3rd: 80.65 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig328 Genome size: 36972 Host's GC content: 67.58 Predicted Codon Position GC: 1st: 68.46 2nd: 44.95 3rd: 82.05 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig329 Genome size: 42603 Host's GC content: 67.51 Predicted Codon Position GC: 1st: 68.42 2nd: 44.93 3rd: 81.93 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig330 Genome size: 34562 Host's GC content: 68.33 Predicted Codon Position GC: 1st: 68.92 2nd: 45.15 3rd: 83.31 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig331 Genome size: 43489 Host's GC content: 65.26 Predicted Codon Position GC: 1st: 67.03 2nd: 44.32 3rd: 78.11 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig332 Genome size: 40722 Host's GC content: 66.11 Predicted Codon Position GC: 1st: 67.56 2nd: 44.55 3rd: 79.57 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig333 Genome size: 43955 Host's GC content: 66.37 Predicted Codon Position GC: 1st: 67.71 2nd: 44.62 3rd: 79.99 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig334 Genome size: 40408 Host's GC content: 66.06 Predicted Codon Position GC: 1st: 67.53 2nd: 44.54 3rd: 79.47 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig335 Genome size: 49690 Host's GC content: 68.60 Predicted Codon Position GC: 1st: 69.09 2nd: 45.22 3rd: 83.76 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig336 Genome size: 48677 Host's GC content: 67.54 Predicted Codon Position GC: 1st: 68.44 2nd: 44.94 3rd: 81.98 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig337 Genome size: 46094 Host's GC content: 66.87 Predicted Codon Position GC: 1st: 68.02 2nd: 44.75 3rd: 80.84 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig338 Genome size: 53894 Host's GC content: 66.76 Predicted Codon Position GC: 1st: 67.96 2nd: 44.73 3rd: 80.67 >PredictedProphage1 Length: 11793 Number of hits = 5 GC Coding First Second Third 65.25 63.73 64.88 38.63 87.69 Codon Usage: AA Codon Total Percent Leu TTG 2 0.0152671755725191 Leu TTA 0 0 Leu CTG 80 0.610687022900763 Leu CTA 0 0 Leu CTT 7 0.0534351145038168 Leu CTC 42 0.320610687022901 Lys AAG 49 1 Lys AAA 0 0 Glu GAG 50 0.520833333333333 Glu GAA 46 0.479166666666667 Gln CAG 43 0.86 Gln CAA 7 0.14 End TGA 0 0 End TAG 0 0 End TAA 0 0 His CAT 10 0.256410256410256 His CAC 29 0.743589743589744 Asn AAT 1 0.0181818181818182 Asn AAC 54 0.981818181818182 Ser AGT 0 0 Ser AGC 13 0.220338983050847 Ser TCG 43 0.728813559322034 Ser TCA 1 0.0169491525423729 Ser TCT 0 0 Ser TCC 2 0.0338983050847458 Trp TGG 15 1 Ala GCG 60 0.545454545454545 Ala GCA 6 0.0545454545454545 Ala GCT 7 0.0636363636363636 Ala GCC 37 0.336363636363636 Arg AGG 0 0 Arg AGA 0 0 Arg CGG 9 0.0882352941176471 Arg CGA 2 0.0196078431372549 Arg CGT 18 0.176470588235294 Arg CGC 73 0.715686274509804 Cys TGT 1 0.0666666666666667 Cys TGC 14 0.933333333333333 Gly GGG 6 0.0645161290322581 Gly GGA 1 0.010752688172043 Gly GGT 12 0.129032258064516 Gly GGC 74 0.795698924731183 Asp GAT 12 0.153846153846154 Asp GAC 66 0.846153846153846 Phe TTT 5 0.0909090909090909 Phe TTC 50 0.909090909090909 Met ATG 33 1 Tyr TAT 9 0.209302325581395 Tyr TAC 34 0.790697674418605 Val GTG 39 0.40625 Val GTA 2 0.0208333333333333 Val GTT 5 0.0520833333333333 Val GTC 50 0.520833333333333 Thr ACG 49 0.790322580645161 Thr ACA 0 0 Thr ACT 0 0 Thr ACC 13 0.209677419354839 Pro CCG 33 0.825 Pro CCA 1 0.025 Pro CCT 3 0.075 Pro CCC 3 0.075 Ile ATA 0 0 Ile ATT 2 0.0317460317460317 Ile ATC 61 0.968253968253968 Left Right Strand Best Blast Hit Score Evalue 4450 4614 -1 ref|YP_024873.1|nudix hydrolase motif containing protein 37.4bits(85) 0.15 8445 8873 1 ref|NP_542266.1|unknown 39.7bits(91) 0.030 11792 12091 1 ref|NP_943919.1|NrdD anaerobic NTP reductase large subunit 42.0bits(97) 0.006 12131 14206 1 ref|YP_195185.1|ribonucleotide reductase A subunit 235bits(599) 4e-61 15361 16242 1 ref|YP_195186.1|ribonucleotide reductase B subunit 102bits(254) 4e-21 DNA sequence: CGGATGCAGGCCCGTTTCCTCGTGCAGTTCCCGGTACATCGCCTGCATGGGGGTCTCGCCATACTTGATCCCACCTTGAGGAAACTGCCAGGAATGCTCGCGGAGCCGCTTGCCCCAAAACACCTCGTTGCGCGCGTTCAAGAGGATGATGCCGACGTTCGGGCGAAAGCCTTCACGATCCAGCATACAACCACCTTCGAATCCTTTAAAATTGCTTTGATTATAAACAGATAACGGGCGCTGCGCACCGTGACGGAGCGAATCCGCGCGGGGTACACCGGCTGAATTGTCCCTGATTAGTCTGCTACGTCGTCTGCGCCATCGTCGTCCCTCGTTGTTCGCCGCGCGCAGCTTTTTCACCTTGAAACTTTTTCGGGCGCCCCGCCTGGGGGCGCCGTTTTTGGAACCGTCCGCATGAAAGCTTCCCGTTTCTTTATCGGCACCCTGAAAGAGGCACCCGCCGACGCAGAGATCGTCAGCCACAAGCTGATGGTCCGCGCCGGCATGATCCGTCGCGTCGCCGGCGGCATCTACAACTACCTGCCGGTCGGCCTGCGTTCGATTCGCAAGGTCGAGGCGATCGTGCGCGAGGAAATGAACCGGGCGGGCGCCATCGAGCTGCTGATGCCGGCCGTGCAGCCGGCCGAGCTGTGGCAGGAGTCGGGCCGCTGGGAGCAGTACGGCCCCGAGCTGCTGCGCTTCAAGGACCGCAAGGACAACGATTTCGTGATCGGGCCGACGCACGAGGAAGTCGTCACCGACATCGCGCGCAACCAGATCAAGAGCTACCGGCAGATGCCGGTGAATTTCTACCAGATCCAGACGAAGTTCCGCGACGAGATCCGGCCGCGCTTCGGCGTGATGCGCGGCCGCGAATTCATCATGAAGGACGCGTATTCGTTCGACAAGGATGCGGCCGGCCTGAACGAGTCGTATCGCAAGATGTACGACGCGTACGTGCGCATCTTCACGCGCCTCGGCCTCGAGTTTCGCGCGGTGGCGGCCGACAGCGGCTCGATCGGCGGCAACTTCTCGCACGAGTTCCACGTGATCGCCGACACCGGTGAGGACGCGATCGCCTACTGCCCGACGTCCGAATTCGCGGCGAACGTCGAGGCGGCCGAAGCGCTGCCGCTGATTGCCGAGCGCGCGGCGCCCGCCGAAGCGATGGAAAAGGTCGCGACGCCCGGCAAGGCGAAGTGCGAGGCCGTGGCCGAACTGCTGTCGATCCCGCTCGAGCGCACGATCAAGTCGATCGTGCTCGCGACCGACAACGAAGGCGCCGAGCCGACCATCTGGCTCGTGATGCTGCGCGGCGATCACGACCTGAACGAGATCAAGGTGTCGAAGCTGCCGGGCCTGAAGAACCACCGCTTCGCGACCGAGCAGGAAATCGTCGAATGGTTCGGCACGCCGCCGGGCTACCTCGGCCCGGTCGGCACGAAGAAGCCCGTGAAGGTGATCGCGGACCGCACGGTCGCGAACATGAGCGACTTCGTCGTCGGCGCGAACGAGGTCGACTATCACATCGCCGGCGTGAACTGGGGCCGCGACCTGCCGGAGCCGGAAGTCGCCGACGTGCGCAACGTGAAGAAGGGCGACCCGTCGCCGGACGGCAAGGGCGTGATCGACATCTGCCGCGGCATCGAAGTCGGCCACGTGTTCCAGCTCGGCACCAAGTACTCGGAAGCGATGGGCGCGACGTTCCTCGACGAGTCGGGCAAGCCGCAGCCGATGCTGATGGGCTGCTACGGCGTCGGCATCACGCGCATTCTCGGCGCGGCGATCGAACAGAACTTCGACGACAAGGGGATCATCTGGCCCGAGTCGATCGCACCGTTCGAGGTCGTGCTGTGCCCGATGGGCTATGACCGCAGCGACATGGTGCGCGAGACGGCCGACAAGCTGTACGCGGAACTCGTCGCGGCCGGTATCGACGTGATCCTCGACGATCGCGGCGAGCGCCCGGGTGTGATGTTCGCCGACTGGGAACTGATCGGCGTGCCGCATCGTCTGGTGATCGGCGAGCGCGGCCTGAAGGAAGGCAAGATCGAGTACCAGGGCCGCCGCGATGCCGAAGCGACGCTGCTGCCGGCCGACACGGCCGCGGCGGCGGTCGCGGAGAAGATCCGCGCCGCGCTCGCGCACTAAGCGCGGCGACCGGGCGACACGATGGAATACACGTTCCTGTCGGCCACCGTGCTCCTCGTGCTGATCACGGATCCGCTCGGCAACATCCCGCTGTTCATTTCGGCGATGCGGGATGTGCCGCGCGAGCGGCGCGTGAAGCTGATCCTGCGCGAAGTGGGGATCGCATTCGTGATCCTGCTGTTCTTCATGCTGGTCGGCGACCGCTTCCTGCGGATGATGAGCCTCACCGACCTGTCGCTGCGGCTCGGCGGCGGGATCGTGCTGTTCCTGATCGCGCTGCGGATGATCTTCCCGCATCCGGACGGCGCGCTCGGCAGCGATCCCCGTGCGGGCGGCGAGCCGTTCATCGTGCCGCTCGCGATTCCGGCGCTGGCCGGGCCGTCCGCGCTCGCGACGGTGATGCTGATGACGTCGCAGGCGCCCGGCAAGATGCTCGAGTGGGTCGGCGCGCTGACGGTCACGATGATCGTCTGCGCGATCACGCTGGTGCTGGCCGAGCGGATTCAGCAGTGGCTCGGCGAGCGGACGGTCGCCGCGTTCGAGCGGCTGATGGGCCTCGTGCTGGTGGCGATCTCGGTCGAGATGCTGCTGGCCGGCATCCGCGCGTTCGTGCACCAGTTGTAACGCAGGCGGCACGCGCGAAAAAAAGCGGCGCTCCGGGCAACCGGAGCGCCGCTTTCCATTTATATAGCAGGCCGGGCGGCGATCAGACGTTCGCGGTCAGCGCGCGGATCGTCGGCAGGTTGCGCCAGTAGCCCTTCGCGTCCATCCCGCAGCCGAACACGTAACGGTCCGGCACCGAGAAGCCGCAGAAGTCGGGGTGCAGCGGTTTCGCCTTCGCGAGCGTCTTCTCGCACAGCACGGCCGACATGAAGCGCTGCGCGCCCATGTCGAGGATGCGGTCGCGGATCGCGGCCATCGTCTCGCCTTCGTCGAGGATGTCGTCGAGTACGAGCACGATGCGGTCCTTCACCGATTCGCGCGGCGCGACGCGCCAGTGCATCTCCGGGCTGCCCTGCGTCGTGTTGCGGTAGCGGGTCAGGTGGATGTAGTCGAATTCGAGCGGGAAATCGAGATGCGGCAGCAGCATCCCGGTAAACACCGCGGCGCCGCCCATCACCGAGAGAACGAGCGGGAACGCGTCGCCGATTTCGGCGCGGATCGCGTCGGCCATCTTCGAGATCGACGCGTTGACGGCGTCGGCCGAGACGATCTCTTCGGAGTGGTCGAAAATGTGGAGGGCTTCTTCGCGGTTCATGTGTTCTGGCGGGCAGTCGGTATACAAATAAGGATGAAGCAGAACGGCAGGCGCGCGCTACGGCAAAAACCCGCGCGCCGGCCGACGGACGAAATCAGCGCATGCCGGGCATCATGCCCTTCAGGCCGCGCATCATCTTCTGCATGTTGCCGCCCTTCAGCTTCTTCATCATCGTACGCATCTGGTCGTACTGGTTCAGCATCCGGTTGACTTCCTGCACCGGCACGCCCGCGCCGGCTGCGATGCGGCGCTTGCGCGTCGCCTTGATGATTTCGGGTTTCGCGCGCTCGGCGGGCGTCATCGAGCTGATGATGCCTTCCATCCGGCGGATCGACTTTTCGGCCTGACCCATGTCGGCGCCGGCCGCCGCCTGCTGGAACTGCGCGGGGAGTTTGTCCATCAGCGACGACAGGCCGCCCATGTTCTTCATCTGCGAGATCTGCGCGCGGAAATCGTTCAGGTCGAAGTCGCCGCCTTTCTTGACCTTGTCGGCGAGCTTCTGCGCGGCCTGGACATCGACGCCGCGCTGCGCTTCCTCGACGAGCGCGAGGATGTCGCCCATGCCGAGGATCCGGTTCGCCATCCGGTCGGGGTGGAACACCTCGAGGCCGTCGAGCTTCTCGGCGACGCCGACGAACTTGATCGGTTTGCCCGTGACGTGGCGCACCGACAGCGCGGCGCCGCCGCGCGAATCGCCGTCGAGCTTGGTCAGCACGACGCCGGTGAGCGGCAGCGTGTCGTTGAACGCCTTCGCGGTGTTGACCGCGTCCTGGCCGAGCATCGCGTCGACGACGAACAGCGTTTCGGCCGGCTTCAGCGTGCCGTGCAGCGCGGCGATTTCCTGCATCATCGCCTCGTCGATGCCGAGGCGGCCGGCCGTGTCGACGAGCAGCACGTCATGGTAGTGGCGCTTCGCCCAGTCGACGGCGGCGAGCGCGATGTCGACGGGCTTCTGGTCCGGCGTGGACGGGAAGAAGTCGGCGCCGACCTGCTCGGTCACCGTTTTCAGCTGCATGATCGCGGCCGGGCGATACACGTCGCACGACACGGTCAGCACCTTCTTCTTGTACTTCTCGCGCAGCAGCTTCGCGAGCTTGCCGACGGTCGTGGTCTTGCCGGCGCCCTGCAGGCCGGCCATCAGGATCACGGCGGGCGGCGTGACCGCGAGGTTCAGCTCGGCGGCCTTGCCTTCGTAGTCGCCGCCGATCACGGCGGTCAGTTCCTTCTGGACCACGCCGACGAGCGCCTGGCCCGGCGACAGGCTGCTGATCACTTCTTCGCCGAGCGCCTTTTCCTTGACCTTGGCGATGAATTCGCGGACGACCGGCAGCGACACGTCGGCTTCCAGCAGCGCGAGACGCACCTCGCGGAGCATCTCCTGCGTGTTCGCCTCGGTGAGCCGGGCCTCGCCGCGCAGCGTCTTGACGACGCGCGCCATCCGTTGAGTGAGATTGTCGAGCATGGGGAGCGTTGGACAGTGGGGCCCGAAGGCGCGGCGGAACCGAACAAAAGGGAGCCGTCGCGGGAAGGGGGCCTAGTGTAAACTTCGAACATGGATATTGTACTGTATGCCCTCACCGCATTCCTGTACGGCGGCCTCGCCGTCGCAGGCTGGCGTACGCACCGTCAGGGCGCGACGTCGCTCGTCGCGAGCGTGCCGGCCGTGCCGGTTCCCGCGTCCGCCGCGTCCGGGATGAGCGGGGCCGGCCGCGCGCTGCTGTTCGCCGCGCTGCTCGCGCATGGCGTGCTGCTCCACATGACGATCTTTCCGAACGACGCGATGGTGTTCGGCTTCGCGTTCGCGCTGTCCGCGATGTTCTGGCTCGGCGCCGGCATCTACTGGATCGAGAGCTTTTTCTTCCCGCTCGACAGCCTGCGCCTGCTGGTGCTGCCGCTCGCGTGCGGCGCGTCGCTGCTGCCGCTCGTGTTCGGCGGCGTGCGGGTGCTGCCTTATGCCGCGGCACCGCTGTTCAAGCTGCACTTCCTGATCGCGAACATCGCGTACGGCCTCTTCGCGATCGCCGCGCTGCACGCGGTCCTGATGCTGATGGTCGAGCGGCGCCTGCAGTCGCTGCGTAGCGGCGGGCGCGACGGCTCGACCGGCTGGATCGCGAGCTGGCTCGAAACGCTGCCGCCGCTGCTCACGCTCGAGAAGCTGCTGTTCCGCCTGATCGGCGCCGGCTTCGTGCTGCTGACACTCACCCTCGCGTCGGGCATCCTGTTCAGCGAGCAGGTCGATGCGCGCGCGCTGCGGCTCGACCACAAGACGGTGTTCGCGATCCTGTCGTGGCTGATGTTCGGCGGCCTGCTGGTGGCCCGCAAGACGTCGGGCTGGCGCGGGCGCGGCGCCGCGCGCTGGGTGCTCGTGTCGTTCGCCGCGCTGCTGCTCGCGTACGTCGGCAGCCGGTTTGTTTTCGAGGTGCTGCTGCACCGCTCCGTGGTTTGACCGCAGGTTTCCGATGCGACAGATTCTTCTCCTGATTCTTCTCTTCTTCGCGGGTTCGTGGCTCGCGCGCAAGCTGCGTCACGCGCAGGAACAGGCGCAGGCGCGCACCGGCCGCGGCGCCGGTTACGACGAGGCGCCCGGCGCTGGCGCCAGTGCGGGTGCCGCGCGCCCGAACGGCGACGCGCGGTCGCTGCCCGAGCCGATGGTGCGCTGCGCCGAATGCGGCGTGCATGCGCCGAAGGGCGACGCGATTGCCGCGAGCGGCGAATACTTCTGCAGCGCCGAGCATGCGCAGCGCCACGCCGCGCGCGTGAACGGTCGCGACGCACGATGAGCGACGCGGCGGTGTTGTCGGTCGACGCGAACGGCTGGGTGCGCGAAGCGCGTCATGCGCCGTCGCCGAACTTCGAGGCGCGGCCCGCGGGAGCGGTGCCGACGCTCGTGATCGTTCACAACATCAGCCTGCCGCCCGGCGAATTCGGTGGCGACGCGATCGAGGCGCTGTTCCTGAATCGCCTCGACTGCGATGCGCACCCCTATTACCAGAGCCACCTGCGCGGCGTGCGCGTGTCCGCCCATTTCCTGATCCGCCGCGGCGGCGAGCTCGTGCAGTTCGTGTCGTGCGACGAGCGCGCATGGCATGCAGGCTCGTCCGAGTTCTTCGGCCGCGCGCGCTGCAACGACTTCTCGATCGGCATCGAGCTCGAGGGCGCGGACGACGTGCCGTTCGACGATGCCCAATACGCGGTGCTCGCCGCGCTCTCCCGCGCGCTCGCCGCGCGCTACCCGGTCGACGCGTTCGCGGGGCACTCGGACGTCGCGCCGGGGCGCAAGACCGACCCGGGCCCGCATTTCGATTGGCAACGCTTCGCGAGCGATGCCGGTTTTTCCGCCGAATACTTTCCTTTCCGTCAGCACTGATCGCGGGGTTTTTTGATCGGAGAAAGTTTTTTCTCCGATCAATGCCTTGCCGTGTCTGCGCGTGAGCGATGTCAAGACCTCTATCGCAAATTATCCGTTTGGACGTCCTCCGAATGTCCACTATACTTGGTGCCAGTTGAGTAGTTCTGTACTAGATATAGTGTGTGTCGCAGGGGAAAACCCGAGCGGCACCGGCCGGCGGGCAACGCCGGCGGACAGGGTTCTCAGGGCGGCGCGTCAGGCCGGGCGGTCCGGGCGTCGCGATCAGCGCAGCGAACATCGACGGGGCAGGGTATACATGACGAAGCACACGACCGGCTGGGTTGTCGCGCATCGACCGAACCGGCTTCCCCGGCGCATCGCTCGCCTCTTACCGCTCGCGCACCGCATTGCGCAGCGTTCGTTTTAATCCGCGGTTCTCTCCGCACCATCCAACACCAGGAGCTTTGCACATGCAAACCACCGACAACGCGACGTCCCAGTACGAGAGCGCCTCGAGCCGTCCGCTCGGCGGGACCGAACAGGGCGCGAAGGCGCTCGCGCCGCAGGCCACGTTCGCCGACTACAAGGTGATCCGCCGCAACGGCAGCGTGGTGTCGTTCGAACCTTCGAAGATCGCGATCGCGGTGACCAAGGCTTTCCTGGCCGTCAATGGCGGGCAGGGCGCGGCATCGGCGCGCGTACGCGAGCAGGTCGAGCAACTGACGCACAACGTCGTTCGCGCGCTCGTGCGCAGCCGCCCGAACGGCGGTACGTTCCATATCGAAGACATCCAGGATCAGGTCGAACTCGCGCTGATGCGCGGCGGCGAGCACAACGTCGCGCGTGCGTACGTGCTGTATCGCGAGAAGCGTCACCTCGAGCGCCAGCATGCGGGCGAGGAAGCGGCGGCAGCGGGCGGCGAGTCGGCCACCGGCATCAACGTGGTCGACAACGGCGTCACGCGCCCGCTCGACCAGAACGCGCTGCGCGCGCTGATCGTGTCGGCATGCGACGGCCTCGGCGCTGCGGTTAACCCTGACCCGATCGTCGCGGAGACGGTGAAGAACCTGTACGACGGCGTGCCGATGAGCCAGGTCTACGACTCGGCGATCCTCGCTGCGCGCACGATGATCGAAAAGGACCCGGCGTACAGCCAGGTCACGGCCCGCATCCTGCTGCACACGATCCGTCGCGAGATCCTCGGCGAGGAAGTCGTGCAGGCCGAGATGTCGACCCGCTACGCCGAATACTTCCCGCAGTTCCTGAAGCGCGGCGTCGACGCCGGCCTGCTCGACGACAAGCTGCTGCAGTTCGACCTGAAGCGCCTCGGCGAAGCGCTCGACGCGAACCGCGACCTGCAGTTCGGCTACCTCGGCCTGCAGACGCTGTACGACCGCTACTTCCTGCACGTCGAAGGCACCCGCATCGAAATGCCGCAGGCATTCTTCATGCGCGTCGCGATGGGCCTGTCGCTGAACGAGATCGACCGCGAAACGCGCGCGATCGAGTTCTACAACGTGCTGTCGAGCTTCGACTTCATGAGCTCGACGCCGACGCTGTTCAACTCGGGCACGCACCGCTCGCAGCTGTCGTCGTGCTACCTGACGACGGTCGCGGACGATCTCGACGGCATCTATGAAGCGCTGAAGGAAAACGCGCTGCTGTCGAAGTTCGCCGGCGGCCTCGGCAACGACTGGACGCGCGTGCGCGCCCTCGGCTCGCATATCAAGGGCACGAACGGCAAGTCGCAAGGCGTGGTCCCGTTCCTGAAGGTCGTGAACGACACGGCCGTCGCGGTGAACCAGGGCGGCAAGCGCAAGGGCGCGGTCTGCGCGTACCTCGAATCGTGGCACCTCGACATCGAGGAGTTCCTGGAACTGCGCAAGAACACCGGTGACGACCGTCGCCGTACGCACGACATGAACACGGCGAACTGGATTCCCGACCTGTTCATGAAGCGCGTGATGGAAGGCGGCGACTGGACGCTGTTCTCGCCGTCGACCTGCCCGGACCTGCACGACAAGTTCGGCGCCGATTTCGAGAAGGCTTACACGGCTTACGAAGACAAGGTCGCGCGCGGCGAGATCAAGCTGTTCAAGAAGATCCCGGCGGCGCAACTGTGGCGCAAGATGCTCGGCATGCTGTTCGAGACGGGCCACCCGTGGATCACGTTCAAGGATCCGTGCAACGTGCGCTCGCCGCAGCAGCACGTCGGCGTCGTCCACTCGTCGAACCTGTGCACGGAAATCACGCTGAACACGAGCGACACCGAAATCGCGGTGTGCAACCTCGGCTCGGTGAACCTCGTCGCCCACCTGGTGAAGCAGGCCGACGGCAGCTACGCGCTCGACCACGACAAGCTGAAGCGCACGATCAGCGTCGCGATGCGCATGCTCGACAACGTGATCGACATCAACTACTACGCGGTGCCGAAGGCGCGTAACTCGAACCTGAAGCACCGCCCGGTCGGGATGGGCATCATGGGCTTCCAGGACTGCCTGCACCTGCTGCGTACGCCGTACGCGTCGCAAGAGGCAGTCGAGTTCGCCGATCGTTCGATGGAAGCCGTCTGCTACTACGCGTACCACGCGTCGACCGAACTGGCCGAAGAACGCGGCCGCTACTCGAGCTACCGCGGCTCGCTGTGGGATCGCGGCATCCTCCCGCAGGACACGCTGAAGCTGCTGGCCGAAGCGCGCGGCGGCTACGTCGAGGTCGACACGTCGGAATCACTCGACTGGACGGCGCTGCGTGCGCGGATCGCCACGCACGGCATGCGCAACTCGAACTGCGTCGCGATCGCGCCGACGGCGACGATCTCGAACATCATCGGCGTGTCGGCCTGTATCGAGCCGACCTTCCAGAACCTGTACGTGAAGTCGAACCTGTCGGGCGAATTCACGGTGGTGAACGAGTATCTCGTTCGCGACCTGAAGGAACGCGGCCTGTGGGACGAAGTGATGGTCGCCGACCTGAAGTACTTCGACGGCATGCTGTCGCGCATCGACCGCATCCCGGCCGACCTGCGCGCGATCTACGCGACCGCGTTCGAGGTCGACCCGACGTGGCTGGTCGAAGCGGCATCGCGTCGCCAGAAGTGGATCGACCAGGCGCAGTCGCTGAACATCTACATGGGCGGCGCATCGGGCAAGAAGCTCGACGAGGTCTACAAGCTCGCATGGCTGCGCGGCCTGAAGACGACCTACTACCTCCGCACGATGGCGGCGACGCACGTCGAGAAGTCGACGGTCGCACACGGCGCGCTGAACGCAGTGCCGACGGGCGGTGCAGGCAGCGGCGGCTCGAGCAGCGGCGGCGCGCAAGGCGCGGCGGGCGGCTTCGGTGCGGCAGGCGGCGCTGCGTCGTCGGGCGCGGTCAACGCTGCAGCGGCGCTCGCGCCGGTCGAAGCAGACGGCCCGGTGTGCACGATGCGTCCGGGCGACCCCGGCTTCGACGAGTGCGAAGCGTGCCAGTAACGCAGTGCGCCTGACCTGAGAAGCAGGCTCGGGCGGCGCACACGACGACCGATCGAGGTTGAAGTGTGCGCCGCTCTCAACTAAAAAAATGATAAGGAATCTGTAACGCGACACCTGCGTTGCAGGCAATGACAAGCGATCGAAACATCCCCGACGACGTCGCGTTTCGATCAGCGTTCGATGCGTCGAGCGCACCTCGCGATACAAGCGCGACTCACATCGCGCGCTGCATGAACGACGATGCGTTGCTCAAAGTGTTGTATCGAGGTCGCAACGCGAATCGAAAAAAGGATTTTTCGTGAGCGAACCCTTTTATCGCTCAGGAAAAGATGGTACAAACCGTTCTAAATTGATGGTGAGAATTTATGCTCAACTGGGATGACGAGAAGACTGCCGTAACCCCCGCGAGCGGAGCGCAGCAAAACGCGATGCGCACCTCCGCCGGGATGGCTGTCGGAATGCAGGCTGCAACGCCTGCCGCCCATCAGGTCCGTGACATTTTCGAAGGCGATCTCGCGGTGCCGCCGCAAGCATCGGCTGTTCCCGCCGGCGGTACGGAAGCGCGGGTCAATGTCGCCGACAAGCGCATCATCAACGGCCAGACTGACGTCAATCAGCTGGTGCCGTTCAAGTACAAGTGGGCGTGGGAAAAGTATCTGGCCGGTTGTGCGAACCACTGGATGCCGCAGGAAATCAACATGTCCCGCGACATCGCACTGTGGAAGGACCCGAACGGTCTGACCGAGGACGAGCGCCGCATCGTGAAGCGCAACCTCGGCTTCTTCGTGACGGCCGATTCGCTCGCGGCGAACAACATCGTGCTCGGCACGTACCGCCACATCACGGCGCCCGAGTGCCGGCAGTTCCTGCTGCGCCAGGCGTTCGAGGAAGCGATCCACACGCACGCGTACCAATACATCGTCGAATCGCTCGGTCTCGACGAAGGCGAGATCTTCAACGCGTACCACGAGGTCACGTCGATCCGCGCGAAGGACGAATTCCTGATCCCGTTCATTCATACGCTGACGGACCCGGCCTTCAAGACCGGCACGCTCGAAGCGGATCAGAAGCTGCTGAAGTCGCTGATCGTGTTCGCCTGCATCATGGAAGGCCTGTTCTTCTATGTCGGGTTTACGCAGATCCTCGCGCTCGGCCGCCAGAACAAGATGACGGGTGCTGCAGAGCAATATCAGTACATCCTGCGCGACGAGTCGATGCACTGCAACTTCGGCATCGACCTGATCAACCAGATCAAGCTCGAGAACCCGCATCTCTGGACCGCCGAATTCCGCGCCGAGATCCGCGAGCTGTTCAAGCAGGCTGTCGAACTCGAATACCGCTACGCCGAGGACACGATGCCGCGCGGCGTGCTGGGTTTGAACGCGTCGATGTTCAAGAGCTATCTGCGCTTCATCAGCAACCGCCGTTGCCAGCAGATCGGCCTCGACCCGCTGTATCCGAACGAGGAAAACCCGTTCCCGTGGATGAGCGAGATGATCGACCTGAAGAAGGAGCGCAACTTCTTCGAGACGCGTGTGATCGAGTATCAGACGGGTGGC Predicted Gene Sequences: >PredictedProphage1 -Hit 1 CGCCCGAACGTCGGCATCATCCTCTTGAACGCGCGCAACGAGGTGTTTTGGGGCAAGCGGCTCCGCGAGCATTCCTGGCAGTTTCCTCAAGGTGGGATCAAGTATGGCGAGACCCCCATGCAGGCGATGTACCGGGAACTGCACGAGGAAACGGGCCTGCATCCG >PredictedProphage1 -Hit 2 GTCGGGGTGGAACACCTCGAGGCCGTCGAGCTTCTCGGCGACGCCGACGAACTTGATCGGTTTGCCCGTGACGTGGCGCACCGACAGCGCGGCGCCGCCGCGCGAATCGCCGTCGAGCTTGGTCAGCACGACGCCGGTGAGCGGCAGCGTGTCGTTGAACGCCTTCGCGGTGTTGACCGCGTCCTGGCCGAGCATCGCGTCGACGACGAACAGCGTTTCGGCCGGCTTCAGCGTGCCGTGCAGCGCGGCGATTTCCTGCATCATCGCCTCGTCGATGCCGAGGCGGCCGGCCGTGTCGACGAGCAGCACGTCATGGTAGTGGCGCTTCGCCCAGTCGACGGCGGCGAGCGCGATGTCGACGGGCTTCTGGTCCGGCGTGGACGGGAAGAAGTCGGCGCCGACCTGCTCGGTCACCGTTTTCAGCTGCAT >PredictedProphage1 -Hit 3 AAGGTGATCCGCCGCAACGGCAGCGTGGTGTCGTTCGAACCTTCGAAGATCGCGATCGCGGTGACCAAGGCTTTCCTGGCCGTCAATGGCGGGCAGGGCGCGGCATCGGCGCGCGTACGCGAGCAGGTCGAGCAACTGACGCACAACGTCGTTCGCGCGCTCGTGCGCAGCCGCCCGAACGGCGGTACGTTCCATATCGAAGACATCCAGGATCAGGTCGAACTCGCGCTGATGCGCGGCGGCGAGCACAACGTCGCGCGTGCGTACGTGCTGTATCGCGAGAAGCGTCACCTCGAGCGC >PredictedProphage1 -Hit 4 TCGGCCACCGGCATCAACGTGGTCGACAACGGCGTCACGCGCCCGCTCGACCAGAACGCGCTGCGCGCGCTGATCGTGTCGGCATGCGACGGCCTCGGCGCTGCGGTTAACCCTGACCCGATCGTCGCGGAGACGGTGAAGAACCTGTACGACGGCGTGCCGATGAGCCAGGTCTACGACTCGGCGATCCTCGCTGCGCGCACGATGATCGAAAAGGACCCGGCGTACAGCCAGGTCACGGCCCGCATCCTGCTGCACACGATCCGTCGCGAGATCCTCGGCGAGGAAGTCGTGCAGGCCGAGATGTCGACCCGCTACGCCGAATACTTCCCGCAGTTCCTGAAGCGCGGCGTCGACGCCGGCCTGCTCGACGACAAGCTGCTGCAGTTCGACCTGAAGCGCCTCGGCGAAGCGCTCGACGCGAACCGCGACCTGCAGTTCGGCTACCTCGGCCTGCAGACGCTGTACGACCGCTACTTCCTGCACGTCGAAGGCACCCGCATCGAAATGCCGCAGGCATTCTTCATGCGCGTCGCGATGGGCCTGTCGCTGAACGAGATCGACCGCGAAACGCGCGCGATCGAGTTCTACAACGTGCTGTCGAGCTTCGACTTCATGAGCTCGACGCCGACGCTGTTCAACTCGGGCACGCACCGCTCGCAGCTGTCGTCGTGCTACCTGACGACGGTCGCGGACGATCTCGACGGCATCTATGAAGCGCTGAAGGAAAACGCGCTGCTGTCGAAGTTCGCCGGCGGCCTCGGCAACGACTGGACGCGCGTGCGCGCCCTCGGCTCGCATATCAAGGGCACGAACGGCAAGTCGCAAGGCGTGGTCCCGTTCCTGAAGGTCGTGAACGACACGGCCGTCGCGGTGAACCAGGGCGGCAAGCGCAAGGGCGCGGTCTGCGCGTACCTCGAATCGTGGCACCTCGACATCGAGGAGTTCCTGGAACTGCGCAAGAACACCGGTGACGACCGTCGCCGTACGCACGACATGAACACGGCGAACTGGATTCCCGACCTGTTCATGAAGCGCGTGATGGAAGGCGGCGACTGGACGCTGTTCTCGCCGTCGACCTGCCCGGACCTGCACGACAAGTTCGGCGCCGATTTCGAGAAGGCTTACACGGCTTACGAAGACAAGGTCGCGCGCGGCGAGATCAAGCTGTTCAAGAAGATCCCGGCGGCGCAACTGTGGCGCAAGATGCTCGGCATGCTGTTCGAGACGGGCCACCCGTGGATCACGTTCAAGGATCCGTGCAACGTGCGCTCGCCGCAGCAGCACGTCGGCGTCGTCCACTCGTCGAACCTGTGCACGGAAATCACGCTGAACACGAGCGACACCGAAATCGCGGTGTGCAACCTCGGCTCGGTGAACCTCGTCGCCCACCTGGTGAAGCAGGCCGACGGCAGCTACGCGCTCGACCACGACAAGCTGAAGCGCACGATCAGCGTCGCGATGCGCATGCTCGACAACGTGATCGACATCAACTACTACGCGGTGCCGAAGGCGCGTAACTCGAACCTGAAGCACCGCCCGGTCGGGATGGGCATCATGGGCTTCCAGGACTGCCTGCACCTGCTGCGTACGCCGTACGCGTCGCAAGAGGCAGTCGAGTTCGCCGATCGTTCGATGGAAGCCGTCTGCTACTACGCGTACCACGCGTCGACCGAACTGGCCGAAGAACGCGGCCGCTACTCGAGCTACCGCGGCTCGCTGTGGGATCGCGGCATCCTCCCGCAGGACACGCTGAAGCTGCTGGCCGAAGCGCGCGGCGGCTACGTCGAGGTCGACACGTCGGAATCACTCGACTGGACGGCGCTGCGTGCGCGGATCGCCACGCACGGCATGCGCAACTCGAACTGCGTCGCGATCGCGCCGACGGCGACGATCTCGAACATCATCGGCGTGTCGGCCTGTATCGAGCCGACCTTCCAGAACCTGTACGTGAAGTCGAACCTGTCGGGCGAATTCACGGTGGTGAACGAGTATCTCGTTCGCGACCTGAAGGAACGCGGCCTGTGGGACGAAGTGATGGTCGCCGACCTGAAGTACTTCGACGGCATGCTGTCG >PredictedProphage1 -Hit 5 TGGATGCCGCAGGAAATCAACATGTCCCGCGACATCGCACTGTGGAAGGACCCGAACGGTCTGACCGAGGACGAGCGCCGCATCGTGAAGCGCAACCTCGGCTTCTTCGTGACGGCCGATTCGCTCGCGGCGAACAACATCGTGCTCGGCACGTACCGCCACATCACGGCGCCCGAGTGCCGGCAGTTCCTGCTGCGCCAGGCGTTCGAGGAAGCGATCCACACGCACGCGTACCAATACATCGTCGAATCGCTCGGTCTCGACGAAGGCGAGATCTTCAACGCGTACCACGAGGTCACGTCGATCCGCGCGAAGGACGAATTCCTGATCCCGTTCATTCATACGCTGACGGACCCGGCCTTCAAGACCGGCACGCTCGAAGCGGATCAGAAGCTGCTGAAGTCGCTGATCGTGTTCGCCTGCATCATGGAAGGCCTGTTCTTCTATGTCGGGTTTACGCAGATCCTCGCGCTCGGCCGCCAGAACAAGATGACGGGTGCTGCAGAGCAATATCAGTACATCCTGCGCGACGAGTCGATGCACTGCAACTTCGGCATCGACCTGATCAACCAGATCAAGCTCGAGAACCCGCATCTCTGGACCGCCGAATTCCGCGCCGAGATCCGCGAGCTGTTCAAGCAGGCTGTCGAACTCGAATACCGCTACGCCGAGGACACGATGCCGCGCGGCGTGCTGGGTTTGAACGCGTCGATGTTCAAGAGCTATCTGCGCTTCATCAGCAACCGCCGTTGCCAGCAGATCGGCCTCGACCCGCTGTATCCGAACGAGGAAAACCCGTTCCCGTGGATGAGCGAGATGATCGACCTGAAGAAGGAGCGCAACTTCTTCGAGACGCGTGTGATCGAGTATCAGACGGGTGGC Predicted Protein Sequences: >PredictedProphage1 -Hit 1 RPNVGIILLNARNEVFWGKRLREHSWQFPQGGIKYGETPMQAMYRELHEETGLHP >PredictedProphage1 -Hit 2 VGVEHLEAVELLGDADELDRFARDVAHRQRGAAARIAVELGQHDAGERQRVVERLRGVDRVLAEHRVDDEQRFGRLQRAVQRGDFLHHRLVDAEAAGRVDEQHVMVVALRPVDGGERDVDGLLVRRGREEVGADLLGHRFQLH >PredictedProphage1 -Hit 3 KVIRRNGSVVSFEPSKIAIAVTKAFLAVNGGQGAASARVREQVEQLTHNVVRALVRSRPNGGTFHIEDIQDQVELALMRGGEHNVARAYVLYREKRHLER >PredictedProphage1 -Hit 4 SATGINVVDNGVTRPLDQNALRALIVSACDGLGAAVNPDPIVAETVKNLYDGVPMSQVYDSAILAARTMIEKDPAYSQVTARILLHTIRREILGEEVVQAEMSTRYAEYFPQFLKRGVDAGLLDDKLLQFDLKRLGEALDANRDLQFGYLGLQTLYDRYFLHVEGTRIEMPQAFFMRVAMGLSLNEIDRETRAIEFYNVLSSFDFMSSTPTLFNSGTHRSQLSSCYLTTVADDLDGIYEALKENALLSKFAGGLGNDWTRVRALGSHIKGTNGKSQGVVPFLKVVNDTAVAVNQGGKRKGAVCAYLESWHLDIEEFLELRKNTGDDRRRTHDMNTANWIPDLFMKRVMEGGDWTLFSPSTCPDLHDKFGADFEKAYTAYEDKVARGEIKLFKKIPAAQLWRKMLGMLFETGHPWITFKDPCNVRSPQQHVGVVHSSNLCTEITLNTSDTEIAVCNLGSVNLVAHLVKQADGSYALDHDKLKRTISVAMRMLDNVIDINYYAVPKARNSNLKHRPVGMGIMGFQDCLHLLRTPYASQEAVEFADRSMEAVCYYAYHASTELAEERGRYSSYRGSLWDRGILPQDTLKLLAEARGGYVEVDTSESLDWTALRARIATHGMRNSNCVAIAPTATISNIIGVSACIEPTFQNLYVKSNLSGEFTVVNEYLVRDLKERGLWDEVMVADLKYFDGMLS >PredictedProphage1 -Hit 5 WMPQEINMSRDIALWKDPNGLTEDERRIVKRNLGFFVTADSLAANNIVLGTYRHITAPECRQFLLRQAFEEAIHTHAYQYIVESLGLDEGEIFNAYHEVTSIRAKDEFLIPFIHTLTDPAFKTGTLEADQKLLKSLIVFACIMEGLFFYVGFTQILALGRQNKMTGAAEQYQYILRDESMHCNFGIDLINQIKLENPHLWTAEFRAEIRELFKQAVELEYRYAEDTMPRGVLGLNASMFKSYLRFISNRRCQQIGLDPLYPNEENPFPWMSEMIDLKKERNFFETRVIEYQTGG Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig339 Genome size: 58795 Host's GC content: 66.48 Predicted Codon Position GC: 1st: 67.79 2nd: 44.65 3rd: 80.19 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig340 Genome size: 50533 Host's GC content: 67.21 Predicted Codon Position GC: 1st: 68.24 2nd: 44.85 3rd: 81.43 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig341 Genome size: 54099 Host's GC content: 67.12 Predicted Codon Position GC: 1st: 68.18 2nd: 44.82 3rd: 81.26 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig342 Genome size: 50939 Host's GC content: 67.23 Predicted Codon Position GC: 1st: 68.24 2nd: 44.85 3rd: 81.45 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig343 Genome size: 53527 Host's GC content: 69.18 Predicted Codon Position GC: 1st: 69.45 2nd: 45.38 3rd: 84.75 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig344 Genome size: 56852 Host's GC content: 67.54 Predicted Codon Position GC: 1st: 68.44 2nd: 44.94 3rd: 81.98 >PredictedProphage1 Length: 14022 Number of hits = 6 GC Coding First Second Third 67.32 67.17 65.78 54.85 80.89 Codon Usage: AA Codon Total Percent Leu TTG 6 0.0759493670886076 Leu TTA 0 0 Leu CTG 44 0.556962025316456 Leu CTA 0 0 Leu CTT 5 0.0632911392405063 Leu CTC 24 0.30379746835443 Lys AAG 8 0.571428571428571 Lys AAA 6 0.428571428571429 Glu GAG 17 0.425 Glu GAA 23 0.575 Gln CAG 29 0.90625 Gln CAA 3 0.09375 End TGA 3 0.75 End TAG 0 0 End TAA 1 0.25 His CAT 18 0.580645161290323 His CAC 13 0.419354838709677 Asn AAT 9 0.321428571428571 Asn AAC 19 0.678571428571429 Ser AGT 3 0.03 Ser AGC 39 0.39 Ser TCG 37 0.37 Ser TCA 3 0.03 Ser TCT 1 0.01 Ser TCC 17 0.17 Trp TGG 10 1 Arg AGG 5 0.0427350427350427 Arg AGA 4 0.0341880341880342 Arg CGG 27 0.230769230769231 Arg CGA 8 0.0683760683760684 Arg CGT 18 0.153846153846154 Arg CGC 55 0.47008547008547 Ala GCG 70 0.476190476190476 Ala GCA 19 0.129251700680272 Ala GCT 5 0.0340136054421769 Ala GCC 53 0.360544217687075 Cys TGT 3 0.166666666666667 Cys TGC 15 0.833333333333333 Asp GAT 15 0.272727272727273 Asp GAC 40 0.727272727272727 Gly GGG 10 0.151515151515152 Gly GGA 8 0.121212121212121 Gly GGT 5 0.0757575757575758 Gly GGC 43 0.651515151515151 Phe TTT 7 0.205882352941176 Phe TTC 27 0.794117647058823 Tyr TAT 8 0.444444444444444 Tyr TAC 10 0.555555555555556 Met ATG 21 1 Val GTG 29 0.358024691358025 Val GTA 4 0.0493827160493827 Val GTT 5 0.0617283950617284 Val GTC 43 0.530864197530864 Thr ACG 30 0.526315789473684 Thr ACA 3 0.0526315789473684 Thr ACT 0 0 Thr ACC 24 0.421052631578947 Pro CCG 41 0.694915254237288 Pro CCA 1 0.0169491525423729 Pro CCT 5 0.0847457627118644 Pro CCC 12 0.203389830508475 Ile ATA 1 0.024390243902439 Ile ATT 7 0.170731707317073 Ile ATC 33 0.804878048780488 Left Right Strand Best Blast Hit Score Evalue 30218 30958 1 ref|NP_046877.1|putative non-heme haloperoxidase 68.2bits(165) 8e-11 33348 33863 1 ref|NP_542287.1|unknown 35.8bits(81) 0.46 35487 35918 1 ref|NP_945089.1|gp58 68.6bits(166) 6e-11 36918 37322 -1 ref|NP_945089.1|gp58 47.8bits(112) 1e-04 40507 41016 1 ref|NP_064745.1|gp7 41.2bits(95) 0.011 43688 44239 -1 ref|NP_945089.1|gp58 48.1bits(113) 9e-05 DNA sequence: ATCTTTTTTCATCATGGCTGGCCGCTCAGCGCCGACGACTGGGATGCGCAGATGCTGTTCTTCCTCGCCCAGGGCTACCGCGTGATCGCGCATGACCGTCGCGGCCACGGACGCTCCAGCCAGGTGTGGGACGGCCACGACATGGATCACTATGCGGACGACGTCGCCGCGGTCGTGAATCATCTCGGCGTGCAGGGTGCCGTTCACGTCGGCCATTCCACCGGCGGCGGCGAAGTCATCCACTATGTCGCGCGTCACGGCGAGGATCGCGTCGCCAAGGCCGTGCTGATCAGCGCCGTCCCGCCGCTGATGGTCAAGACCGACAGCAATCCCGGCGGCCTGCCGAAGGACGTGTTCGACAATCTCCAGGCACAGCTCGCGGCGAACCGCGCGCAGTTCTACTACGACGTGCCGGCCGGCCCGTTCTACGGCTACAACCGCACCGGCTCGACACCGTCGCAGGGCGTCATCTGGAACTGGTGGCGACAAGGCATGATGGGCAGCGCGAAAGCTCACTACGACGGGATCGTCGCGTTCTCGCAGACCGACTTCACCGAAGACCTGAAAAGCACCACGATTCCCGTTCTCGTGATGCACGGCGACGACGACCAGATCGTTCCGTATGCGGATTCCGGCCTCCTGTCGGCGAAACTGGCGAGGAACAGCACGCTGAAGGTCTACGCGGGCTTCCCGCACGGCATGCCGACGTCCAACGCCGACACGATCAACGCCGATCTGCTCGCGTTCATCCGCAGCTGAACGCGGCGGATGCCGGCGCGGCCTTCAGTCTGGGCGCAGGCGGGAGGCCGCGTGAAAACGGCGGGCAAACGGGCCGCAGGCGCTCAAGGATCGATTCATCGACGAGTTGTCTCAGTTGAAAGCGCTTTATCGGCCAGCCGGCGATTGACGCATCACGATCCGCCCATCGCCGACAGCATTCGCCTATAGTGCCGATTGCCCATTCAACGAGGAGAACAGTCATGACACTGCAGGCCCGCGGTCCGTTCGAAGTGAAGCTGAATCCGGAACCCTTGAGCAACGTCGCGGAAGGCAGCGGGCTCGGCCGCATGTCGCTGGACAAGCATTTCCACGGCGATCTGGAAGCCGTGAGCCACGGTGAAATGCTCGCGTTTCGCAGCAGCGTTCAGGGCTCGGCCGGCTACGTGGCGATGGAAACCGTCAAAGGCGTGCTCGGCGGACGCAAGGGCAGCTTCGTGCTGCAGCACAGCTCCACCATGACGCGCGGGCAGCCGACGCAGTCGATCACGGTCGTGCCCGATTCCGGCACAGACGAATTGCTCGGGCTGTCCGGCGCGATGCGCATCGACATCGACGACGGCCAGCATGCGTACCGCTTCGACTACGCATTGCCTGACGCGCCGCAATAAGCCCGCCCGTCACGCGAGCGCCGCTTCGCGCAGACGGAACTGCGCGACCGCCGCGCTCAGCCGCGCGCCCTGTTCGTCGAGCGACAGCGCCGCGGCCGCCGCCTCCTCGACCAGCGCGGCATTGCGCTGCATCGTCTGCTCCATCTGGATCACCGCGGCGTTCACCTGCTCGATGCCCGACGACTGCTCGTCGAACGCCTGGCTCGTTTCGCCCATGATCGCGTTGACGCGCTCGACCGCCGCGACGAGCTCGGTCATCGCCGAGCCGGCCAGCGCGACGAGGCCGCTGCCGTCTTCGACGCGTCGCGCGGAATGACCGATCAGGTCGCGAATTTCCTTCGCCGCCGCCGCACAGCGCTGCGCGAGCCCGCGCACCTCGGTGGCGACGACCGCGAACCCGCGCCCCTGCTCGCCCGCGCGCGCGGCTTCGACGGCGGCGTTCAACGCGAGGATGTTGGTCTGGAACGCGATGCTCTCGATCACGCCGACGATGCCGGAAATGCGCGTGGAGCTCGTCGAAATTTCCGACATGGTCGCGACGACGCGCTGCATCGCTTCGCCGCCGCGCGACGCGATGCCGGCCGCGCCCTCGACGTACGTGCGCGCGTCGCGCGCGTTGTCCGCGTTCTGGCGCACGGCCGCCGTCAGTTGCTCGACGCTCGCGGCCGCCTGCTGCAGCGACACGGCCTGCTGCTCGGTGCGTGCGGACAGGTCGACGTTGCCGCTCGCGATCGTGCGCACGTCGCCGACGATCGTCTCGGTGCTCGCACGCACCTGGCTCACGGTATCGACGAGGCCGTCCTGCATCCGCTTCAGCGCATTCAGCAGATACGCCATCTCGTTCTCGCCCGGGACGACGACGGTGCCGGTCAGGTCGCCTTTCGCGATTTTCTCGAACTGATCGACCGCGAGATTGATCGGCCCGATGATCGCCTTCGCGAGCACGCGCTGCGCAACGAAGCCGACGACGAGCGCCAGCACCGCAACCGCCCCCATCCCCCACACGATCCGGTGGAAATTGATGCCGGCCGCCTCGTAGCGGGCCTTCTGGCGCGCGACCTGGAACGATTCGAGCGCGTCGATCGCCTCCTGGTAGGCGGCGAACAGCGCCGGCGGCGCGGTGCGCTGCGTGTCGAGGAAGTTGAATGCGTCGTCGCCGTCGAGTTGCGACAGCGCCTTCAGGAACACACGGTCGAGCAGCGCGCGCCGACGGCTTTGCAGCGTGTCGAACAGCGCCTGCTCGCTGGCGTCGCGCGCATGCAGATGCGTGTACGCGTCCAGTTCGTCGTTGCTCTGCTTGAGCAATGTGTGAAGTTGCGCGACTTCCTCCTTCGCGGGCTGGCCGGCGCTGATGATCTGCGCGACGTCGCTCATGCGTTCGCGCAGCACGAGCATCCGCTCGGAGCTGGTCTTCAGGTGCAGCAGCGACGCGGTGTCGTCACGGTACATCGCCTCGAGCGAGCCGTTGCCGATGGTGAGGGCCGCGATGCCCGCACCGACCACCAGCACGAGCAGCATGGTATAGCCGGCGATGGTCGCGACGAGGCCACCACGGATAGTGAGTTGTTTTCGCATGACGTTCCCTTGAGCCGGCCGGGCACGGCCAGCGGCGGAGGTGAATTCCGGAACACGAACGGCGCGCGCCATGACGCACTACGCGGCGCGGGGGCTGCGAACGAGTTAACGGCGCGGGGAACGGGCGGCTTTTATCCGCACGCGACACGAATCTTGACGATTGCGACAGAGGGGGAAGGCGCAGCGCGGCTACCGGCAATCGCCGAGCGTCGAACGAATTTCGTCGGCCGACGCGCCGCGCTGGTGCGTGGCGATCTGCCAAACGTTTCCGCACGCGTCCTTCACCCTCAGCCGCCGGTCGCCGGACGGCATGTCGGCGGGCGCTTCCAGCGGAATCGCCTGCAATGCGAGCGTCCGTCGACAGATCGAATCGGAGTCGTCGACATACACGTACGGAAACACCTGTATCGCGTCAGGCACCGGTCTCGTAAAACAGCCCGTATTCACCGCTCGCCCGCCTGATTCGCGCGAACCCGGGTTCGCCCAGATGCATGCCGGCGATCAACAGCCCTTCCGAGCTGACCCGGTCCAGCAGCCGCGAACGCGTGGTCGCTGCCTGCGACGCATCCTGGTCGAACGCAATCGACACGTCCGGCCGCCTGATCTGGATGTGCGGAAAATGCACGATGTCGCCCCACACGAGCAGGCCCTGATCGCCGGATGCGAGCAGGTATCCGGTATGTCCGTCGGTATGCCCCGGTAGCGGAATGGCGGCGATTCCGGGAAGCACCTCGCCTTCCTCGAAGGTCCGGAGCACGTCGCGGTAAGCGTCGAATACCTGACGCGCGATCCGGAAATTGCCGCGGGCGCGCTCGCTGGCGCGGCTCAGGTTGCCGTCGTCCCGCCAGAATGCGACCTCGCGTCGATGCGCGACCAGCTCCGCATTCGGAAACGCGACGTGTCCATCGGCATGCACCAGCCCGCCGACGTGGTCGGGATGGGCGTGGGTGAGCAGGACGGTGTCGATCGCGGCAGGCTCGATGCCGGCGAGCCGCAAATTGTCCATCAGGCGGCCGCCCCATTGTTTGATGCCGCCAGCCCCGGCGTCGATGAGCACCGTGCGGCCCGCGCCGCGCACCACGTAGCAGTTGATGTGCACGGCGGACGGCGCCTGCTGCCCGGCCGCACGCTGCATCCCGGCGGCGTCGGTCGCGTCGATATTCGACAGGAAATCGAGGCTGGCCGTGAGGTAGCCGTCGCTGATCGCGGTGATCGTGAAATCCCCGACACGCTGGCCGGGCAACGTAACGTTGGACATCGTGCTTCTCCGTAGCGGCTAGTTTCGGGCGTGAAGGTTCGGCGCGGCGTGACCGAAGCAACGGATGCGTGCGGTCAGTCCGGTGCGGCGGACGACGGCGTGATCGAGCGCCTCCATGAATGCGTTCATGACCGCGGGCGGGCGAGACGGCGCGTCGCGATACTGGATTTCCGCGAAAACGGGATGCCCGCAGCCATGCCGAACCGCGACGTAAATGACGTGGACGTTCGTGATTTCTGCCTGAAGGACCCGCGTACAAAGGTCGATGCAGTCGTCGGACAGCTCGGCGAGGCACGCGTCCGGCGGCATGCGTTCCGTATCGATATGGAAAGTCACGTTAGGCATCGCGGGCCGCCTTCGTCAGTTGTTTGGTCATCGGCGTGTAAAGGTAAAGGCCGGCCGGCGCGTTGTCGCCAAGCGGAGCGGCGCGCCGCGGCAGGACCGCGAGCCAGCGGCGCGCCGGAAACTGTTCCAGTGCGACGGCCTGCATGGCCAGCGGCTTCAGGCCCAGTTCGATCAGCGAGTCGGGCCCGCCGGCGCTCAGCACGAGTAGCTCGTCGGCATTGACCGCCGGCGCACGACCGATGTCGCTGTAGAGATTGCGGTGCCAGTCGGTGATGTGCTGCTGCCATCGCGCGAAATTGCCGCCGCCTTTTTGCCGATATTCATCGCCGGTCAGCACGTCGAGGCCGTCGATCGTGTGAACGGCCAGATAAACGGGGCAGCCGTCGCTGATCGCCTTGAAACGCTGCGACGTGTGAAAGCCAGCCACCGAGATGAGGGCCGGCAGCTTGTCGAGGCTGTAGAAGTCGTTCCATTCGGCTTCGCTGGCAGGGTCGGCGAAGCTGCATTCCACGGTGTAGATCATCGGATTTTCCTTCGTCACGGATGCGCATCCTGCGCTTCGGATGCGGGATATTCAGTGCAGTGACGTAATGCTAATCTGCTGGTTTCCGCGTAGATATCGACTTAAAGTCAGCCTTCAGTGATATTTGATCAAGCTGATGGCCGAACGCGATACGACTCACGAGACCCCATGCGACGCAAGATCCCGAGCAATTCCGCGCTCCTGGCCTTCGAGGCGGCGGCCCGACATGGCAGCTTCGCCCGCGCCGCCGACGAGCTGGCCCGCACCGAGGGCGCCGTCAGTCGCCAGATCGGCCGGCTGGAGGCGTTCCTCGGCGTGACGCTGTTCGAGCGCGTCGGCAACCGGGTGCGGCTTGCCCCCAACGGCACGCGATACGCAGTGCAGGTGCGCGAGATTCTGGATCGGCTGGAACGGGACAGCCTGTATCTGATGGGGCAGCCCGTGGAAGGCGCGAGCATCGACATCGCCGCGATTCCGACCTTCGCGACCCGCTGGCTGATCCCGCGGCTGAAGCGCTTTCAGGATCGCCATCCGAACGTCACCGTGCATATCGCCGAACGGATGGAACCCTTCCTGCTGGCCGGCAGCGGATTCGACGCGGCCATTCACTTCGAGCATCCGGCCTGGGCCGGCATGCACCTGCATCCGCTGCTGGAGGAGGTGCTGGTACCCGTCTGCAGTCCGGCGCTTCTCGAACGCGTTGGCGCGAACCCGTCGCTGGATGCGCTGCCGCGCCTTCACCGGCGGCAGAATCCGGACGCGTGGCAGCGCTATGCGCAGGAGACCGGCATCGTGCTGACCAATTCGGCGGTCGGCCCGCGATACGATCTTCATTCGATGCTGATCGAGGCCGCGCTGGCCGGCCTGGGCGTCGCGCTGGTGCCGCGCCTTTACATCGGCGCCGAGCTTGAACAACGGCGTCTGGTCGCGCCCTGGCCCGACGGCACGGCGGTGACGAAAAACTTCTGCCTCGTGCTGCCGGAGCCGATCGAATTGAGCGCGGCGCCGGTGCGGGCGTTTGCGGAGTGGGTGCTGAGCGAGGCGCGAGATGGGGTACGTTGATGCCGCGCCCGCTGTTCATCGCGACACGGATTCGGAAGGGCCTGCTCCGCCGCCCCGCTAATCGAGGTACGGCTCCAACACGCCCCCGATCCAGTCCATGAACGCCCGCACGCGCGGCGAAAGATTGCGCCGATGCGCGACGACGAGCGACGCGGCAAGCGGCTCGGGCCGCAAATCGGGCAACACCTCCACGAGCGCGCCGCTTTCGATGTGATGCGCGAGCGCCGAATAGCCGGCCTGGATCAGTCCGATGCCCGCCAGCCCGGCCGCATGATAGGTCTGCACACTGTTGACCTGCATCGCGCTCGGCAACGGCAGCCACGCATAGCCGTCGCCGTCCGGGTATTCCCAGCCGGGATGCCGCGCGCCGAGCGTCAGCGTGTAGTGAATCATCCTGTGCCCCTGGCTGTGCAGATCGGCGAGCGTACGCGGCACGCCATGCCGCGCCAGATAATCGGGGCTCGCCGCATTCGTCATGCGCAGCCTGCCCAGCGGCCGGGCAATCAGCGTCTCGTCGGCGATCGGGCCCAGCCGGATCACGCAGTCGAACCCTTCCCGAACCAGATCGACACGCCGGTCGGTGCTGGAAAGCTCCAGCTCCAGATCCGGATGCGCGGCCATCAGTTGCGGCAGCGCCGGCACCACGACGCTGCGCGCCAGCTCCGTGGGCATGTCTACACGCAACCTGCCGCGCAGCGATGCGCCACGCCCCGAAAACATCGACTGCAATTCCTGCACTTCCGCGAGCAGGTCGGTTGCGCGCGCATAGAACGCGCGTCCGTCTTCGGTGAGCTGCACGCGCCGCGTGGTCCGATGCAGCAGTGCGACGCCCATGTCCCGTTCGAGCGTGCGGACGACCGTCGATACCCGTCCTTTCTGAATTCCGAGGCTTTCAGCCGCACGCGTGAAGCTCGCCATTTCGGCGACACGGGCAAAAATCAAAAGCGCATCAAGGTTCTGCATTGTTCATCCGGAAAGTAACAGAACGTTCAATCTGTCGTCGTTTATAACCCGATCGCGGCTCGCTAGAGTGGTTTCCCACGTCGTCCGAACGACGCTCCAACCGAAAGGAAACCCTCATGGATCAACTCAACCCGCCGGTGAAAACGGCCGTCGTCTACCACTCCGGCTACGGCCATACGCAACGGATGGCCGCCGCCGTCGCGGACGGCGCCGGCGCCGCACTCGTCGCGATCGATGCCGACGGCAACCTTGCCGACGACGCGTGGAACACATTGGCCGACGCCGATGCAATCCTGTTCGGCTCGCCGACCTACATGGGCGGCCCGAGCTGGCAGTTCAAGAAGTTCGCGGACGCGTCGTCGAAAGTCTGGTTCGAAAGCGGATGGCAGAACAAGATCTTCGGCGGCTTCACCAATAGCGCCAGCATCAACGGCGACAAGCTCAATACGCTCGAATACTTCTTCCTGCTGGCCGGCCAGCACGGCGGCATCTGGGTCAGCATGGACATCAAGCCGGCCAATCTGAAAGCGTCGACGCGCGACGACCTGAACCGCATGGGCGCCTACATCGCGCCGATGGCGCAGACGCCGGCCGATGCGTCGCCCGAAGAGATGTCGCCGGGCGATCTCGAAACGGCCCGCCGCTATGGCGCACGCGTCGCGGCGATTGCCGGGCAGTTGCGGGCCGGCCATTCACGCTCCAACTAACATTCCGCCGTTCATGCGGGGCGCCACCGGCCGACGCCCCGCATTGTGTCCGGCCGATTCTGAAGGGCGCTGAAGTGAAATACAAGCAACTGGGCCGCACGGGCCTCTATGTGTCCGAGCTGTGTCTCGGCACGATGACGATGGGCGGCAACGCGGATGCCGGCATGTGGGCGGCGATCGGCGCGGTCGGCCAGGACGACGCGAACCGCTTGATTGCCCGCGCGCTCGACGCAGGCATCAACTTCATCGACACCGCCGATATTTACTCGTTCGGCCAGGCCGAGCGCGTGGTCGGGCAGGCGCTGCGCGACCTCGGCGTTCCGCGCCACGAGATCGTGCTGGCGACGAAGACGGCCGGCGTGATGGGCGCGGGCCCGAACGACCAGGGCGCGTCGCGCGGTCACATCATGGATTCGGTGCAGCGCAGCCTCGAGCGGCTGCAGGTCGACCATATCGACCTGTACCAGATTCACGCGAGCGACCCCGTCACGCCGATCGAGGAGACGCTGCGCGCGCTCGACGATCTCACGCGACAGGGGCTGATCCGTTACGTCGGCGTGTCGAACTGGCGCGCGGGCAAGATCGGCAAGGCGCTCGGCCTGAGTGCCGCGCTGCACGCCACGCGCTTCGAGACGCTGCAGGCCTACTACTCGATCGCCGGGCGCGACGTAGAGCGCGAACTGGTTCCGCTCGCCGTCGACGAGCAGATGGGGCTGCTCGTGTGGTCGCCGCTCGCCGGCGGATTGCTGTCGGGCAAGTTCGGCCCCGGTGCGGCGACCGAAGCAGGTTCGCGGCGCGGCCATTTCGATTTTCCGCCGGTCGATCTCGATCGGGCCTGGCCGTGCGTCGCGGAAATGCGCGCGATCGCCGGCGCGCACGGCGTGTCGGTCGCGCGGATCGCGCTCGCGTGGCTGCTCGCGAAGCCCGCGGTCACGAGCGTCATCATCGGCGCCAAGCGGATCGACCAGCTCGACGACAATCTCGGCGCGGTCGATGTCGTCCTGACCGACGATGAGCTGGCGCGTCTCGACGCCGTGAGCGCGTTGCCACCCTGCTATCCCGGCTGGATGATCGCGCGTCAGGAAGCGGGCAGGCTGCCGCAGCCGTTGACGCGCACCGTGTCGCAATAGGACCGGCAGCACTTCATCTCATCGGCGGTTCGACGCGGCGGTGCCGCCCGGCGCCGATGTCGTCGGCGAGCCGCTCCAGTCGGTCCACGCGGCGCGCGCCGAGCACCCGCTTCGCGCCGCGCTGCGCCGGATGCCGCGCGGTCGCTTCGCCGAAGCCGCTGCTCGCACCGGTAACGACGACGACTTTGGCATCGATGTCGTCGGTCATGATGTTCCCCGCTTCGGTTGCGCGCGCATCACGCCGCGCGCCGTGAAAATACGTCCTTGAATACCGGCAGCGCCGAAAAGACGTTCGGCCATCCCGCGTAGAACGCCAGTTGCGTCAACGTCTCGGACGCTTCGGCCTGCGTGAGCCCGTTGTCCATCGCACGATTCAGGTGATACGGGATTTGCGCGACCTGGCCGTTGGCGACGAGCGCGCTCACCGTCACCAGGCTGCGGTCGCGCGGCGCGAGCCCGGGGCGCAGCCACAAGTCGCGAAACAGCGCATCGGTCGTGTACTCGACCACGCCGGGCGCGACCGCGCCGAAGTTTTCCGAGACCGTCCGCGCACGCTGCGCCTCGGCCGCCTCGTTCAGCGGCAGCGGCGTGACGTCCGCCGGCGCGAGCTGATCGGGCCCGATGCCGCGTTCGTCATAGACGTGCTTGACGATGATCGATGCGGCGCCCGCGTTGGCCCATCCCGCGTAAAAAGCCAGATGCGCGATCATTTCCGATATTTCCGCGGGCTTCACGCCGTGATCCAGCGCGAGGCGCGCATGCAGCGGCATCTCGACGGTCTGGCCGCGGGCGATCAGCACCGACAGCGTCACGATGCTGCGATCGCGCGGCGACAGGTGCGGCCGCTTCCACAGGCCGTCGAATACGGTATGGCTCGTATATCGCTCGAAGGCCGGGGCAACCGCCTTCAAGGCGTCAACAGACAAGGGTTCCTGCATGGTGTCGGTCCTTTGCATGGCGGTGCATGCGGCGGCGAGCAATGCCAGCCCCGTCGCGGCGACGAATCGCGACGGGCGACGTGTGCGATCGTCAACGCCCGCCGTGCTGCGCATCGGTGACGTGTTCGGGGCGGTTGACGTCGCGCCCATCGAGTGCCTCCCGAAGCGCGACCTGCGTGCCGCTGCGCGCAACCGCGATGCCCGCATGGATGCGCCGCCGCGGTATTGAACGGAAATCGAGCACCGCCGGCACCACTGCGTCGAGTAACGGACAGACGTAATCGGCAATCCCGGCTTCGATACGCGCGGTACGTCGAACAGCGCCGTCGAGCGACGTGACCCCGCCTGACGACCTCGATCCTGCGTCGCCCATCACTTCGGAAACACGCCCCTGCTCATCGCATCGAGCTGCCGAACGATCTCCGCGCGCAATTCGGCCGATACGTCGACGCTGTCGAGCAATTCCGAAATCCACAACCCGTCGGCCGCGAGCCGGCAGATCATCAGCGTCGCGGCCTGTTCGAGCGGTACCGGGTCGGGCCGTGTCCATTCGCGCATCGGCACCGACCAGCGCGCACGCGTGTCCTGCTCGGTGATCATCGACGCGACCAGCACGCGCAGTACCTCGATACTCGCGGCCGGATTGGCCGCGTCGAGCACCGCATGCAGATACGCGCGCGCCGCCGCGCCGTCGCCGCTGGAATCGGCCGCCATCCGCGCGGTCAACTGCGCGCCGAACCGCTCGGTCGCCTGCCCGAACAGCGCATCCAGCAGCCCCTGCTTGTTCGCGAAGTGATATTGCAGCGCACCTTTCGTCACGCCGGCCCGTTCGGCCACCGCATCGAGCGTCAACGCGGCCACGCCGTGATGCGTCGCGATCTCCGACGCGGCCGCCAGCAATTGCGCGCGCACCTGGTCCGGCGCTTTTTTTCGCCGCACGCCGGCCACGGCTGCGGCCGGCGCCGATGATCCTGCGGAGGCCCGTGAATCGGGCGTTCCAGCCGGTTCGACAGGCGCGGACACGTCGCGCGGCGCGGGTTCGAGACGTTTTTTCATGGTGCGGATGGTAGCACCGCGCGTCTCGATATAAACATTCCGGCTGGATGGTATGATCCGCCGCATGAACAAATCGGCCCCCTCTTCCTGGTCCGCGCTCGACGCTGCCATCGCCCGTGGACGCGACGCACTCGTGCGCCTTCAGCAGCCCGACGGCAGCTGGTGTTTCGAACTCGAATCCGACGCGACGATCACCGCGGAATACATCCTGATGATGCATTTCATGGACAGGATCGACGACGTGCGCCAGGAGAAGATGGCACGCTACCTGCGCGCGAACCAGCGGCTCGACACGCACGGCGCCTGGGATCTGTACGTCGACGGCGCACCGGACGTGTCGTGCAGCGTGAAGGCGTACTTCGCGCTGAAGGCGGCCGGCGACAGCGAACACGCGCCGCACATGATCCGCGCGCGCGACGCGATCCTGAAGCTCGGCGGCGCGGCCCGTTCGAATGTGTTCACGCGCATCCTGCTCGCGACGTTCGGCCAGGTGCCGTGGCGCGCGGCGCCGTTCATGCCGGTCGAATTCGTGCTGTTCCCGAAGTGGGTGCCGATCTCGATGTACAAGGTCGCGTACTGGGCGCGCACGACGATGGTGCCGCTGCTGGTGCTGTGCTCGCTGAAGGCGCGTGCGCGCAATCCGCGCAACGTGTCGATCCGCGAGCTGTTCGTCACGCCGCCCGAACAGGAGCGCCACTACTTCCCGCCCGCGCGCGGCATGCGCCGGCTGTTCCTCGCGCTCGACCGCACGATCCGCCCTATCGAGCCGCTGCTGCCGAAGCGCTTGCGGCAGCGCGCGATCCGGCATGCGGAAGCGTGGTGCGCGGAACGGATGAACGGCGAGGACGGGCTCGGCGGCATCTTCCCGCCGATCGTGTACAGCTACCAGATGATGCAGGTGCTCGGCTACCCGGACGACCATCCGCTGCGGCGCGATTGCGAGAACGCGCTGGAGAAGCTGCTGGTCACGCGGCCGGACGGCAGCATGTACTGCCAGCCGTGCCTGTCGCCGGTGTGGGACACCGCGTGGAGCACGATGGCGCTCGAGCAGGCGCGCGGCGTCGCGGCGCCGGAAACCGGCGACACGGCTTCCGGCGCACTGCGCGATCTCGACGGGCGCATCGCTCGCGCGTACGACTGGCTGGCCACGCGCCAGGTGAACGACCTGTGCGGCGACTGGATCGAGAACGCCCCGGCCGATGTCGAACCGGGCGGCTGGGCATTCCAGTATGCGAACCCGTACTACCCGGACATCGACGACACGGCGCTCGTCACCGCGATGCTCGATCGCCGCGGCCGCACGCATCGCGCCGCGGACGGCACGCACCCGTACGCGTCGCGCGTCGCACGCGCGCTCGACTGGATGCGCGGGCTGCAATCGCGCAACGGCGGCTTCGCGGCGTTCGACGCGGACTGCGACCGCATGTATCTGAACGCGATTCCGTTCGCCGATCACGGCGCGCTGCTCGACCCGCCGACCGAGGACGTATCGGGCCGCGTGCTGCTGTGCTTCGGCGTGACGAAGCGCGCCGCAGACCGCGCGTCGCTCGCCCGCGCGATCGACTACGTGAAGCGCACGCAGCAGCCCGACGGCAGCTGGTGGGGCCGCTGGGGCACGAACTACCTCTACGGCACGTGGAGCGTGCTGGCCGGCCTCGCGCTCGCCGGCGAGGACAAGTCGCAGCCCTACATCACCCGCGCGCTCGACTGGCTGCGCGCGCGGCAGCACGCGGACGGCGGCTGGGGCGAGACCAACGACAGCTACCTCGATCCGAAGCTGGCCGGCACGAACGGCGGCGAGAGCACGTCGAACTGCACCGCGTGGGCGCTGCTCGCGCAGATGGCGTTCGGCGACTGCGAATCCGATTCGGTGAAGCGCGGCATCGCGTATCTGCAGTCGGTGCAGCAGGAAGACGGCTTCTGGTGGCACCGCTCGCACAATGCGCCGGGCTTTCCGCGCATCTTCTATCTGAAGTATCACGGCTATACCGCTTACTTCCCGCTGTGGGCGCTCGCGCGTTATCGGCGGCTGGCAGGGGCGAAGGATGCGGGCGCAACCAGGTCGTGCGCGTCCGGTGCGTCCGCCGCACCCGCAACGGACGACGCGCTCGCCTGAGCCGGGACCCCGGCCGAAACGGCAACGCGCCGGCACGCCCGACGGCGTCCGGCGCGCTCTCGACGACTCCCCTCCCCATTCCCGCTTACATGTCGCGCGGCGCCCGCATCCGCGCGAACGCGTCGCGCAAATCCGCGCAGAACGCGTCGCCGATCATCGACAGCGGCTGCGACGCGGACGTCACCAGATAGAAGTGATCGGGCACGGCCGGCTCGAACGGCTTGACGGCCACGCGATGCCCCGCATACGCGGCCGTCACCGGATCGATCAGCGCGACGCCGGCGCCGTTCGCGACGAACGCGACGATGGTCTGCGACAGTTGCGCCTCGATCGACAGCACGCGCGACACGCCGGCTTCGACGAATACGCGATCGATCGCGCTGCGCGCCTCGAAACTCGGCGGAAACGAGATGAACGCTTCGTCGCGCAGGTCGGCCGGCCGCACGACGCGCTTGCGCGCGAGCCGATGCCCGCGCGGCACGATGCAGCGCATCGCGCTTTCCGCGAGCCGCTCGCCGCGCACGGCCGGATGCGGAACGGGTTCGGCGATCAGCCCGACATCGCATTGCCCCGACGCGACCTTGTCGACGACGGTGGACGCGCTGTGCGCGAGCAACGTGATGTCGACGCCCGGATGCGCATGCGAGAAACGCGTGACGAGCTGCGGCAGCAGGTCGAGCGCGACCGCCGGCGAGCCGGCCACGCGCAGCGTGCCGCGCCGCATCGCGCGGATCTGCTCGGCGGCCTGCGCGACGCGGTCGAGGCCGACGAACGCGCGTTCGACCTCCTCGTACAGCACACGTGCCTGCGCGGTCGGCGTGAAGCGCCCCTGCTGCCGCTCGAACAGCACGAAGCCGACCCGGTCCTCGAGATCGGCGATCAGCCGGCTCACGGCCGGCTGCGAGATATGGAGATCGCGTGCCGCACGCGTGACCGTATGGCGCTGCATCACTGCGCGAAA Predicted Gene Sequences: >PredictedProphage1 -Hit 1 ATCTTTTTTCATCATGGCTGGCCGCTCAGCGCCGACGACTGGGATGCGCAGATGCTGTTCTTCCTCGCCCAGGGCTACCGCGTGATCGCGCATGACCGTCGCGGCCACGGACGCTCCAGCCAGGTGTGGGACGGCCACGACATGGATCACTATGCGGACGACGTCGCCGCGGTCGTGAATCATCTCGGCGTGCAGGGTGCCGTTCACGTCGGCCATTCCACCGGCGGCGGCGAAGTCATCCACTATGTCGCGCGTCACGGCGAGGATCGCGTCGCCAAGGCCGTGCTGATCAGCGCCGTCCCGCCGCTGATGGTCAAGACCGACAGCAATCCCGGCGGCCTGCCGAAGGACGTGTTCGACAATCTCCAGGCACAGCTCGCGGCGAACCGCGCGCAGTTCTACTACGACGTGCCGGCCGGCCCGTTCTACGGCTACAACCGCACCGGCTCGACACCGTCGCAGGGCGTCATCTGGAACTGGTGGCGACAAGGCATGATGGGCAGCGCGAAAGCTCACTACGACGGGATCGTCGCGTTCTCGCAGACCGACTTCACCGAAGACCTGAAAAGCACCACGATTCCCGTTCTCGTGATGCACGGCGACGACGACCAGATCGTTCCGTATGCGGATTCCGGCCTCCTGTCGGCGAAACTGGCGAGGAACAGCACGCTGAAGGTCTACGCGGGCTTCCCGCACGGCATGCCGACGTCCAACGCCGACACGATCAACGCCGATCTGCTC >PredictedProphage1 -Hit 2 AGAGGGGGAAGGCGCAGCGCGGCTACCGGCAATCGCCGAGCGTCGAACGAATTTCGTCGGCCGACGCGCCGCGCTGGTGCGTGGCGATCTGCCAAACGTTTCCGCACGCGTCCTTCACCCTCAGCCGCCGGTCGCCGGACGGCATGTCGGCGGGCGCTTCCAGCGGAATCGCCTGCAATGCGAGCGTCCGTCGACAGATCGAATCGGAGTCGTCGACATACACGTACGGAAACACCTGTATCGCGTCAGGCACCGGTCTCGTAAAACAGCCCGTATTCACCGCTCGCCCGCCTGATTCGCGCGAACCCGGGTTCGCCCAGATGCATGCCGGCGATCAACAGCCCTTCCGAGCTGACCCGGTCCAGCAGCCGCGAACGCGTGGTCGCTGCCTGCGACGCATCCTGGTCGAACGCAATCGACACGTCCGGCCGCCTGATCTGGATGTGCGGAAAATGCACGATGTCGCCCCACACGAGCAGGCCCTGATCGCCGGATGCGAGCAGGTATCCGGTATGT >PredictedProphage1 -Hit 3 ATCCCGAGCAATTCCGCGCTCCTGGCCTTCGAGGCGGCGGCCCGACATGGCAGCTTCGCCCGCGCCGCCGACGAGCTGGCCCGCACCGAGGGCGCCGTCAGTCGCCAGATCGGCCGGCTGGAGGCGTTCCTCGGCGTGACGCTGTTCGAGCGCGTCGGCAACCGGGTGCGGCTTGCCCCCAACGGCACGCGATACGCAGTGCAGGTGCGCGAGATTCTGGATCGGCTGGAACGGGACAGCCTGTATCTGATGGGGCAGCCCGTGGAAGGCGCGAGCATCGACATCGCCGCGATTCCGACCTTCGCGACCCGCTGGCTGATCCCGCGGCTGAAGCGCTTTCAGGATCGCCATCCGAACGTCACCGTGCATATCGCCGAACGGATGGAACCCTTCCTGCTGGCCGGCAGCGGATTCGACGCGGCCATTCACTTC >PredictedProphage1 -Hit 4 CTTGATGCGCTTTTGATTTTTGCCCGTGTCGCCGAAATGGCGAGCTTCACGCGTGCGGCTGAAAGCCTCGGAATTCAGAAAGGACGGGTATCGACGGTCGTCCGCACGCTCGAACGGGACATGGGCGTCGCACTGCTGCATCGGACCACGCGGCGCGTGCAGCTCACCGAAGACGGACGCGCGTTCTATGCGCGCGCAACCGACCTGCTCGCGGAAGTGCAGGAATTGCAGTCGATGTTTTCGGGGCGTGGCGCATCGCTGCGCGGCAGGTTGCGTGTAGACATGCCCACGGAGCTGGCGCGCAGCGTCGTGGTGCCGGCGCTGCCGCAACTGATGGCCGCGCATCCGGATCTGGAGCTGGAGCTTTCCAGCACCGACCGGCGTGTCGATCTGGTTCGGGAAGGG >PredictedProphage1 -Hit 5 GCATCGAGCTGCCGAACGATCTCCGCGCGCAATTCGGCCGATACGTCGACGCTGTCGAGCAATTCCGAAATCCACAACCCGTCGGCCGCGAGCCGGCAGATCATCAGCGTCGCGGCCTGTTCGAGCGGTACCGGGTCGGGCCGTGTCCATTCGCGCATCGGCACCGACCAGCGCGCACGCGTGTCCTGCTCGGTGATCATCGACGCGACCAGCACGCGCAGTACCTCGATACTCGCGGCCGGATTGGCCGCGTCGAGCACCGCATGCAGATACGCGCGCGCCGCCGCGCCGTCGCCGCTGGAATCGGCCGCCATCCGCGCGGTCAACTGCGCGCCGAACCGCTCGGTCGCCTGCCCGAACAGCGCATCCAGCAGCCCCTGCTTGTTCGCGAAGTGATATTGCAGCGCACCTTTCGTCACGCCGGCCCGTTCGGCCACCGCATCGAGCGTCAACGCGGCCACGCCGTGATGCGTCGCGATCTCCGACGCGGCCGCCAGCAATTGCGCGCGC >PredictedProphage1 -Hit 6 TTTCGCGCAGTGATGCAGCGCCATACGGTCACGCGTGCGGCACGCGATCTCCATATCTCGCAGCCGGCCGTGAGCCGGCTGATCGCCGATCTCGAGGACCGGGTCGGCTTCGTGCTGTTCGAGCGGCAGCAGGGGCGCTTCACGCCGACCGCGCAGGCACGTGTGCTGTACGAGGAGGTCGAACGCGCGTTCGTCGGCCTCGACCGCGTCGCGCAGGCCGCCGAGCAGATCCGCGCGATGCGGCGCGGCACGCTGCGCGTGGCCGGCTCGCCGGCGGTCGCGCTCGACCTGCTGCCGCAGCTCGTCACGCGTTTCTCGCATGCGCATCCGGGCGTCGACATCACGTTGCTCGCGCACAGCGCGTCCACCGTCGTCGACAAGGTCGCGTCGGGGCAATGCGATGTCGGGCTGATCGCCGAACCCGTTCCGCATCCGGCCGTGCGCGGCGAGCGGCTCGCGGAAAGCGCGATGCGCTGCATCGTGCCGCGCGGGCATCGGCTCGCGCGCAAGCGCGTCGTGCGGCCGGCCGACCTGCGCGACGAAGCGTTCATC Predicted Protein Sequences: >PredictedProphage1 -Hit 1 IFFHHGWPLSADDWDAQMLFFLAQGYRVIAHDRRGHGRSSQVWDGHDMDHYADDVAAVVNHLGVQGAVHVGHSTGGGEVIHYVARHGEDRVAKAVLISAVPPLMVKTDSNPGGLPKDVFDNLQAQLAANRAQFYYDVPAGPFYGYNRTGSTPSQGVIWNWWRQGMMGSAKAHYDGIVAFSQTDFTEDLKSTTIPVLVMHGDDDQIVPYADSGLLSAKLARNSTLKVYAGFPHGMPTSNADTINADLL >PredictedProphage1 -Hit 2 RGGRRSAATGNRRASNEFRRPTRRAGAWRSAKRFRTRPSPSAAGRRTACRRALPAESPAMRASVDRSNRSRRHTRTETPVSRQAPVS_NSPYSPLARLIRANPGSPRCMPAINSPSELTRSSSRERVVAACDASWSNAIDTSGRLIWMCGKCTMSPHTSRP_SPDASRYPVC >PredictedProphage1 -Hit 3 IPSNSALLAFEAAARHGSFARAADELARTEGAVSRQIGRLEAFLGVTLFERVGNRVRLAPNGTRYAVQVREILDRLERDSLYLMGQPVEGASIDIAAIPTFATRWLIPRLKRFQDRHPNVTVHIAERMEPFLLAGSGFDAAIHF >PredictedProphage1 -Hit 4 LDALLIFARVAEMASFTRAAESLGIQKGRVSTVVRTLERDMGVALLHRTTRRVQLTEDGRAFYARATDLLAEVQELQSMFSGRGASLRGRLRVDMPTELARSVVVPALPQLMAAHPDLELELSSTDRRVDLVREG >PredictedProphage1 -Hit 5 ASSCRTISARNSADTSTLSSNSEIHNPSAASRQIISVAACSSGTGSGRVHSRIGTDQRARVSCSVIIDATSTRSTSILAAGLAASSTACRYARAAAPSPLESAAIRAVNCAPNRSVACPNSASSSPCLFAK_YCSAPFVTPARSATASSVNAATP_CVAISDAAASNCAR >PredictedProphage1 -Hit 6 FRAVMQRHTVTRAARDLHISQPAVSRLIADLEDRVGFVLFERQQGRFTPTAQARVLYEEVERAFVGLDRVAQAAEQIRAMRRGTLRVAGSPAVALDLLPQLVTRFSHAHPGVDITLLAHSASTVVDKVASGQCDVGLIAEPVPHPAVRGERLAESAMRCIVPRGHRLARKRVVRPADLRDEAFI Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig345 Genome size: 60102 Host's GC content: 68.58 Predicted Codon Position GC: 1st: 69.07 2nd: 45.22 3rd: 83.73 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig346 Genome size: 59124 Host's GC content: 68.80 Predicted Codon Position GC: 1st: 69.21 2nd: 45.28 3rd: 84.11 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig347 Genome size: 63086 Host's GC content: 67.07 Predicted Codon Position GC: 1st: 68.15 2nd: 44.81 3rd: 81.18 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig348 Genome size: 60006 Host's GC content: 67.20 Predicted Codon Position GC: 1st: 68.23 2nd: 44.84 3rd: 81.40 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig349 Genome size: 71585 Host's GC content: 67.92 Predicted Codon Position GC: 1st: 68.67 2nd: 45.04 3rd: 82.61 >PredictedProphage1 Length: 23351 Number of hits = 9 GC Coding First Second Third 68.75 69.12 62.09 52.34 92.93 Codon Usage: AA Codon Total Percent Leu TTG 7 0.0608695652173913 Leu TTA 0 0 Leu CTG 63 0.547826086956522 Leu CTA 2 0.0173913043478261 Leu CTT 1 0.00869565217391304 Leu CTC 42 0.365217391304348 Lys AAG 36 0.9 Lys AAA 4 0.1 Glu GAG 26 0.565217391304348 Glu GAA 20 0.434782608695652 Gln CAG 59 1 Gln CAA 0 0 End TGA 1 1 End TAG 0 0 End TAA 0 0 His CAT 5 0.25 His CAC 15 0.75 Asn AAT 6 0.1 Asn AAC 54 0.9 Ser AGT 1 0.00819672131147541 Ser AGC 44 0.360655737704918 Ser TCG 67 0.549180327868853 Ser TCA 1 0.00819672131147541 Ser TCT 0 0 Ser TCC 9 0.0737704918032787 Trp TGG 17 1 Arg AGG 2 0.0238095238095238 Arg AGA 1 0.0119047619047619 Arg CGG 14 0.166666666666667 Arg CGA 3 0.0357142857142857 Arg CGT 9 0.107142857142857 Arg CGC 55 0.654761904761905 Ala GCG 140 0.707070707070707 Ala GCA 9 0.0454545454545455 Ala GCT 0 0 Ala GCC 49 0.247474747474747 Cys TGT 1 0.142857142857143 Cys TGC 6 0.857142857142857 Asp GAT 13 0.188405797101449 Asp GAC 56 0.811594202898551 Gly GGG 14 0.109375 Gly GGA 3 0.0234375 Gly GGT 6 0.046875 Gly GGC 105 0.8203125 Phe TTT 5 0.0980392156862745 Phe TTC 46 0.901960784313726 Tyr TAT 3 0.0714285714285714 Tyr TAC 39 0.928571428571429 Met ATG 24 1 Val GTG 66 0.589285714285714 Val GTA 1 0.00892857142857143 Val GTT 1 0.00892857142857143 Val GTC 44 0.392857142857143 Thr ACG 69 0.565573770491803 Thr ACA 0 0 Thr ACT 1 0.00819672131147541 Thr ACC 52 0.426229508196721 Pro CCG 72 0.867469879518072 Pro CCA 2 0.0240963855421687 Pro CCT 1 0.0120481927710843 Pro CCC 8 0.0963855421686747 Ile ATA 0 0 Ile ATT 3 0.0535714285714286 Ile ATC 53 0.946428571428571 Left Right Strand Best Blast Hit Score Evalue 27675 28214 1 ref|NP_046584.1|putative transglycosylase 74.7bits(182) 1e-12 29907 30467 1 ref|NP_944186.1|hypothetical protein 148bits(374) 6e-35 31735 31932 -1 ref|NP_690787.1|immunity repressor 38.9bits(89) 0.067 35225 35575 1 ref|NP_542287.1|unknown 36.2bits(82) 0.44 37984 38376 1 ref|NP_705657.1|gp31 38.1bits(87) 0.12 43778 44167 1 ref|NP_943772.1|predicted amidase 87.0bits(214) 2e-16 45934 46593 1 ref|NP_818332.1|gp31 40.0bits(92) 0.030 46732 47160 1 ref|YP_024939.1|gp19 36.2bits(82) 0.44 50180 51025 -1 ref|NP_945089.1|gp58 112bits(279) 6e-24 DNA sequence: TATCCGTCGCCGTACCGCACGACCGTCGAGCGCTACGCGCAGTCGACGGGCCTCGACGTCGAGTGGGCGTACGGGCTGATCCGCCAGGAATCGCGCTTCATCATCAGCGCGCGTTCGTCGGTGGGCGCGGGCGGCCTGATGCAGCTGATGCCGGCGACGGCCCAGATGGTCGCGAAGAAGCTCGGCATGGGCACGATCTCGCGTGCGCAGATGCACGACATCGACACCAACATCCAGCTCGGCACCTGGTATCTGGCGGACATCTACAACAACTTCGACAGCTCGCCGGTGCTCGCCACGGCCGGCTACAACGCGGGCCCGGGCCGGCCGCGCCAGTGGCGCCAGGTGTTGACGCAGCCGGTCGAAGGCGCGATCTTCGCGGAGACGATTCCGTTCAACGAGACGCGCGACTACGTGAAGAACGTGCTGTCGAATACCGTCTACTACGCGGCGCTCTTCGAGGGCAAACCGCAGTCGTTGAAGAAACGTCTAGGCATGATCTCGCCCTGATACACGAACTGCCGCGCGAGACGCGGCAGTGTTCTTTTTAGGACTCGAACAATGGATCGCCAGACCGTCGCGCTGCTGGGCGGCACCGGCTTCATCGGCAGCCGGCTCGTCAATGCGCTGATCGATGCCGGCAAGCACGTGCGGATCGGTACGCGGCGGCGCGACCACGCGCGCCACCTGCAGATGCTGCCGGTCGACATCGTCGAGCTCGACGCGCTCGATACGCGCACGCTCGCACGTTTCGTCGCCGGCGCGCACGCGGCGATCAACCTGGTCGGCGTGCTGCACGGCGGCCGTGGCACGCCGTACGGGCCGGGCTTCGAGCGCGCGCACGTCGCGCTGCCGGTCGCGCTTGCGACCGCCTGCAGCGAGGTCGGCGTGCGGCGCCTGCTGCACATGAGTGCGCTCGGTGCCGATTCGCGCGGCGCGAGCATGTACCAGCGCTCGAAGGGCGACGGCGAAGCCGCGCTGCATGCGGTCGCGGCCACCGATTCGCTCGCGCTGACGATCTTCCGTCCGTCGGTCGTGTTCGGCCCCGGCGACGCATTCCTCAACACGTTCGCGAACCTGCAGCGCACGGTGCCCGTGCTGCCGCTCGCGATGCCCGACGCGCGCTTCCAGCCGGTATTCGTCGGCGACGTCGTGCGCGCGTTCGTCAACACCCTCGATCTCGTCGGCGCGCACGGCAAGACCTACGAGCTCGGCGGCCCGACCGTCTACACGCTCGAGCAACTGGTGCGCTACTGCGGCACGCTGGTCGGCCGGCAGGCACGCATCGTGCGGCTGCCCGACGTGCTTGCGCGGCTGCAGGCGAGCGTGTTCGAATGCCTGCCGGGCGAGCCGGTGCTCACGCGCGACAATCTCGCGACGATGTCGGTGCCGAACGTGCTGTCGGGGCCGCTCGCGCCGGAACTCGGGCTCTCGCCCGCGAGTCTCGAAAGCATCGCGCCCGCGTATCTCGGCGAAGCGACCGGGCGCTCGCGGTTCGACTGGTTCCGCTCGCGTCGCTAGCCCGCGCGCGGGGCGCCGCCGGCCGACCTGTTTCTTTTCCTTTTTTCGCATTTTCCGGAACCCCGTCATGAAGCTCGTCATTGGAGACAAGAACTACTCGTCGTGGTCGATGCGGCCTTGGTTGCTGCTCGCGCATTTCGGCATCCCGTTCGACGAGATCGTGGTCGAGCTGCGTCGCGACGACACGGCCGCGCGCATCCGCGAATACTCGCCGACCGGCAAGGTGCCGTGCCTCGTCGACGATCACGGCTTGGCGATCTGGGATTCGCTCGCGATCGCCGAGACGCTCGCCGAGCGCTATCCGCAATTCCCGATGTGGCCGGCCGACCCGCTCTCGCGCGCGCATGCGCGCTGCGTGTCCGCCGAAATGCATTCGGGCTTCGCGGCGCTGCGCACGCAGATGGGCATGAGCATCCGCGCGTCGATGCCGGGGCGCGGCGCGACGCCCGACGCGCTCGCCGACGTCGCGCGCATCGACGCGCTGTGGAGCGAATGCATCGAGGCGTCGGGCGGGCCGTTCCTGTTCGGCGAATTCGGGATCGCCGATGCGATGTATGCGCCGGTCGTGATGCGCTTCAACACGTATGCGCCGGCGCTGTCGCCGGAGGCGGCCGGCTACGCGGCGCGGGTGACCGCGCTGCCGGCCGTGCAGCAGTGGATCGATGCCGCGCGCCGTGAAACCAACGTGATCGCCGAATACGAGCCGCAGCCATGAACATCTACGCAGTAGGCGGAGCGATCCGCGACGAATTGCTCGGCGTGCCGGTGCAGGACCGCGACTACGTGGTGGTCGGCGCGACGCCCGAGCAGATGACCGCGCAGGGCTTCCGGGCGGTCGGCAAGGATTTCCCGGTGTTCCTGCATCCGCAGACGCAGGAGGAGTACGCGCTGGCGCGCACCGAGCGCAAGACGGCGGCCGGCTATCACGGCTTCCAGTTCCACTACGCGCCGGACGTGACGCTCGACGAGGATCTCGCGCGGCGCGACCTGACGATCAACGCGATGGCGCGCGAGGTGAGCCCGGAAGGCGCGCTGGTCGGCCCGGTGATCGATCCGTTCGACGGGCAGGCCGACCTGCGTGCGCGTGTGTTCCGGCACGTGAGCGACGCATTCGTCGAGGACCCGGTGCGAATCCTGCGCATCGCGCGCTTTGCCGCGCGGTTCGCGGATTTCACGGTGGCGGACGAAACGCTCGCGCTGATGCGACGGATGGTCGATGCGGGCGAGGTCGACGCGCTCGTGCCCGAACGCGTGTGGCAGGAAATCGCGCGCGGGTTGATGGAAGCGAAGCCGTCGCGGATGTTCGCGGTGCTGCGCGACTGCGGCGCGCTCGCGCGCATCCTGCCCGAGGTCGACGCGCTGTGGGGCGTGCCGCAGCGCGCCGATTACCACCCGGAAGTCGATACCGGCGTGCACGTGATGATGGTCGTCGACTACGCGGCGAAGCAGGGCTATTCGCTGGCGGTGCGCTTCGCGGCGCTCACGCACGATCTCGGCAAGGGGACGACGCCCGCGGACGTGCTGCCGCGCCACGTCGGCCACGAAAGCCGCAGCGTCGAGCTGCTCAAGCCGTTGTGCGAGCGGCTGCGCGTGCCGAACGAATGCCGCGATCTCGCGCTGGTGGTCGCGCGCGAGCACGGCAACCTGCATCGCGTGATGGAGATGGGCGCGGCCGCGCTGGTGCGGCTGTTCGAGCGCAGCGACGCGCTGCGCAAGCCGGCGCGCTTCGCCGAGTTGCTCCAGGCCTGCGAATCGGATGCGCGCGGCCGGCTCGGGCTCGATGCGCAGCCGTATCCGCAGGCCGAGCGGCTGCGCGTCGCGCTCGCGGCGGCGCGCAGTGTCGACGCCGGCGCGATCGCACGCGGCATCGGCAACGATACGGAGAAGATAAAGGAAGCCGTGCATCGCGCGCGGATCCAGGCCGTCGCGCAGGCGCTCGCGATCGGCGAGTAGTCGGCAAGTAGCAGGCAAGTAGCAGGCGCGGAACAGCGTGCGCGCCGGCCAGCCGTTACGGTTTCTTCTTGCGCGCCGGAGTCGCGGCCGCCGGGCGTTTGCCGGCGGCGGCGCGCGGCTTCGCCGCCCCCTTCTTTTCGGCAGCGCCTGCCCTGGACGGCCGTGCCGCGGCGGCGTCGCGGTCATCCCGCTTGGACGCCGGCGCGCGCCGGCTCACGCGCGGCTCGCCGGGCTTCGACTGCCTGATTTCCGTCGTCGCGGATACGAATTCCGCATCACTGTCGTCGAACAGCGGCAGCGTGCTGACGGTGATCAGCTCGGCCGGCCCGTCGCCGACATTGGCCACGCGATGCCGCTTGCGCGCGTCGAAGTGCAGCGAGTCGCCGGGCGTCAGCGGGTAATTCTTCTTGCCGACCGTGTAGCAGACGCGGCCCGCCAGCACGTACACGAATTCGTCGCCGCCGTGCGCGACCCATTCCGACCGGTAGCCTTCCATCATCTGCACCTTCAGCGCGTTGATCTGGCTGCCGTCGAACGTGGTGGACAGCCGCTCGTACCACTGCGACGCGGCGTCGAGCGCGTACGGCTTGCGGCTGCCCTCGTGCGAATCGGGCTGCGCCTGGCGCGGCTGCTCGATCAGCGTGCCGAGCGGCACCCCCAGCGCCTTCGCGACGTTGACGAGCGACGACAGCGAGATGCCCGTCAGATGGCGCTCGACCTGCGACAGGAACCCGACCGACAGGTTCGCTTCGGTCGCCACTTCCAGCAGCGTCTTCTTCGCTTCCCGGCGCAGGCGGCGAATGCGCTGGCCGATACGCATGAGGTCTGAATCCATGAATCTCTTTCGTGGCAACGAGTCGGGGCGCGGGCAAAGGGGCCGTGCGGCCGCCCGGGGCGGCGAGGCCGGCGCATTGTACCGCGCAGCGTCGCGAGGGCGAATCGGCGTTGTGCCGGAATCCGCAGGCGGCACGCCGATTTTAGTCCTACGAAAATCTTGGCTTGACCTCGATTTCGACGTGCTCTAGATTCTGTCGCGCATCAAACAAAGTTAAGTGAGACAAAAATTTTACCGAAGGCCTGCCTCCCGGCCGGCGGCGCGGCCCGGCCGCGCGTCGTGTCGCGCATGACCTGCGCCGCAACGACGTGCCGTGCCCGGCGCGCGATGCCGCGGCACGCCGCCGGCCGCCGACAACAATGAATAACGGGCATCCGATGATCGATCGACTGAAATACAGCTTCTCCGGCCTTCCCCCGTACGACGCGTCCGTCGCCGACACGCAGGCCGGCCTGTCGCGCCTGCTCGATGCCGCGCGACTCGACGCGGTGCTGATCACGTCGCAGGACGAATACGTGACCGAGTACCTGCCGCGCGGCAACAACCCGCGCTACGCGGTGTCCGGCTTCGACGGCTCGGCCGGCTGCGGGATCTTCCTGAGCGCGGCGACCGCGCAGGCGCTCGATCTGCCGCCGTTCGTGCTGTTCGTCGACGGCCGCTATCACTTCCAGGCCGACGAGCAGTGCGATCCGGCGCGCGTGCGCGTCGAGAAGCTCGGCATGAACGTGACGATCTGGCAGGCGATGGCCGACTGGCTGCTCGCGCATGCGAGCCGGCTCGCGCGGGTCGGCTACGACGCGCGGCGGATCAGCGTCGCGCAGCGCAACCGGCTGTTCGAGCAGACGCAGGCCGCGTCGCTCGACTGGACGAGCCTCGCCGAGCGCGAGATCGACCGGGCGATCTCGCTGCCGGGCTGGAACGTCGAGCGGCCGATCTTCGAGATCCCGGCAGCGATGACCGGCCTGAGCGTCGTGCAGAACCTCGACGCGCTGAACCGCCGGCTCGCCGCGCATACCGGCGCGGCCGACGGCAAGACGGCGTTCTTCACCTGCGCGTCGGACGATCTCGCGTATCTGCTGAACAGCCGCGGCTATCACATCCCGAATGCGTCGTCGCACCTCGGCTTCCTGTTCGCGGTCGGCGGGCGGGTGGCTTTGTTCCTCCCGGAAGGCTGCGACCGCTGCGAGGTCGCGCTCGATTCGTATCCGGCGCTGCAGGTGATCCGGCGCGACGTCGCGGCGCTCGAGCGCTTCCTCGCGCAGTTCGCCATCGAGCACGTGTGCTACGGCTTCGAATCGGTGAACTGCGCGCTCGTCGACGCGGTCAAGCGGGTGTGGCCGCACGCGCGGCATGCCGATTTCAACCCGGTCGAGGCGATGCGGGCGAGCAAGACGCCGGCGGTGCTCGGCCAGTTCCGCGACGCGTTCGCGCGCAGCTGCGCGGCGATCGCCGAGACGATGCGCTGGGCGAAGACCGGCGAGCCGGGCGTGCGCCACACCGAGTACGACCTCGCGCGCCGGATCAACGACGCGTACGGCGCACGTTCGGCGGTCGCGCTGTCGTTTCCGTCGATCGCGGCGAACGGCGCGAACAGCGCGTTCGCGCATTACACGGCGGCGAGCGCCGACGTCGAGCTGACCGAAGGCGAACTCGTGCTGCTCGACAGCGGCGCGTACTACGAAGCCGGCTTCGCGACGGACTGCACGCGCGTCGTGCTGCGCCGCACGCGGCCGGACACGGTCGCGCAGCCGTGGCAGCGCGAGATCTACACGGTCGCGCTGAAGGCCTGCATCAAGGGGCTCGTCACGCGCTTTCCGGCCACCGCGACGGGCGGCGACGTCGATGCGCTGGTGCGGCAGGTGTGCCGCGACCATGGCCACGATTTCGGCCACGGCACCGGGCACGGCGTCGGGATTCACGTGCACGAGGGCGGCGTGCGGTTCGCGCCGGGCGCGACGTACGGGCTGGTGCCGAATGCGGTGATTTCGGTCGAGCCGGGCATCTACCTGCCGGGCAAGGGCGGCGTGCGGATCGAGAACATCGTGATCGTGCGGGCGGACGACGCGCAGCCCGGCACCGTGACGTTCGAGAACATCGTGACGGTCGGCTACGACTGGGACCTGATCGATCTGGATCTGCTGGACGACGCCGAGCGCGCGTACCTGCGCGACTACGAGCGGCTGTGCGTGGAACGCGGCACGCAGGTCACCGCGTGTCCGCTGTTGTAACGAAGGGGGAAGCAGCGACGCGGCCGCCGGTCGGCCGCGCGGCGCGCCGTCAGCCGGTCAGCGCGTGAGCGCCGACACGCGTCCGTCGGGGCCGTACACGCCGGCCGGCGCGGGCGCCGAGCGCAGCACCGCGAGCGCGCGCTCGTTGTAGTCCATCCGGATCCGGATCAGCATCCCGTTGTTCGCGTTGGCCTGGCGCGCGCGTTCGGCGGCCTGTTGCAGCAGTTGCCAGCGGCTCGCGAGGCGCGCGTCGCGCTCGGCCGCCTGGTCCATGCCTTTCTTGCCGGCCGGAAAGCCGAGCGCGGAAAGCTGCGTGTCGCGCGTGCGTTCGAGCTGCGCGAGCCGGTCGATCAGTGCGCTTTTCTTCTCGACGATCCCGGGCAGCATCTCGAGCGGCTCGGCCGTCGTCAGCGCCTTTTCCTCGTAGACGAGCAGGGACGCGAACGCTTCGACCGTCGCGTGTTCGTCGTTGACCGTGGCCAGCAGCTCTTCTCTCATCGCGTCATGCTCGTCACGCCGGTGCGCGGGATGGCCGCACGCCGGCAAACCGGGTGAACCGGCCACGAGGCCGGGATTAGCTGCCCTGCGGGCGCTGCTGCTGCAGCAGTTCGCGGGCGGTGTTCAATACGCCGTCGGCAATCTTGTTCGCGTCGATCGTCAGCGTGCCGTTGTTCAGCGCGTCCTTGATCGACTGGACCAGGCCCGTGTCGATATCGGCGTCGCCCGACGCGGAGACCGAACGCAGCTGGCCGGACAGACCCGACAGGTTCACGGTCGTGTCGCCGCCGCTCGATCCTGCATCGGCTGCCTGCGCGGACGACTGGGCCGTGCCGGACGGCGCACGGGCCGCGCCGTTGCCGGTCGGCGCGAGGGGGCTCGGTTTCGGAGTGGAATCGATCTTCACGATGGGTTTCCTGTACGGTTTGACCCAGATAACGGCCGGGTCGGCCCGAACTTTAGCATCGCGAGCCCGAAATGCTCCGAATAAACAATTCTTTACATTCTTGCGGCAGATCCGGCCCTACAGCGGAATTTCCACGGTGCCGGCGTCCTTGACGATCGCCGTGACGATCTGTCCGGCCGCCATCCGCACCCGTACCGACTGGCCCGGCGCCGCATTCGCGAGCACGCTGCCTTCGGCCGAAATCGTGAAGCCGGGGCCGGCCGCGACGACCCGTACCGTCTGGCCGGCCGACACCGACGCCGCGCTCTTCAGCATGTCCTGCCGCAGCGGCAGCCCGGCCGAGATGCGCGCGAGCGCGGTCGCGCCGATCGCCTGCGCCGGATCGGTGATCACCGCGAGCGGCATGACCGTCAGGTCGCCGTCGCGTGCGACCAGGTCGGCCGCGGAGAGCGGCTCGCCGGGCGCGATCTGGCGCGCGGCGACGTAATAGGTGGCCTGCACGGCGACCTTCGCCTGCAGGTAGACGGTCCACGGCCGCTCGCCCGCGCAGCGCACGCCGACCGTCGTGCGGCCCCACAGGCGCGCGCCGGTCGGCAGGAACGGTTCGAGCGTCGTGCACGCCGCGAGCCCGCGCGGAAAGGCGGTCGTGACCGTCGCGGTGGTCTTGCCGGGCAGGCCGGCGATCTGCTGCTGCAGGAACGCGAGCGCCGCGCGCCGGATCGTTTCGGGGTCTTGCTGGCCGGGCGGCGTCGCGGGTTGGGACGCGACGGTAGCCGGAGCCGGGCGGGCCGAAGCAGCCGCCGTGCGCGGCGCCGTTGCGGCTGATGCGGCACGAGCCGCCGCCAGGCGGGCGGCTGCGGCCGCTTGCGGCGCCGGCCGCGCGGGATTCGATGCAGGCTCGGCGGTGCCGGCGACGACCATCGCGATCGCGGCCGGGTCGGCCGCGCGCGGCGTCGCGCCGTACCCGGCGTTCGCGCGGGCGGCTACGTAGACGGGGACCGTTGCGGGAGCCGGCGCAGCGGCCGGCGGCGGAACGCTCGTCACGACCATCTGGCTGGCCGGTTGCGCCGCGTAGGCGCTGCCGGTCGCCGCGCCGGCCGCGCGTTGCGCGTCCGACGCCGAAGCGACGCCCGCATTCCCGCCGAACTGCCCGCCGCTCGCCGCATTGGCGTGCGCGAGCGCGGTTTCGGCCGTCTCGCCGCGCCCGGGAATCACGATCATCCCGTCGTCCGCATGGGCGGCCGGCGCGGCGATCCACAGCGCCGCAGCGAGCGCGAACGCGCGCCGGACGTGCGTGAGCCGCCCGTTCCTGTCGCGAAGTGCGTCGCCCGTCATCGCCGTGTCCTCGATCCGTTGATCCGCTTCGCATTCTAGGGAGCCGAGGCGTCGCGCAAACGATGAATAGAGGGGGCCTTTGCCGCGTTATTCGTCCGATTGCCGGTTGCGTCCCGCGCCTACCATCGCTGTCATGGAAAAAAGCCTCTCGGGTCGCCATCCGGTGCGAGGGGCGTGCAGCGCTTCATACGGAGAGACGCACACATGCTGGACAAACTCGATGCGGAATTCGCGTTCGGCCGACAGGCGCTCGACGTGCGCGCCTACCGGCAGGAACTGCTGTCGTCGAACATCGCGAACGCCGACACGCCCGGCTACCAGGCCCGCGACGTCGATTTCGCGTCGACGCTCGCGCGCTCGCTGAAGCAGACGAGCGGCGGCCTGGCGCCGAGCAACGCCGCGCAACTGCCGATGGCGCAGCCGGCCGGCGTGACGAGCGGCATGTCGATGGTGTCGACGGCGCCGGGCCACATGGCCGGCACCGCGAAGCTGATCCCGACCGGCGGCCCGGCGGACGACTACGGCCGCGCGCAATACCGGATGCCGCTGCAGCCGTCGCTCGACGGCAACACGGTCGATCTCGACGTCGAGCGCGTGCAGTTCGCGAACAACGCGCTGCACTACGAAACCGGGATGACCGTGATGACCCAGCAGATCAAGGCGATGATCGCCGCGATCACGACGAACTCGTAAGCGCCGCTTCCGAATCCGGACTCGAACACAAGGAGCCTCCATGCCTTCGTTGATGAACATCTTCGGCGTCGCCGGTTCGGCGCTGTCCGCGCAATCGCAGCGCCTGAACGTCACCGCGTCGAACCTCGCGAACGCCGACAGCGCGACCGGCCCCGACGGCAAGCCGTACAAGGCCAAGCAGGTTGTGTTCGCGACCGACCCGATGGGCGGCGCGCGCACCGCGTCCGGCCAGGGCGTGGGCGGCGTGCGCGTGACCAAGGTGATGGACGACCCGTCGCCGATGAAATCGACCTACGACCCGGCGAACCCGGCCGCCGACGCGAATGGCTACGTGCAGATGCCGAACGTCGATCCGGTGCAGGAGATGGTGAACATGATCTCGGCGTCGCGCTCGTACCAGGCCAACGTCGAGACGCTGAACACCGCGAAGACGCTGATGCTCAAGACGCTGACGATCGGCTCGTAAGCCGCGCGCCGCCGACCTGACCGACCCGACACCGACAGTTCCGACAGAAGGCCAACAGGATGACTTCCTCCAACACGACGATCGGCAGCAACGGCACCAACGTGTCGACGCTGCCGACCGACACGATGAACACCAACAACGTGTCGTCGACCAACGGCACGTCGGCGAGCGACCTGCAGGCGACGTTCCTGAAGCTGCTCGTCACGCAGCTGCAGAACCAGGACCCGACCAGCCCGGTCGACAGCTCGCAGATGACGTCGCAGCTCGCGCAGATCAACACGGTGAGCGGCATCGCGCAACTGAACACGTCGCTCACGTCGCTGTCGACGCAGCTCGCGGCCGGCCAGCAGACGCAGGCCGCGCTGCTGATCGGCACGAACGTGCTCGCGCCGGGCAACTCGGTCGCGGTGAAGAGCGGCGCGGCGTCGCCGTTCGGCGTGTCGCTCGCGAGCTCGGTGTCGAACCTGACGATCACCGTGAAGAACTCGGCGGGCGCCGTCGTGAACACGATCAACGCGGGCGCGCAGTCGGCCGGCACCGTGCCGTTCAACTGGACCCCGACCGACGCGGCCGGCAACGCGCTGCCGGACGGCAAGTACACGGTCAGCGCGTCGTACACCGACAGCACCGGCACGCCGCACGCGGCCACGACGCTCGCGGCCTCGCAGGTGCAGAGCGTGGTCAAGCAGGCGGACGGCACCGCGGGGCTCGTGCTGTCGAACGGCACGACGGTGGGGCTCACCCAGGTTGCGTCGATCTTCCCGAACACGAAGTCGTCCTCGTCCGGCGACACCACCACCAACTGATCGAGCTTTCCCGTAACGGAGAACGAAATGGGTTATCAACAGGGTCTGAGCGGCCTCTCGGGCGCATCGAACGCGCTCGACGTGATCGGCAACAACATCGCGAACGCGAACACGGTCGGCTTCAAGTCGAGCACCGCGCAGTTCGCCGACATGTACGCGAACTCGGTCGCGACGTCGGTCAACACGCAGATCGGCATCGGCACGACGCTGAACTCGGTGCAGCAGCAGTTCGGCCAGGGCACGATCAACACGACGAACTCGTCGCTCGACGTCGCGATCAACGGCAACGGTTTCTTCCAGATGTCGAACAACGGCGTGACGACGTACTCGCGCGACGGCACGTTCCAGCGCGACAAGAACGGCTACATCGTCAACGCGCAGGGCATGAACCTGATGGGTTACATGGCCGACAAGAACGGCGTGCTCAACACCGCGCAGACCGTGCCGCTGCAGGCGCCGACCACCAACATCGCGCCGACCGCGACGACCAAGATCACCGGCCAGTTCAACCTGAACTCGCAGGACACGGTGCCGGCCAAGACGCCGTTCAACGCGACCGACACCACGACGTACAACTACTCGACGTCGATCCAGGTGTACGACTCGCTCGGCGGCTCGCAGGCGGTCAACATGTACTTCGTGAAGTCGGCGGCCGGCACGTGGGAAGCTTACGCGGGCGTGCAGGGCGGCGCGACGAACGATCTCGGCACGATCACGTTCGATACGTCGGGCGCGATCAAGAGCACGACGACCGGCACGCCGGCCACGCCGACCGCGTCGCTCGGCCAGTTCCAGTTCACCGTGCCGAACACCGACGGCTCGGCGACGCCGCAGAATCTCACGCTCGACCTGACCGGCACGACGCAGTACGGCGGCAAGGACGGCGTGAACAACCTCGCGCAGGACGGCTACGCGAGCGGCACGCTCACCACCTATTCGATCGGCACCGACGGCAAGCTGACCGGCAACTACTCGAACGGTCAGACCGCCGTGCTCGGCCAGATCGCGCTCGCGAACTTCAACAACCCGAACGGGCTGGTGAACCTCGGCGGCAACCAGTATGCGGAATCGGCCGCATCGGGCGTGCCGCAGGTGTCGGCGCCGGGCAGCACGAACCACGGCACGCTGCAGGGCAGCGCGCTCGAGAACTCGAACGTCGACCTGACGTCGCAGCTCGTCAACCTGATCACCGCGCAGCGCAACTACCAGGCGAACGCGCAGACGATCAAGACGCAGCAGACCGTCGACCAGACGCTCATCAACCTGTAAGCGCGGATAACCGGCAGCCATGGACCGACTGATCTATACGGCGATGACGGGCGCGTCGCAGTCGCTCGACCAGCAGGCGATCGTCGCGAACAACCTCGCGAATGCATCGACGACCGGCTTTCGCGCGCAGCTCGCGACGTATCGCGCGGTGCCGATGAATTTCGGCGACGGCAGCAACATCGACCCGACGACGACGCGCACCTACGTGCTCGCGTCGACGCCCGGCGCCGATTACGCGCCGGGTCCGATCACGCGCACCGGCAATCCGCTGGACGTCGCCGTGCAGGGCCCGGGCTGGCTGTCGGTGCAGACGGCCGACGGCAGCGAGGCGTACACGCGCGCCGGCAACCTGCACGTCGACGAGAACGGCCAGCTCGTCAACGCGAGCAACCTGCCGGTGATCGGCAACGGCGGCCCGATCTCGGTGCCGCCCAACGCGGAAGTGACGATCGGCAAGGACGGCACGGTGTCCGCGCTGATGCCGGGCGACCCGCCGACCGCGGTCGCGATCGTCGACCAGATGAAGCTCGTCAATCCCGATGCGGCCACGCTCACGCGCGGCAACGACGGGTTGTTCCGCACCGCCGACGGCAATCCGGCCGACGTCGACCCGAACGTGGTCGTCACGCCGAATTCGCTCGAAGGCAGCAACGTGAACCCGGTGACCGCGATGGTCGCGATGATCGACAACGCACGGGCATTCCAGCTGCAGTCGAAGCTGATCCAGACGGCCGACCAGAACGAGCAGACGGCGAACCAGTTGCTCAATTTCAGCTGAGCGCCCGCGCCAGCCTACGCAGGAGAATCGACAAATGAATCGTTCGCTCTACATCGCTGCCACCGGCATGAATGCGCAGCAGGCGCAGATGGACGTGATTTCGAACAACCTCGCGAACACCAGCACGAACGGCTTCAAGGCGTCGCGCGCGGTGTTCGAGGATCTGCTGTACCAGACCATCCGCCAGCCCGGCGCGAACTCGACGCAGCAGACCGAGCTGCCGTCGGGCCTGCAGCTCGGCACCGGCGTGCAGCAGGTCGCGACCGAGCGCCTGTACACGCAGGGCGGCCTCACGCAGACCGGCAACTCGAAGGACGTCGCGATCAACGGCGCGGGCTTCTTCCAGGTGCTGATGCCGGACGGCACCAACGCGTACACCCGCGACGGCTCGTTCCAGACCAACGCGCAGGGCCAGCTCGTCACGTCGAGCGGCTACCAGGTGCTGCCGGCGATCACGGTGCCGCAGAACGCGCAGTCGCTGACGATCGGCAAGGACGGCGTCGTGTCGGTCACGCAGCCGGGTTCGAGCAACGCGGTGCAGATCGGGTCGCTGCAGATCGCGACCTTCATCAACCCGACCGGCCTCGAGGCGAAGGGCGAGAACCTGTTCGCGGAAACGACGTCGTCGGGCGCGCCGAACGTGTCGCAGCCGGGGCTGAACGGCGCGGGCGTGCTCAACCAGGGCTACGTCGAGGCGTCGAACGTGAACGTCGTGCAGGAACTCGTCAACATGATCCAGACGCAGCGTGCCTACGAGATCAACAGCAAGGCCGTGACGACGTCCGACCAGATGCTGCAGACCGTCACGCAGATGAAGAGCTAACCGGAACGTCCCGTCGCAGCCATGAAGCAGGTTCGCCTCCCCTCGTCAGCCACCGTCCGCGCCGCCTGCGCGGTCGCGGTGGCGGCGCTCGCCGGTTGCGCGCAGATTCCGCGCGATCCGATCATCCAGCAGCCGATGACGGCGCAGCCGCCGATGCCGATGTCGATGCAGGCGCCCGGCTCGATCTACAACCCCGGCTATGCGGGGCGGCCGCTGTTCGAGGATCAGCGCCCGCGCAACATCGGCGACATCCTGACGATCATGATCGCGGAGAACATCAACGCGACCAAGTCGTCGGGCGCGAACACGAACCGGCAGGGCAACACCGACTTCAATGTGCCGACCGCCGGCTTCCTCGGCGGGCTGTTCGCGAAGGCGAACCTGTCGGCGACCGGCGCGAACAAGTTCGCGGCCACCGGCGGCGCGAGCGCGGCGAACACGTTCAACGGCACGATCACGGTGACCGTCACCAACGTGCTGCCGAACGGCAACCTCGTGGTCAGCGGCGAGAAGCAGATGCTGATCAACCAGGGCAACGAATTCGTGCGTTTCTCGGGGGTCGTCAACCCGAACACGATCTCGGGTGCGAACTCGGTCTACTCGACGCAGGTCGCCGACGCGAAGATCGAATACTCGTCGAAGGGCTACATCAACGAAGCCGAGACGATGGGCTGGCTGCAGCGCTTCTTCCTCAACATCGCGCCGTGGTGATGACGATGCAGCTGCCTCTTTTCCATCGCCTGTCGTTTCGTGCACTCACCGTCGCGCGGTTTGCCGCCTTCGTGCTGGCCGCGTGCATGCTCGGCGCCGCGCCGGCGCACGCGGAACGCCTGAAGGATCTCGCGCAGATCCAGGGCGTGCGCGACAACCCGCTGATCGGCTATGGCCTCGTCGTCGGCCTCGACGGCACGGGCGACCAGACGATGCAGACGCCGTTCACGACGCAGACGCTCGCGAACATGCTCGCGAACCTCGTCATCTCGATCAACAACGGTTCGGCCAACGGCGGCCCGTCGTCGCTGAACAACATGCAGCTGAAGAACGTCGCGGCCGTGATGGTGACGGCCACGCTGCCGCCGTTCGCGCGGCCCGGCGAGGCGCTCGACGTGACCGTGTCGTCGCTCGGCAACGCGAAGAGCCTGCGCGGCGGCACGCTGCTGCTCACGCCGCTGAAGGGCGCGGACGGGCAGGTGTACGCGCTCGCGCAGGGCAACATGGCGGTCGGCGGCGCGGGCGCCAGCGCGAACGGCAGCCGCGTGCAGGTGAACCAGCTCGCGGCCGGCCGGATCGTCGGCGGCGCGATCGTCGAGCGCGCGGTGCCGAACGCGATCGCGCAGATGAACGGCGTGCTGCAACTGCAACTGAACGACATGGACTACGGCACCGCGCAGCGCATCGTGTCCGCGGTCAATTCGAACTTCGGCCCGGGCACCGCGACGGCGCTCGACGGCCGCACGATCCAGCTCGCCGCGCCGGCCGATTCGGCGCAGCAGGTCGCGTTCATGGCGCGGCTGCAGAACCTCGACGTGAGCCCGGACAAGGCCGCCGCGAAGGTGATCCTGAACGCGCGCACCGGCTCGATCGTGATGAACCAGATGGTCACGCTGCAGAGCTGCGCGGTCGCGCACGGCAACCTGTCGGTCGTCGTCAACACGCAGCCGGTGGTGTCGCAGCCGGGGCCGTTCTCGAACGGGCAGACGGTGGTCGCGCAGCAGTCGCAGATCCAGTTGAAGCAGGACAACGGCGCGCTGAAGATGGTGACGGCCGGCGCGAATCTTGCCGACGTCGTGAAGGCGCTGAACACGCTCGGCGCGACGCCCGCGGACCTGATGTCGATCCTGCAGGCGATGAAGGCGGCCGGCGCGCTGCGCGCCGACCTGGAGGTGATCTAAATGGCGGCGAACCTTCCGAACGCAAACGACCTCACGCAGCGCTTCGCGCTCGACGTGCAGGGTTTCGACGCGCTGCGCGCGCAGGCGAAGCAGTCGCCGCAGGCCGGCGCGAAGGCGGTGGCCGGCCAGTTCGACGCGATGTTCACGCAGATGATGCTCAAGAGCATGCGCGACGCGTCGCCCGACGGCGGGCTGTTCGATTCGCATACGTCGAAGATGTACACGTCGATGCTCGACCAGCAGCTCGCGCAGCAGATGTCGACACGCGGGATCGGCGTCGCCGACGCGCTGATGAAGCAGTTGCTGCGCAATGCGGGCGCCGGGGCGGGCAGTGATACGGCGGCCGACGTCGGTGCCGGCGGCATGGGCGGCATGGGCGCCGGCGGCCTCGGCACGGCCGGCAACGAAGGCAGCCTCGCCGCGATGAACGCGATGGCGAGGGCCTATGCGAACGCGGCGAACAACGGCGGGCTCGCCGGCGCGCGCGGCTATTCGGCCGGCAGCGCGCTGACCCCGCCGGTCAAGGGCGCGAGCGGCGTGCAGGACGCGGACGCGTTCGTCGACCGGCTCGCGGCCCCGGCGCAGGCGGCCAGCGCGACGACCGGCATCCCGGCGCGCTTCATCGTCGGCCAGGCCGCGCTCGAATCGGGCTGGGGCAAGCGCGAGATCCGCGCGGCGGACGGCTCGACCAGCTACAACGTGTTCGGCATCAAGGCGAACAAGGGCTGGACCGGCCGCACCGTGTCGGCGCTGACCACCGAATACGTGAACGGCACGCCGCGCCGCGTGGTCGCGAAATTCCGCGCGTACGACTCGTACGAGCACGCGATGACCGATTACGCGAACCTGCTGAAGAACAACCCGCGCTACGCGGGCGTGCTGAGCGCGAGCCGCAGCGTCGAGGGCTTCGCGCACGGCATGCAGAAGGCCGGTTACGCAACCGACCCGAATTACGCGAAGAAGCTGATCTTGATCATGCAGCAGATCGGCTGACGGGCCCGCCCGTCATCGGTTCGTCCCCCTTTCGGACCGCGCCCGGCAGCCCGCCGCGCGCGGTTTCAACGTTTGCGCGAAATAAATCGCCGTTTCGATCTAAACTTTCGGTCAGCACTGCCGCTAAGTGTGAGAGACCTGCGACCGGGCCCCCGTTCTGGCCCGGTTTTATTGCGCACCGGTTGCCCCGGGCGCCCATGACAAGAAAGACCGGCTAGCCATGAATATCGAAACGTCGACGGACCCCAGCCTGGATGCAGGCCACTCCGGGCCCGACTATGCCCGCCGCAATCCGCTGGAAATCGGCGTGCAGCTGCGCAACCTGGTGAATCGCGGCGATTTCCTGACCGTGCAGTACCCGGGTGGCCAGCTCGTCACGCGTCTGCTCGAGGTCGACGTCGGCGCGCGGACGTTCACGTTCGACTGGGGCGCGCTGTCCGAGCAGAACGCCGGCATCCTCGGCGCGTCGCACTGCACGTTCGCGGCCTCGCCGGAGGGCGTGCGCGTCGAATTCACCACGGGCACGCCGCGCGAGACGCGCTACGAGGGGCTGCCCGCGTTCGTCGCCGATTTCCCCGACGTGCTGGTCTGCATCCAGCGTCGCGAATATTTCCGCGTGGACGCGCCGATCGTCGATCCGTTCCTGTGCCGCGGCAAGCTGCCGGACGGCGAAAGCTTCCTGTTCGAGGTGCACAACCTGTCGCTCGGCGGCGTGGGGCTGCGCACGGCCGACGAGCGCGTCGAGGCGCTCGAGGTCGGCACGCTGCTGCCGGACGTCGAACTCGAGCTGACGGGCCACGGCAAGCTGTCGCTCGACCTGCAACTGGTGTCGCAACGTTCGACGCAGATGCCGAACGGGTCGCGCCGCTACCAGCTCGGCTTCCGCTACATGTCGCTGCCGGGCAGCGCGGAGAACACGCTGCAGCGGCTGATCACCCAGCTCGAAATGAAGCGCCGCTCGCTCGCGCGGGCCTGACGCGCACCCGGCGCCGGCCCCGTCCGGGCCGCCCGCGCAGCGCCGCCGGCACCCTTCGCCGGCCGCTTCGAACGGCGACGCACGCCGGTGCGCCGCGCGTGCATTTTTTCCTCAATTTTTTCGATCCGCGGCCGTTATACCGGGAGTCACGCAACCCGGCGGCCGCAGCGCGGCCGGCTCATCAGGATCGCGCATGTCCAACTCACTCATGAACCTCGGTGTCAGCGGCCTGAATGCCGCGCTCTGGGGCCTCACGACGACCGGCCAGAACATCAGCAACGCGGCGACGCCCGGCTATTCGGTCGAACGCCCCGTCTATGCCGAGGCAAGCGGGCAGTACACCAGCAGCGGCTACATGCCGCAGGGCGTGAACACCGTCACCGTGCAGCGGCAGTACAGCCAGTACCTGAGCGACCAACTGAACGGCGCGCAGACGCAGGGCGGCGCGCTGTCGACGTGGTACTCGCTCGTCACGCAGCTGAACAACTACATCGGCAGCCCGACGGCCGGCATCTCGACCGCGATCACGAGCTACTTCACCGGGATGCAGAACGTCGCGAACAGCGCGTCCGATTCGTCGGTGCGGCAGACCGCGATGAGCAATGCACAGACGCTCGCGAACCAGATCACGGCGGCCGGCCAGCAGTACGACGCGCTGCGCCAGAGCGTGAACACGCAGCTCACCAGCACCGTCACGCAGATCAACGCGTACACCGCGCAGATCGCGCAACTGAACCAGCAGATCGCGGCGGCGAGCAGCCAGGGCCAGCCGCCGAACCAGCTGATGGACCAGCGCGACCTCGCAGTGTCGAACCTGTCGAATCTCGCGGGCGTGCAGGTGGTGCGCAACAGCGACGGCTACAGCGTGTTCATGTCGGGCGGCACGCCGCTCGTCGTCGCGGACAAGAGCTACCAGCTCGCGACCGTCACGTCGCCGTCCGATCCGAGCGAGCTGACCGTCGTGTCGCAGGGCATCGCCGGCGCGACCCCGCAGGGGCCGAACCAGTTCCTGTCCGACGCGTCGCTGTCGGGCGGCACGCTGGGCGGCCTGCTCGCGTTCCGCAGCCAGACGCTCGATCCGGCCGAAGCGCAGCTCGGCGCGATCGCGACCAGCTTCGCCGCGCAGGTCAACGCGCAGAATGCGCTCGGCATCGACCTGTCGGGCAAGGTCGGCGGCAACCTGTTTTCGACCGGCGCGCCGATCACCTACGCGAACCAGGGCAATACCGGTAACGCGGCGTTGTCCGTGTCGTTCGCGAACGCCGCGCAGCCGACCACCAGCGACTACACGCTGGCATACGACGGCACGAACTACACGCTGACCGACCGTGCGACCGGCACGGTGGTCGGTACGTCGACGTCGATGCCGGCCTCGATCGGCGGGCTGAACTTCTCGTTCTCGTCCGGCTCGATGAGCGCCGGCGACAAGTTCACCGTGCAGCCGACGCGCGGCGCGCTGAACGGCTTCGGCCTCACGACGTCGAACGGCTCCGCGATCGCGGCGGCCGCGCCGTACGTGCCGTCGGCCACGACGACCAACACCGGCAACGGCACGATCGGCGGGCTGTCGGTCACGAGCGCGACGGCCGCAGCCAACGCGCACAACTACACGATCACGATGGGCGGCACCACGGCCGCGCCGACCTACACGGTCACCGACAACACGGCCGTGCCGCCGACGACCAGCGCCGCGCAGCCGTACCAGTCCGGCTCGCCGATCACGCTGACGGCGGGCGTCACGGTCACGGTGTCGGGCACGCCGGCGGTGGGCGACACGTTCAAGGTCGCGCCGAACACGGGCGGCACGAACGACGGCAGCAACGCGCTCGCGCTGTCGAAGCTCGTCAACTCGAAGTCATTCGGCAACGGCTCGGCCACGCTGACGGGCGCGTACGCAAACTACGTGAACGGCATCGGCAACACGGCGAGCCAGCTGAAGTCGTCGAGCGCCGCGCAGACCGCGCTGGTCGGCCAGATCACGCAGGCGCAGCAGTCGGTGTCGGGCGTGAACCAGAACGAGGAAGCGGCCAACCTGATGCAGTACCAGCAGCTCTACCAGGCGAACGCGAAGGTGATCCAGACCGCGTCGACGCTGTTCCAGACCGTGCTCGGCCTGTTCAACTGATTTCGGGGTAAGCGATGCGGATTTCCACTGCGCAGTTCTACCAGATGAACGTCGCCCAGATGAGCGACCAGCAGGCGCAGCTCTCGCAGCTGTACCAGCAGATCTCGAGCGGCGTGAGCCTCGCGACGCCGGCCGACAACCCGCTCGGCGCGGCGCAGGCCGTGCAGCTGTCGATGACGTCGGCGACGCTGTCGCAGTACGCGTCGAACCAGAACGCCGCGCTGTCGTCGCTGCAGAAGGAAGACCAGACGCTCATCAGCGTCAACAACCTGCTCAACAGCATTCACACGGTCGTGATCCAGGCCGGCGACGGTTCGCTGTCGGACAGCGATCGTTCGGCGTTGTCGACGCAGCTGCAGGGTTATCGCGACCAGTTGCTGACGCTCGCGAATTCGACCGACGGCTCGGGCAATTATCTGTTCGCGGGCTTCCAGTCGGCCACCGCGCCGTTCTCGAACGCGCCGGGCGGCGGCGTGACCTACAGCGGCGACACCGGCTCGCGCCAGGTACAGATCGCCGACACGCGCTCGATCGCGCAGGGCGACAACGGCGCGAACGTGTTCCTGTCGGTGCCGATGCTCGGCAGCCAGCCGGTGCCGCTCGCCGGCGCGGCCAACACCGGCACGGGCACGATCGGCGGCGTGACGATCACGAGCCCGTCGGCCGCGTCCAACGCGCACCAGTTCACGATCGCGTTCGGCGGCACGGCCGCCGCGCCGACCTACACGGTGACCGACAACACCGTCGTGCCGCCGACCACGACGACCGCGCAACCGTATTCGGACGGCGCCGGGATCGCGCTCGGCAACGGCCTGTCGGTACCCGTGTCGGGCAAGCCGGCGCCGGGCGACACGTTCACGGTCACGCCCGCGCCGCAGGCCGGCACCGACGTGTTCGCGGCGCTCGACACGATGATCGCCGCGCTGAAGGTGCCGATCAGCAGCAACACGACCGCCGCGACCGCGCTCGCGAACGCGATGACCACCGGCACGACCAAGCTGAACAACATGATGACGAACGTCCTTACGGTGCAGGCGTCGGTTGGCGGCCGCGAGCAGGAAATCAAGGCGATGCAGGCCGTGAACCAGACCAACACGCTGCAGGTCAGCAGCGACCTGGCCGACCTGACGAGCACCAACATGGTCGCGACGATCAGCCAGTTCCTGCAGATGCAGAACGCGCTGACGGGGTCGCAGAAGGCCTACGCGCAGTTGCAGAACCTGTCGCTGTTCCAGTACATCAATCCGTGATGCACGACGCGCCGGCGGCGAGGTGAGCGCGCGCTTACTTCGCTGTCGGCGCCTGCCGCCGCCCGTGCATCGTGCGCGGACGGGCTTCACCGGGCCGCGCGGTCGCGCACCGGTTCTCTCATGCGGGCTGCCGCGTCCTCGTTTGGCCGGCCGCGCATACCGGCTCGCTTGCCAGCCCCCATTCCGCTCCGTAAACTCGCGCCAGATTCCAGACCGGCGCATCCCTGGCAGCCGGCGACCGACGACCGACAGGAGCGCTTTCCCCATGTCCGATTCCTACTTCCCGCGCTGGCGGGTCCAGCCGACCGGCGCGGCCTCGCGCGTCGTCGGCCCCGACGAGCGCCTCGCGTGGCCGCAGATGATCGCGATGGGTGTGCAGCACGTCGTCGCGATGTTCGGTTCGACCGTGCTCGCGCCGCTGCTGATGGGCTTCGACCCGAACCTGTGCATTTTCATGTCGGGCATCGGCACGCTGCTGTTCTTCGTGCTGGTCGGCGGCCGCGTGCCGAGCTACCTCGGCTCGAGCTTCGCGTTCATCGGCCTGGTGATCGCGGTGACGGGCTATGGCGGCAGCGGCCCGAACCCGAACATTCCGGTCGCGCTCGGCGGGATCGTCGCGTGCGGCGTCGTGTACGTCGCGCTCGGCGCGCTGGTGCAGGCGATCGGCACGCGCTGGATCGAGACGCTGATGCCGCCCGTCGTGACCGGCGCGGTGGTCGCGGTGATCGGGCTGAACCTCGCGCCGATCGCGGTCAAGGGCGTGTCGGGCTCGACCTTCGAATCGGTGATGGCGCTCGTCACGGTGCTGTGCGTCGGCGGCGTCGCGGTGTTCGCGCGCGGGATGATGCAGCGCCTCTTGATCCTCGTCGGGCTCGTGATCGCGTACGTGATCTACGCGATCACGACCAACGGGATGGGCCTCGGCAAGCCGATCGATTTCGCGATCGTCGCGCAGGCCGCGTGGTTCGGCGTGCCGAGCTTCCGCGCGCCGGTGTTCGATCCGCACGCGATGCTGATGCTCGCGCCGATCGCGGTGATCCTGGTCGCGGAGAACCTGGGCCACATCAAGGCCGTCAGCGCCATGACGGGCACCAACCTCGACCGCTACGTCGGTCGCGCGTTCATCGGCGACGGGCTCGCGACGATCGTCTCGGGCAGCGTCGGCGGCACGGGCGTGACCACCTACGCGGAGAACATCGGCGTGATGGCCGTCACGCGGATCTATTCGACGCTGGTGTTCGCGGTTGCCGCGCTGATCGCGATCGGGCTCGGCTTCTCGCCGAAGTTCGGTGCGGTGATCCAGACGATTCCGGGCCCCGTGCTCGGCGGCGTATCGATCGTGGTGTTCGGGCTGATCGCGGTGACGGGCGCGCGGATCTGGGTCGTCAACAAGGTCGACTTCTCCGACAACCGCAACCTGATCGTCGCGGCCGTCACGCTGGTGCTCGGCGCCGGCGACTTCTCGCTGAAGATCGGCGGCTTCGGGCTCGGCGGGATCGGCACCGCGACGTTCGGCGCGATCATCCTGTACGCGATCCTGCGCAAGGAAAAGGAACCGGGCCCGGTGGTCTGATTCGGGAGCGGGCGGTGCAATGCCGCCCGTCGTTGTGCATACCGCCGTTGTGCTCACCTCACGCGCCGGTATTCGACTGCCCCTGCAGCCACGCGCAGAACTGCGCGACGAGCGGATCGTCGGCCGGCGCACCCGGCGCGATCCACCAGTAGCTGCGCGTCGCGATGCGCGGCCCGTCGAGCGGCATCACCAGGCGCCCGCTCGCGAGCTCGTCGTCGATCAGCGGCAGCGGGCCGAGCGCGACGCCGAGCCCGTCGACGGCCGCCTGCAGCGCCAGGTAGAAGTGATCGAACGACTGCCGCTTGCGCCCCTTCATCGCGACGCCGGCCGCCGCGAACCAGTCGCGCCAGCCTTCCGGCCGCGTATCCGAATGCAGTAGCACGTGCCGCGCGAGATCGTCCGCGCGCGTGATCGGCGCCCGCTTGAGCAGCGCCGGGCTGCACACCGGAATCACGCTTTCGTCGAGGAAGTGACCGCTCGTGCAGTTCGGCCAGTGGCCGGGGCCGCGGCGGATCGCGACGTCGAAGCCGTTCAGCGTGTCGAGTGGCGCATTCGACGTCGACAGCTTCAGCTCGACGTTCGGCACGTCGCGCTGGAACCGCGACAGGCGCGGCAGCAGCCATTTCATCGCGAAGGTCGGCAGCGCGTTGATGCGCAGCACGCGCGCCGCGCCGCTGTTGCGCAACTGTTCGGTGGCGAGCGCGATGCTGTCGAAGGCCGCGCGCACGGTGTCCAGGTAGCGGCGGCCTTCGTCGGTGAGCTTCACGCGCTTGCCGTAGCGGTGAAACACCGGCTTGCCGAGCCACGCCTCGAACCCGGCGATCTGCCGGCTGATGGCACCGTGAGTCACATGCAGCTCGTCGCCGGCGGCGCTGAAGCTTTCATGTCGTGCCGCGGCTTCAAAGGCCCGAAGCGCGGAAAAGGGTGGGAG Predicted Gene Sequences: >PredictedProphage1 -Hit 1 TATCCGTCGCCGTACCGCACGACCGTCGAGCGCTACGCGCAGTCGACGGGCCTCGACGTCGAGTGGGCGTACGGGCTGATCCGCCAGGAATCGCGCTTCATCATCAGCGCGCGTTCGTCGGTGGGCGCGGGCGGCCTGATGCAGCTGATGCCGGCGACGGCCCAGATGGTCGCGAAGAAGCTCGGCATGGGCACGATCTCGCGTGCGCAGATGCACGACATCGACACCAACATCCAGCTCGGCACCTGGTATCTGGCGGACATCTACAACAACTTCGACAGCTCGCCGGTGCTCGCCACGGCCGGCTACAACGCGGGCCCGGGCCGGCCGCGCCAGTGGCGCCAGGTGTTGACGCAGCCGGTCGAAGGCGCGATCTTCGCGGAGACGATTCCGTTCAACGAGACGCGCGACTACGTGAAGAACGTGCTGTCGAATACCGTCTACTACGCGGCGCTCTTCGAGGGCAAACCGCAGTCGTTGAAGAAACGTCTAGGCATGATCTCGCCCTGATACACGAACTGCCGCGCGAGACGCGGCAGT >PredictedProphage1 -Hit 2 ATGAACATCTACGCAGTAGGCGGAGCGATCCGCGACGAATTGCTCGGCGTGCCGGTGCAGGACCGCGACTACGTGGTGGTCGGCGCGACGCCCGAGCAGATGACCGCGCAGGGCTTCCGGGCGGTCGGCAAGGATTTCCCGGTGTTCCTGCATCCGCAGACGCAGGAGGAGTACGCGCTGGCGCGCACCGAGCGCAAGACGGCGGCCGGCTATCACGGCTTCCAGTTCCACTACGCGCCGGACGTGACGCTCGACGAGGATCTCGCGCGGCGCGACCTGACGATCAACGCGATGGCGCGCGAGGTGAGCCCGGAAGGCGCGCTGGTCGGCCCGGTGATCGATCCGTTCGACGGGCAGGCCGACCTGCGTGCGCGTGTGTTCCGGCACGTGAGCGACGCATTCGTCGAGGACCCGGTGCGAATCCTGCGCATCGCGCGCTTTGCCGCGCGGTTCGCGGATTTCACGGTGGCGGACGAAACGCTCGCGCTGATGCGACGGATGGTCGATGCGGGCGAGGTCGACGCGCTCGTGCCCGAACGCGTGTGGCAGGAAATCGCGCGC >PredictedProphage1 -Hit 3 GAAGCGAAGAAGACGCTGCTGGAAGTGGCGACCGAAGCGAACCTGTCGGTCGGGTTCCTGTCGCAGGTCGAGCGCCATCTGACGGGCATCTCGCTGTCGTCGCTCGTCAACGTCGCGAAGGCGCTGGGGGTGCCGCTCGGCACGCTGATCGAGCAGCCGCGCCAGGCGCAGCCCGATTCGCACGAGGGCAGCCGCAAG >PredictedProphage1 -Hit 4 ATCCGGCCCTACAGCGGAATTTCCACGGTGCCGGCGTCCTTGACGATCGCCGTGACGATCTGTCCGGCCGCCATCCGCACCCGTACCGACTGGCCCGGCGCCGCATTCGCGAGCACGCTGCCTTCGGCCGAAATCGTGAAGCCGGGGCCGGCCGCGACGACCCGTACCGTCTGGCCGGCCGACACCGACGCCGCGCTCTTCAGCATGTCCTGCCGCAGCGGCAGCCCGGCCGAGATGCGCGCGAGCGCGGTCGCGCCGATCGCCTGCGCCGGATCGGTGATCACCGCGAGCGGCATGACCGTCAGGTCGCCGTCGCGTGCGACCAGGTCGGCCGCGGAGAGCGGCTCGCCG >PredictedProphage1 -Hit 5 ACGAACGTGCTCGCGCCGGGCAACTCGGTCGCGGTGAAGAGCGGCGCGGCGTCGCCGTTCGGCGTGTCGCTCGCGAGCTCGGTGTCGAACCTGACGATCACCGTGAAGAACTCGGCGGGCGCCGTCGTGAACACGATCAACGCGGGCGCGCAGTCGGCCGGCACCGTGCCGTTCAACTGGACCCCGACCGACGCGGCCGGCAACGCGCTGCCGGACGGCAAGTACACGGTCAGCGCGTCGTACACCGACAGCACCGGCACGCCGCACGCGGCCACGACGCTCGCGGCCTCGCAGGTGCAGAGCGTGGTCAAGCAGGCGGACGGCACCGCGGGGCTCGTGCTGTCGAACGGCACGACGGTGGGGCTCACCCAGGTTGCGTCGATCTTCCCGAAC >PredictedProphage1 -Hit 6 ACCGGCATCCCGGCGCGCTTCATCGTCGGCCAGGCCGCGCTCGAATCGGGCTGGGGCAAGCGCGAGATCCGCGCGGCGGACGGCTCGACCAGCTACAACGTGTTCGGCATCAAGGCGAACAAGGGCTGGACCGGCCGCACCGTGTCGGCGCTGACCACCGAATACGTGAACGGCACGCCGCGCCGCGTGGTCGCGAAATTCCGCGCGTACGACTCGTACGAGCACGCGATGACCGATTACGCGAACCTGCTGAAGAACAACCCGCGCTACGCGGGCGTGCTGAGCGCGAGCCGCAGCGTCGAGGGCTTCGCGCACGGCATGCAGAAGGCCGGTTACGCAACCGACCCGAATTACGCGAAGAAGCTGATCTTGATCATGCAGCAGATCGGC >PredictedProphage1 -Hit 7 GACCAGCGCGACCTCGCAGTGTCGAACCTGTCGAATCTCGCGGGCGTGCAGGTGGTGCGCAACAGCGACGGCTACAGCGTGTTCATGTCGGGCGGCACGCCGCTCGTCGTCGCGGACAAGAGCTACCAGCTCGCGACCGTCACGTCGCCGTCCGATCCGAGCGAGCTGACCGTCGTGTCGCAGGGCATCGCCGGCGCGACCCCGCAGGGGCCGAACCAGTTCCTGTCCGACGCGTCGCTGTCGGGCGGCACGCTGGGCGGCCTGCTCGCGTTCCGCAGCCAGACGCTCGATCCGGCCGAAGCGCAGCTCGGCGCGATCGCGACCAGCTTCGCCGCGCAGGTCAACGCGCAGAATGCGCTCGGCATCGACCTGTCGGGCAAGGTCGGCGGCAACCTGTTTTCGACCGGCGCGCCGATCACCTACGCGAACCAGGGCAATACCGGTAACGCGGCGTTGTCCGTGTCGTTCGCGAACGCCGCGCAGCCGACCACCAGCGACTACACGCTGGCATACGACGGCACGAACTACACGCTGACCGACCGTGCGACCGGCACGGTGGTCGGTACGTCGACGTCGATGCCGGCCTCGATCGGCGGGCTGAACTTCTCGTTCTCGTCCGGCTCGATGAGCGCCGGCGACAAGTTCACCGTGCAGCCGACG >PredictedProphage1 -Hit 8 GCCGCAGCCAACGCGCACAACTACACGATCACGATGGGCGGCACCACGGCCGCGCCGACCTACACGGTCACCGACAACACGGCCGTGCCGCCGACGACCAGCGCCGCGCAGCCGTACCAGTCCGGCTCGCCGATCACGCTGACGGCGGGCGTCACGGTCACGGTGTCGGGCACGCCGGCGGTGGGCGACACGTTCAAGGTCGCGCCGAACACGGGCGGCACGAACGACGGCAGCAACGCGCTCGCGCTGTCGAAGCTCGTCAACTCGAAGTCATTCGGCAACGGCTCGGCCACGCTGACGGGCGCGTACGCAAACTACGTGAACGGCATCGGCAACACGGCGAGCCAGCTGAAGTCGTCGAGCGCCGCGCAGACCGCGCTGGTCGGCCAGATCACGCAGGCGCAGCAGTCGGTGTCGGGCGTGAACCAG >PredictedProphage1 -Hit 9 CTCCCACCCTTTTCCGCGCTTCGGGCCTTTGAAGCCGCGGCACGACATGAAAGCTTCAGCGCCGCCGGCGACGAGCTGCATGTGACTCACGGTGCCATCAGCCGGCAGATCGCCGGGTTCGAGGCGTGGCTCGGCAAGCCGGTGTTTCACCGCTACGGCAAGCGCGTGAAGCTCACCGACGAAGGCCGCCGCTACCTGGACACCGTGCGCGCGGCCTTCGACAGCATCGCGCTCGCCACCGAACAGTTGCGCAACAGCGGCGCGGCGCGCGTGCTGCGCATCAACGCGCTGCCGACCTTCGCGATGAAATGGCTGCTGCCGCGCCTGTCGCGGTTCCAGCGCGACGTGCCGAACGTCGAGCTGAAGCTGTCGACGTCGAATGCGCCACTCGACACGCTGAACGGCTTCGACGTCGCGATCCGCCGCGGCCCCGGCCACTGGCCGAACTGCACGAGCGGTCACTTCCTCGACGAAAGCGTGATTCCGGTGTGCAGCCCGGCGCTGCTCAAGCGGGCGCCGATCACGCGCGCGGACGATCTCGCGCGGCACGTGCTACTGCATTCGGATACGCGGCCGGAAGGCTGGCGCGACTGGTTCGCGGCGGCCGGCGTCGCGATGAAGGGGCGCAAGCGGCAGTCGTTCGATCACTTCTACCTGGCGCTGCAGGCGGCCGTCGACGGGCTCGGCGTCGCGCTCGGCCCGCTGCCGCTGATCGACGACGAGCTCGCGAGCGGGCGCCTGGTGATGCCGCTCGACGGGCCGCGCATCGCGACGCGCAGCTACTGGTGGATCGCGCCGGGTGCGCCGGCCGACGATCCGCTCGTCGCGCAGTTCTGCGCGTGGCTG Predicted Protein Sequences: >PredictedProphage1 -Hit 1 YPSPYRTTVERYAQSTGLDVEWAYGLIRQESRFIISARSSVGAGGLMQLMPATAQMVAKKLGMGTISRAQMHDIDTNIQLGTWYLADIYNNFDSSPVLATAGYNAGPGRPRQWRQVLTQPVEGAIFAETIPFNETRDYVKNVLSNTVYYAALFEGKPQSLKKRLGMISP_YTNCRARRGS >PredictedProphage1 -Hit 2 MNIYAVGGAIRDELLGVPVQDRDYVVVGATPEQMTAQGFRAVGKDFPVFLHPQTQEEYALARTERKTAAGYHGFQFHYAPDVTLDEDLARRDLTINAMAREVSPEGALVGPVIDPFDGQADLRARVFRHVSDAFVEDPVRILRIARFAARFADFTVADETLALMRRMVDAGEVDALVPERVWQEIAR >PredictedProphage1 -Hit 3 EAKKTLLEVATEANLSVGFLSQVERHLTGISLSSLVNVAKALGVPLGTLIEQPRQAQPDSHEGSRK >PredictedProphage1 -Hit 4 IRPYSGISTVPASLTIAVTICPAAIRTRTDWPGAAFASTLPSAEIVKPGPAATTRTVWPADTDAALFSMSCRSGSPAEMRASAVAPIACAGSVITASGMTVRSPSRATRSAAESGSP >PredictedProphage1 -Hit 5 TNVLAPGNSVAVKSGAASPFGVSLASSVSNLTITVKNSAGAVVNTINAGAQSAGTVPFNWTPTDAAGNALPDGKYTVSASYTDSTGTPHAATTLAASQVQSVVKQADGTAGLVLSNGTTVGLTQVASIFPN >PredictedProphage1 -Hit 6 TGIPARFIVGQAALESGWGKREIRAADGSTSYNVFGIKANKGWTGRTVSALTTEYVNGTPRRVVAKFRAYDSYEHAMTDYANLLKNNPRYAGVLSASRSVEGFAHGMQKAGYATDPNYAKKLILIMQQIG >PredictedProphage1 -Hit 7 DQRDLAVSNLSNLAGVQVVRNSDGYSVFMSGGTPLVVADKSYQLATVTSPSDPSELTVVSQGIAGATPQGPNQFLSDASLSGGTLGGLLAFRSQTLDPAEAQLGAIATSFAAQVNAQNALGIDLSGKVGGNLFSTGAPITYANQGNTGNAALSVSFANAAQPTTSDYTLAYDGTNYTLTDRATGTVVGTSTSMPASIGGLNFSFSSGSMSAGDKFTVQPT >PredictedProphage1 -Hit 8 AAANAHNYTITMGGTTAAPTYTVTDNTAVPPTTSAAQPYQSGSPITLTAGVTVTVSGTPAVGDTFKVAPNTGGTNDGSNALALSKLVNSKSFGNGSATLTGAYANYVNGIGNTASQLKSSSAAQTALVGQITQAQQSVSGVNQ >PredictedProphage1 -Hit 9 LPPFSALRAFEAAARHESFSAAGDELHVTHGAISRQIAGFEAWLGKPVFHRYGKRVKLTDEGRRYLDTVRAAFDSIALATEQLRNSGAARVLRINALPTFAMKWLLPRLSRFQRDVPNVELKLSTSNAPLDTLNGFDVAIRRGPGHWPNCTSGHFLDESVIPVCSPALLKRAPITRADDLARHVLLHSDTRPEGWRDWFAAAGVAMKGRKRQSFDHFYLALQAAVDGLGVALGPLPLIDDELASGRLVMPLDGPRIATRSYWWIAPGAPADDPLVAQFCAWL Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig350 Genome size: 67404 Host's GC content: 65.34 Predicted Codon Position GC: 1st: 67.08 2nd: 44.34 3rd: 78.26 >PredictedProphage1 Length: 7228 Number of hits = 5 GC Coding First Second Third 55.64 55.57 58.09 42.41 66.22 Codon Usage: AA Codon Total Percent Leu TTG 15 0.126050420168067 Leu TTA 4 0.0336134453781513 Leu CTG 38 0.319327731092437 Leu CTA 1 0.00840336134453781 Leu CTT 19 0.159663865546218 Leu CTC 42 0.352941176470588 Lys AAG 47 0.671428571428571 Lys AAA 23 0.328571428571429 Glu GAG 39 0.469879518072289 Glu GAA 44 0.530120481927711 Gln CAG 23 0.605263157894737 Gln CAA 15 0.394736842105263 End TGA 0 0 End TAG 0 0 End TAA 0 0 His CAT 10 0.333333333333333 His CAC 20 0.666666666666667 Asn AAT 14 0.28 Asn AAC 36 0.72 Ser AGT 14 0.175 Ser AGC 23 0.2875 Ser TCG 21 0.2625 Ser TCA 5 0.0625 Ser TCT 8 0.1 Ser TCC 9 0.1125 Trp TGG 20 1 Arg AGG 4 0.0444444444444444 Arg AGA 2 0.0222222222222222 Arg CGG 20 0.222222222222222 Arg CGA 13 0.144444444444444 Arg CGT 16 0.177777777777778 Arg CGC 35 0.388888888888889 Ala GCG 33 0.34375 Ala GCA 23 0.239583333333333 Ala GCT 14 0.145833333333333 Ala GCC 26 0.270833333333333 Cys TGT 4 0.333333333333333 Cys TGC 8 0.666666666666667 Asp GAT 38 0.603174603174603 Asp GAC 25 0.396825396825397 Gly GGG 13 0.158536585365854 Gly GGA 14 0.170731707317073 Gly GGT 15 0.182926829268293 Gly GGC 40 0.48780487804878 Phe TTT 8 0.186046511627907 Phe TTC 35 0.813953488372093 Tyr TAT 22 0.523809523809524 Tyr TAC 20 0.476190476190476 Met ATG 26 1 Val GTG 16 0.242424242424242 Val GTA 9 0.136363636363636 Val GTT 14 0.212121212121212 Val GTC 27 0.409090909090909 Thr ACG 36 0.493150684931507 Thr ACA 11 0.150684931506849 Thr ACT 10 0.136986301369863 Thr ACC 16 0.219178082191781 Pro CCG 31 0.53448275862069 Pro CCA 8 0.137931034482759 Pro CCT 10 0.172413793103448 Pro CCC 9 0.155172413793103 Ile ATA 3 0.046875 Ile ATT 16 0.25 Ile ATC 45 0.703125 Left Right Strand Best Blast Hit Score Evalue 22274 22861 -1 ref|NP_665964.1|putative plasmid partitioning protein Soj 42.0bits(97) 0.008 23269 23448 -1 ref|YP_024964.1|putative prophage repressor protein 47.8bits(112) 1e-04 26042 27166 -1 ref|NP_061531.1|integrase 83.2bits(204) 3e-15 27492 28781 -1 ref|NP_690795.1|ORF11 283bits(723) 2e-75 29070 29501 -1 ref|NP_818445.1|gp145 95.5bits(236) 6e-19 DNA sequence: ACTTTGAATCATAGATTTAAGGTGTGGTGCACCTCGCTCCATCACAGCTTCTGGGATGACCGGGATGATATATCCGTGACTTGCTGCAATGGCGTTCTGTGATACAAGTTTCGTGGCAGGAGGGCAATCAAAGATAATGTAATCATATGTCTCGTCGATTCCCGCCTCTTCTAACCAGCGACACACGAGTGTCCGTTTATCCCACTCGGAGTGAATTGCATTACCATGATGCGATGCTGTTAGATCGATCTCGATATCGTCCAATTGGAGACTGGCTGGAACGATATCGAGGGTAGAATAATGTCGAGCGATTCCGGCTTGTTTTATGGCACTACGTTCAATCAGCGAACTAGTCGGGAATGTCGGGCTCTGTCCGATGAATGGCTTAAAAATTTCATTGACCGTTCGACTACTCGCAACCAAATTTTGCCATATCGGGGCCGTCAAGCTGACGATCGAGAGACTGCTTTGGTGGTCCATGTCCACCATTAAAACTCGTGCTTGATGATACCGGGCTAAACCGGCGGCAAATTGAAATGACAACGTCGTTTTCCCAACGCCACCTTTGAAATTAATAATGCTGACTCGTTTTGCCATTGATGTCCCCGTTTTTTTGTAGTTTCCGTTGCTGGTCAGGCAGTTGCGGAAAACTTCTCTCGCTGGTAGGTAGGCTGCTCACGTCAAGATCGTGTTGCCGTGGCGTATTCTCCGGCGCGTGTATCGGCTCCGATGAACATATTGTACCGTCAGTCAGTGCCGGTGGTTGCGGCGAATGCGCCCATAGCTTGCTTCCGTCATGCCCGGTGCAGGCTGGCATCGTACTTCGACTTGTATCGCTACTTGCGCCCCAGTTTCTTGGCAGGATGCTTGGCCCTTAGCATGTCGGCGAACTGCTGAACGAAATTCACGACGAGTTCCCGCTCGTCGCTATCCAGTCCATCGAGCGCGTCCGCAATCATCGCCAGTTGGTCATCCGGTCGCTTCGATCCGCGCTGCAACAACTGGTCTACCGAGCAGTTGAGTGCATCACTAAGCTGCTGGAGCCGATGCAAAGTCGGCACACGAGTGCCACGCTCCCATCGGCTGACCGCTTCCTGTTCCAGGTCGATCATCTCCGCGAGCTTCGCCTGTGTCAGGCCGCGTGCGCGTCGTTGTTCGGCAATGGCAGTTCCGACACGAGCAGCAAGCAGCGCGTCTTGGGCATCGTCGGGGGGCGAGCTAGGGCGGGTAGTCATAGGACGATATGGTCGTCTTCATTCCGATTACGATGAACAACTATTTAGGAATGTTGTATTCCAATATGGTTGAATTTGTCGAGATGTTGACGTATCGTGCAGTGGATGCCTGAGCGGTCGGGGATGACAACGAACGCCGTTAGGCAAGCGATCAATCCAGAAAAATCAACGAACTATGACCACAAACAATTCGCTTTCTCGGTTTCACGCCTTCATGGCAGCCTATGACGGTTGCCGTGCTTCGGCACTCGCAAGTGCGTTGCAGCTAACGCCGATGGCCGCGCGAGCACTCGGCCTGATCAATACATTTCCCGGCATGACCCTGCACGAGTTGAGTTGCATTCTCGGCGGCAGTCAGGCACAAGTGATTGGGGCGGCGTTCGACCTTAAGCACTTCGGCTACATCGACATGACCGATGAGCAAAACGACAATCGGCGGTGCGTGCTCCGGCCCATCCGAGACAAGATGTTCGGCTTCGACGGGTATCAACGGCTTGTGAACAATCTGGCGACGGACGCCGGAATCGCCGATCGTCTGACGGCGTTGCTGCCGCTGTATCAGGACGTGTTGATGAAAGCCTTGGAAGAACTGCAGGGCGACGCGCAGAGCGTCCAATATCAGGCGCAACGGCGGATACTGGCGCGGGTTGTCTAATCAACGCCGACGGCCTTTGACCTCGACGCGATAAACGCCGGTCTAGGTTCGCTATGGAATTTGAGAAGGTGTTCGCAGGGAGGTCATGGCCGGAAGTACGAGGACGAATCGGCGTCATGTCGGTCGATTCGCTCGACCGGCAATGGGTGCTTGTCGCCGAAGAATGCGGCTATCTCATCGCGAAATCGAGGGACGGAAAGGCTGGGTTGCTCGGCCGCATGTGCAAGCGCGACGACAGCAAGTTTTGCATCGAAGTCATCGTGCGCGCCAAGATCGAAAACAATGAGCTTCGTCACTACGAGTTCTGGTATGGCGACGCGGCTGACGAGCTACGTTATGCCCGGCGCCTCCGCGAGTTGATTTCTGGCAACATTCGCGGCCCCGAGCGGGACGGCGACCGATAATGCTTCGACCGACGAAGGAAGATTTTCAACGATGGAGCGGGACCGGGTTTGCGTTCTTCGGAACCTACCTGCATCCGATCCGCGCTGGTACAAATACGTCTGGCAGATATGGACGCCCGATTCGCCGCTCGAAAGCGCGGAGTTCTTCGAGCATGGTCCGCGCTACTGCACGGCGCAATTCCATGAGACGGAGAAACGACTGTCCGAGGCAGGCGTGTCGGGGTTCATCTACAACCGACAGTTACCGCGGCGCGGGCTCGGCAAACCGTTCGATCTGACGCATCCCCGATGGGCAAACCGGGAATGGGCACCAGCATGGGAAGATGATCCCGATCCCGAGTGGAACGGTCACAAGTAATCGGGTGCCGGCTTCCGAGATTCGCGGCCTCGAAAATCCCGGTTTTGTACGCCTTTAATAAGATATGGAAAGTGTCCTATTTCCGGTCACGCCAAGTGCCGGAGAAACCGCCTAATCTCGCCTGTGAGTCGGGATTTTCGGCGGATTTAATATCGGACCGGACACGTCATCGGTTATATTCAGGAGTTGCATCGTGCTTGACGCGATCCACCGGAGATTGGTATGTCTGATGACCCTAGGCTCCTAATGGAGCTTGACCGGACCACTGAGACCGAAGTCGCCAACCGCGCAAAGCGAAGAATACGGCGTGCGCCACCACCTGACGTTGATGACGTGTCGAAATCAATTCACTTCCTACGCGGAGTTGGTTCCCGAGCATCGTTTGTATTGACCAGCTTCTATTTTCTTCTGGCTACCGAAATCGATGGCAAGAGGCCGTGTACCGTTCCCGGCTACCCAGGGGAAGTCCTTCAGAGTTATCTACAATTCGTGTCGCTCAATAATCTCGCCCTTACATGCCGCAAGGTATTCGATCACGGGGCGAAAGGTCTCACCGGCGCACAGTTCGGAAAGCAACGGGACGAAACCCTCAAGGGGCATGCTGAATATTGGGCGAAGAGCTCGCAACGCCCCATCGAGGATGCATGTTCGGCGCTTCATTTCCTGCGCACCTTTTTCGCCAAGTGCTCGAAAACCGATGCCGCTCTGTTCAGAGAAGGAACAACGCTCGGTCGAAGGATCGGGTTTATCAAACAATATGCCGATCACGCTGCCGCCCATCTTTCATTGGATGACTATGAGTTCAACCATCTTGATTTGGCGCACGTTGTTGCAGCACTAGTACTTGTAGGTGAGATCATTCGTAGCTTCGATGCGCCTTACCAACCAACTGACTACTATGATCAAATCGATCAAGCGTCGTTGGATGCTTCGGTTGCCTTGTTCCCCGACACCCCTCAGCTCAGGCTCTTCCAAAATATGAAGGTCGGGTCGCAAGCTAGTATGTGCTGGCAAGTGGGGGAGGCATCCGGGATTCAAATGATGACAGAGCAACTTCCTTACACGATTGGTTGGTTCTGAGTCGGCCCCGTAGGGCCCGCCCGACATTCAAGCAGATTCGAGCAGCGAATCGATGATCTTGACCGCTTTCCGGCTCGCATCGTTCGGGCTCAGATGCGCATAGCGCTGCGTCATTTTCGGATCGCTGTGCCCGAGCAGGACCGATACCTCATAGAGACTGACACCCGCTTTGACCAGCTTGCTCGCGAACGTGTGACGGAGCGTGTGCAGCGTAACGCGCCCGCCGCGTTCCTTGACCAGAACCGGATCGTTGAGCCCAGCGCGCTCGATTGCTTTCTTGATCGACTTCGTGCTGTAGCCGCGCTCGTTGCCGGTGCGGTCTTCGAATACGTATCGCTGTCCGGTCCTGCGTTCTTCCCACCGCCGACGGAGGATCGCTTCGAGTCGGGAGGTCATGTGCAGCACATCTTCATTCCGCACCTTGCTCCGATAGAGGCTGATCGTGCACGCGTCGAGGTTGATCGCCGACCACGGAGTGTTCGCGACCTCCGAGTAACGGCACCCCGTATCGAGCAGGAAAACCGTGATATCGTAGTTATCCTGCATATTTCGCGTCATTTCAGGTGTTTGCGGTTTAGACGCGTTTATACGCGCTCTAAGCCGTTCCGGATCGAGTTCGCGCAATAACGCCGACTCGTCGTTAGAATCCAGATATCGAAGCCTATACGAAGTCCTAAGCTCTGGAAAAACGATCTCACGACTGACTTTGAATCCGAGCTTCGCCATCTCGTTGATCGTCGCGCGAAGCAGTCCGATCTCGTGCTTGATCGTCGCAGGCTTGTCGCCCTCAGCCTTGCGCTTCGCAACGAGAAGATCGAAATACCGCGTTGTCAGTTCATGAAGCAGCGTATCAGGCGACATGCCATAGCAGGGGAGCTTGGCCTTCGTTCTCGGATGAAGCTTATAGCCGAGCGTTTTCCGAACGATCGAGCACATGTTCCGGTGATAGGACGTTTCGCTTCGTGCCTCGACATATTGTTCCAGCGCATCTTTGAGCGTGATGGGCTGCGCATCCCCGAGGTACTGCTCGGCGTGGGCGCGATTGCGCATCTCACGTTCGACCTGAGCGGCCTTCGTCTTGTTCGGCGTCCCGGTCGAGCCGAAGAACTTCTTGCCTTGAATCTGGAACTGGTAGTACCAGTTCTTGCTGTTGTTTCGACGGATGAGTGTCATCGTGTTGCTCCTTACGGAATGTAATTGATGAGCAACACCATCCGGGCTGAGACCGGGGTATGACAACAGCTTCCGCCCATGCCAGATGCAAAAAAATGGACCGCGCGAGAGCGCGATCCGTTCAGAGTTACGTGGGTTCCACCTCCGAGTCGTCGGTCATGGCGGCAAGCACAGTTTTCTGCCAATCCAACTTCCGCTTCTCGATCTCCGTGTCGATGAATTCGTGTCCGACGTAGGCCTTCGTGTTCTCATTGAATTGCAGATCCACGATCAGCCTCAGGCCCTTGTAGACCCGATGGGGTTTCGATGCGGGCTTGTACCCCTTATCTGCCAGGATCATGCCGAACCGCTTGCCGGAATAGGAAAAATTGTACTGCGACTCGCTCCACGCCTTGAAGAACTTGTAGGTGTCGCCGAAATGGATTTCCCCGTCCGGATCATTGCGAGTGAATTCTGACAACCAGCTTTCGACTACATCCATTTCGCCACGGTACTCGGACACTTCGTTCGTGATGGCCTTCGGCTCATTGAGCTTGTTGCCGTTCTCGCGCCATTGCTTGCAGCCCACGAGCGCCCAGTTCAGGATACCCGGGAGTTCGTCGCGCAGCTTGCGCTCAAGGTCGGGGTCGCGTTTCTCGGGCGGAATCGTCACTGTGAACGGGATCAGCTTCATGCGACGCCAGATGCCGTGATCGTTGCCCTTGATCGTCGGCTTGTAGTTACCGGCGAGCCAGAGCTTGAAACGAGGCTTGAACTCGAAGGCATTCCCGTAAAGCAAGCGAGCGGTGATGTCTTCGCCGCCCGTGTACCACTTCACGGTTTTCTCGCTAAAGTGGCGTCCTTCTTCGACCTCACTCATGGCGACCAGACGCTTTCCCGCGAGACGTGCGACTTCGCTGCTCGCTGCGTTTGAACTCATAGCCGCCCCACCGTTCTTGTCGAGCAGCATGTCGCCGTTGGCCTGAGCGCCCAAATCACCGAACAGGGCGCGCAGTACGTTCAGAAAGGTCGATTTCCCGTTTGCGCCACTGCCGAATGCGAAGAACAGGGCGTGTTCCGACGTCAGTGTCGTCAGCGTATAGCCGATAGCGCGGCGCACGTACTCCACAAGCTCAACGTTCCGGTTCATGATCTCAAGCAGGAATGCTTCCCACAACGGACATGTCGCATCCGGGTCGTAATCGACTGCTGCTGTATAGGTAATGTGCAGCTTCGGATCCATCGGCATGAACGAGCCCGTCCGCAAATCGATGAGTCCATTGCGTACTGGGAGCATCCATTCACCCTGATCGAGATCACCCGCAGAAACAGCAATGCCGGGTTCCGACCTGAAGAGCTCCACTGCATATTTCAGGCCCGTATTGCTCTCGGTATATTTCGCGTGCTCGAACATTTCCACCCGGTTTCCCGGGGACAGGCGAGACAACTCCTCGTAGATCAGGGGAAGGAGTTGGCGGGCGAGGAGGAGTACGTGCAGTTCATCGACGCGCTGCCAGACACCGGATTCCCGTTTTTTCAGCCATTGCTTGGTCTGAGGAACGTAACGGAGTTCGTCGCCGAACAGATCGCTCATCCGCCGAGCATTGCCAAGATCGGTCGTGTGCTGATTGCTGCCACTGTTCTCCTGATGCGACCTGATAACGTTCACGGCGACCTGTGATACCTCCGACTCGGAGAGCGGCGGGTTGCAGCAGGCCGCGTTATATTCAAGCAGTTCTTCCTCCAGCCGCTCGTAGTCCAGACCACCGTTAAGCAGCGAGAACGCGTGGAGCATGACCGACTGGTTGCGATTGCCGGCAGGGACGATTGCGGTCTTGCGCGATTTCCGCTTGCGGCGTGTCGTACCCTGCTTGGCGAATTCTTCGAGCAACCATGCAGGAGCAGGCGCAATAGGTACGGTTTCATCGACCCACTCATACGGGTTGCCTTCGATGGTTGATGGCGGAGCGCCGCAATAGCCCCCGTCGGCGCGGATGTCGATGCCATCGCGGAAGCCGACCTTACACTGAATCTTCATGCCTTCAGGGTAAGTGAAAAGCAGGTGGATACCTCCAGATGGCGTGATGACGGTGCGAGTAGCAGGCAACGGACCGTGTTTTTTCTGAAGTGCGACAAGCGACTTTGCGCCAGACTTGTTGTTCTTCACATCGACGTCGATCACGATCAGGCGACCGGACGGAGCGCCAGTTGCATAGGCAATGTTCGAGCTGGGGAATTGCTCCGCCCATGCCCGATGCTGTTCGGGGTCGAGGCTCGCGTCCTTGAATCCGTTCGGCGTGAGGGGGCGCTTTTCGTTCGGAACAATCGGGAAACAGGCGAAGCC Predicted Gene Sequences: >PredictedProphage1 -Hit 1 CGAGTCAGCATTATTAATTTCAAAGGTGGCGTTGGGAAAACGACGTTGTCATTTCAATTTGCCGCCGGTTTAGCCCGGTATCATCAAGCACGAGTTTTAATGGTGGACATGGACCACCAAAGCAGTCTCTCGATCGTCAGCTTGACGGCCCCGATATGGCAAAATTTGGTTGCGAGTAGTCGAACGGTCAATGAAATTTTTAAGCCATTCATCGGACAGAGCCCGACATTCCCGACTAGTTCGCTGATTGAACGTAGTGCCATAAAACAAGCCGGAATCGCTCGACATTATTCTACCCTCGATATCGTTCCAGCCAGTCTCCAATTGGACGATATCGAGATCGATCTAACAGCATCGCATCATGGTAATGCAATTCACTCCGAGTGGGATAAACGGACACTCGTGTGTCGCTGGTTAGAAGAGGCGGGAATCGACGAGACATATGATTACATTATCTTTGATTGCCCTCCTGCCACGAAACTTGTATCACAGAACGCCATTGCAGCAAGTCACGGATATATCATCCCGGTCATCCCAGAAGCTGTGATGGAGCGAGGTGCACCACACCTTAAATCTATGATTCAAAGT >PredictedProphage1 -Hit 2 GTCGGAACTGCCATTGCCGAACAACGACGCGCACGCGGCCTGACACAGGCGAAGCTCGCGGAGATGATCGACCTGGAACAGGAAGCGGTCAGCCGATGGGAGCGTGGCACTCGTGTGCCGACTTTGCATCGGCTCCAGCAGCTTAGTGATGCACTCAACTGCTCGGTAGACCAGTTGTTG >PredictedProphage1 -Hit 3 CGTCGAAACAACAGCAAGAACTGGTACTACCAGTTCCAGATTCAAGGCAAGAAGTTCTTCGGCTCGACCGGGACGCCGAACAAGACGAAGGCCGCTCAGGTCGAACGTGAGATGCGCAATCGCGCCCACGCCGAGCAGTACCTCGGGGATGCGCAGCCCATCACGCTCAAAGATGCGCTGGAACAATATGTCGAGGCACGAAGCGAAACGTCCTATCACCGGAACATGTGCTCGATCGTTCGGAAAACGCTCGGCTATAAGCTTCATCCGAGAACGAAGGCCAAGCTCCCCTGCTATGGCATGTCGCCTGATACGCTGCTTCATGAACTGACAACGCGGTATTTCGATCTTCTCGTTGCGAAGCGCAAGGCTGAGGGCGACAAGCCTGCGACGATCAAGCACGAGATCGGACTGCTTCGCGCGACGATCAACGAGATGGCGAAGCTCGGATTCAAAGTCAGTCGTGAGATCGTTTTTCCAGAGCTTAGGACTTCGTATAGGCTTCGATATCTGGATTCTAACGACGAGTCGGCGTTATTGCGCGAACTCGATCCGGAACGGCTTAGAGCGCGTATAAACGCGTCTAAACCGCAAACACCTGAAATGACGCGAAATATGCAGGATAACTACGATATCACGGTTTTCCTGCTCGATACGGGGTGCCGTTACTCGGAGGTCGCGAACACTCCGTGGTCGGCGATCAACCTCGACGCGTGCACGATCAGCCTCTATCGGAGCAAGGTGCGGAATGAAGATGTGCTGCACATGACCTCCCGACTCGAAGCGATCCTCCGTCGGCGGTGGGAAGAACGCAGGACCGGACAGCGATACGTATTCGAAGACCGCACCGGCAACGAGCGCGGCTACAGCACGAAGTCGATCAAGAAAGCAATCGAGCGCGCTGGGCTCAACGATCCGGTTCTGGTCAAGGAACGCGGCGGGCGCGTTACGCTGCACACGCTCCGTCACACGTTCGCGAGCAAGCTGGTCAAAGCGGGTGTCAGTCTCTATGAGGTATCGGTCCTGCTCGGGCACAGCGATCCGAAAATGACGCAGCGCTATGCGCATCTGAGCCCGAACGATGCGAGCCGGAAAGCGGTCAAGATCATCGATTCGCTGCTCGAA >PredictedProphage1 -Hit 4 CACACGACCGATCTTGGCAATGCTCGGCGGATGAGCGATCTGTTCGGCGACGAACTCCGTTACGTTCCTCAGACCAAGCAATGGCTGAAAAAACGGGAATCCGGTGTCTGGCAGCGCGTCGATGAACTGCACGTACTCCTCCTCGCCCGCCAACTCCTTCCCCTGATCTACGAGGAGTTGTCTCGCCTGTCCCCGGGAAACCGGGTGGAAATGTTCGAGCACGCGAAATATACCGAGAGCAATACGGGCCTGAAATATGCAGTGGAGCTCTTCAGGTCGGAACCCGGCATTGCTGTTTCTGCGGGTGATCTCGATCAGGGTGAATGGATGCTCCCAGTACGCAATGGACTCATCGATTTGCGGACGGGCTCGTTCATGCCGATGGATCCGAAGCTGCACATTACCTATACAGCAGCAGTCGATTACGACCCGGATGCGACATGTCCGTTGTGGGAAGCATTCCTGCTTGAGATCATGAACCGGAACGTTGAGCTTGTGGAGTACGTGCGCCGCGCTATCGGCTATACGCTGACGACACTGACGTCGGAACACGCCCTGTTCTTCGCATTCGGCAGTGGCGCAAACGGGAAATCGACCTTTCTGAACGTACTGCGCGCCCTGTTCGGTGATTTGGGCGCTCAGGCCAACGGCGACATGCTGCTCGACAAGAACGGTGGGGCGGCTATGAGTTCAAACGCAGCGAGCAGCGAAGTCGCACGTCTCGCGGGAAAGCGTCTGGTCGCCATGAGTGAGGTCGAAGAAGGACGCCACTTTAGCGAGAAAACCGTGAAGTGGTACACGGGCGGCGAAGACATCACCGCTCGCTTGCTTTACGGGAATGCCTTCGAGTTCAAGCCTCGTTTCAAGCTCTGGCTCGCCGGTAACTACAAGCCGACGATCAAGGGCAACGATCACGGCATCTGGCGTCGCATGAAGCTGATCCCGTTCACAGTGACGATTCCGCCCGAGAAACGCGACCCCGACCTTGAGCGCAAGCTGCGCGACGAACTCCCGGGTATCCTGAACTGGGCGCTCGTGGGCTGCAAGCAATGGCGCGAGAACGGCAACAAGCTCAATGAGCCGAAGGCCATCACGAACGAAGTGTCCGAGTACCGTGGCGAAATGGATGTAGTCGAAAGCTGGTTGTCAGAATTCACTCGCAATGATCCGGACGGGGAAATCCATTTCGGCGACACCTACAAGTTCTTCAAGGCGTGGAGCGAGTCGCAGTACAATTTTTCCTATTCCGGCAAGCGGTTCGGCATGATCCTGGCAGATAAGGGGTACAAG >PredictedProphage1 -Hit 5 GGCTTCGCCTGTTTCCCGATTGTTCCGAACGAAAAGCGCCCCCTCACGCCGAACGGATTCAAGGACGCGAGCCTCGACCCCGAACAGCATCGGGCATGGGCGGAGCAATTCCCCAGCTCGAACATTGCCTATGCAACTGGCGCTCCGTCCGGTCGCCTGATCGTGATCGACGTCGATGTGAAGAACAACAAGTCTGGCGCAAAGTCGCTTGTCGCACTTCAGAAAAAACACGGTCCGTTGCCTGCTACTCGCACCGTCATCACGCCATCTGGAGGTATCCACCTGCTTTTCACTTACCCTGAAGGCATGAAGATTCAGTGTAAGGTCGGCTTCCGCGATGGCATCGACATCCGCGCCGACGGGGGCTATTGCGGCGCTCCGCCATCAACCATCGAAGGCAACCCGTATGAGTGGGTCGATGAAACCGTACCT Predicted Protein Sequences: >PredictedProphage1 -Hit 1 RVSIINFKGGVGKTTLSFQFAAGLARYHQARVLMVDMDHQSSLSIVSLTAPIWQNLVASSRTVNEIFKPFIGQSPTFPTSSLIERSAIKQAGIARHYSTLDIVPASLQLDDIEIDLTASHHGNAIHSEWDKRTLVCRWLEEAGIDETYDYIIFDCPPATKLVSQNAIAASHGYIIPVIPEAVMERGAPHLKSMIQS >PredictedProphage1 -Hit 2 VGTAIAEQRRARGLTQAKLAEMIDLEQEAVSRWERGTRVPTLHRLQQLSDALNCSVDQLL >PredictedProphage1 -Hit 3 RRNNSKNWYYQFQIQGKKFFGSTGTPNKTKAAQVEREMRNRAHAEQYLGDAQPITLKDALEQYVEARSETSYHRNMCSIVRKTLGYKLHPRTKAKLPCYGMSPDTLLHELTTRYFDLLVAKRKAEGDKPATIKHEIGLLRATINEMAKLGFKVSREIVFPELRTSYRLRYLDSNDESALLRELDPERLRARINASKPQTPEMTRNMQDNYDITVFLLDTGCRYSEVANTPWSAINLDACTISLYRSKVRNEDVLHMTSRLEAILRRRWEERRTGQRYVFEDRTGNERGYSTKSIKKAIERAGLNDPVLVKERGGRVTLHTLRHTFASKLVKAGVSLYEVSVLLGHSDPKMTQRYAHLSPNDASRKAVKIIDSLLE >PredictedProphage1 -Hit 4 HTTDLGNARRMSDLFGDELRYVPQTKQWLKKRESGVWQRVDELHVLLLARQLLPLIYEELSRLSPGNRVEMFEHAKYTESNTGLKYAVELFRSEPGIAVSAGDLDQGEWMLPVRNGLIDLRTGSFMPMDPKLHITYTAAVDYDPDATCPLWEAFLLEIMNRNVELVEYVRRAIGYTLTTLTSEHALFFAFGSGANGKSTFLNVLRALFGDLGAQANGDMLLDKNGGAAMSSNAASSEVARLAGKRLVAMSEVEEGRHFSEKTVKWYTGGEDITARLLYGNAFEFKPRFKLWLAGNYKPTIKGNDHGIWRRMKLIPFTVTIPPEKRDPDLERKLRDELPGILNWALVGCKQWRENGNKLNEPKAITNEVSEYRGEMDVVESWLSEFTRNDPDGEIHFGDTYKFFKAWSESQYNFSYSGKRFGMILADKGYK >PredictedProphage1 -Hit 5 GFACFPIVPNEKRPLTPNGFKDASLDPEQHRAWAEQFPSSNIAYATGAPSGRLIVIDVDVKNNKSGAKSLVALQKKHGPLPATRTVITPSGGIHLLFTYPEGMKIQCKVGFRDGIDIRADGGYCGAPPSTIEGNPYEWVDETVP >PredictedProphage2 Length: 9247 Number of hits = 5 GC Coding First Second Third 69.82 69.62 70.76 51.54 86.58 Codon Usage: AA Codon Total Percent Leu TTG 6 0.075 Leu TTA 0 0 Leu CTG 45 0.5625 Leu CTA 0 0 Leu CTT 2 0.025 Leu CTC 27 0.3375 Lys AAG 7 0.7 Lys AAA 3 0.3 Glu GAG 28 0.622222222222222 Glu GAA 17 0.377777777777778 Gln CAG 30 0.882352941176471 Gln CAA 4 0.117647058823529 End TGA 0 0 End TAG 0 0 End TAA 0 0 His CAT 4 0.166666666666667 His CAC 20 0.833333333333333 Asn AAT 4 0.285714285714286 Asn AAC 10 0.714285714285714 Ser AGT 1 0.0238095238095238 Ser AGC 19 0.452380952380952 Ser TCG 17 0.404761904761905 Ser TCA 1 0.0238095238095238 Ser TCT 0 0 Ser TCC 4 0.0952380952380952 Trp TGG 18 1 Arg AGG 0 0 Arg AGA 1 0.0117647058823529 Arg CGG 16 0.188235294117647 Arg CGA 3 0.0352941176470588 Arg CGT 14 0.164705882352941 Arg CGC 51 0.6 Ala GCG 73 0.588709677419355 Ala GCA 6 0.0483870967741935 Ala GCT 6 0.0483870967741935 Ala GCC 39 0.314516129032258 Cys TGT 0 0 Cys TGC 5 1 Asp GAT 12 0.292682926829268 Asp GAC 29 0.707317073170732 Gly GGG 14 0.162790697674419 Gly GGA 2 0.0232558139534884 Gly GGT 15 0.174418604651163 Gly GGC 55 0.63953488372093 Phe TTT 2 0.0571428571428571 Phe TTC 33 0.942857142857143 Tyr TAT 6 0.25 Tyr TAC 18 0.75 Met ATG 17 1 Val GTG 24 0.380952380952381 Val GTA 5 0.0793650793650794 Val GTT 3 0.0476190476190476 Val GTC 31 0.492063492063492 Thr ACG 30 0.652173913043478 Thr ACA 0 0 Thr ACT 0 0 Thr ACC 16 0.347826086956522 Pro CCG 33 0.702127659574468 Pro CCA 3 0.0638297872340425 Pro CCT 0 0 Pro CCC 11 0.234042553191489 Ile ATA 1 0.0256410256410256 Ile ATT 3 0.0769230769230769 Ile ATC 35 0.897435897435897 Left Right Strand Best Blast Hit Score Evalue 36411 37217 -1 ref|NP_945089.1|gp58 53.9bits(128) 2e-06 37632 38051 1 ref|NP_945090.1|gp59 54.7bits(130) 1e-06 39230 39817 -1 ref|NP_061549.1|Orf53 36.6bits(83) 0.32 44271 44597 1 ref|YP_006930.1|putative Sir2-like protein 45.1bits(105) 9e-04 45163 45657 -1 ref|NP_817999.1|gp26 37.0bits(84) 0.24 DNA sequence: CCAGCACAGCGACAGGTCGCGCGCGAACAGCCGGTGCGCGACCGTCGACAGCTTGAGCTTGCGTTCCTCGATCTCGACGTGCGCGGCCGTCCACGGCAGGATCGTCACACCGAGCTGCGCCATCACGGCCGCGAACAGCAGCCCGGTCGAACTCGCCTCGAAGCTGATCTCGTACGACAGCCCGGCCTCGCGCATCGCCCAGTCGACGCGGTTGCGGATCGTGTTCGGCGCGCTCGGCAGTACGAGCGGCATCCGCGCGATCGCGTCGAGCGGCACGGGCGCGTCCGGCACCGGGAATCCGGGCCACGTGATCAGGTACAGCGTTTCCGTCAGCAACCGGTGGATCGCGATGCCGCGCGTGTCGACCGCATCGACGACGATCGCGAGATCGAGCCGCGCGCGTTCGAGCAGCGTGTCGAGGTCGGCGCTCGGCGCTTCGATCAGCTCCAGCATGATGCCCGGATAGCGGTCGCGCACGGCGCGGGCGAGCGGAATGGCCAGCACGCGCGCGGTGCTCGACGGCATGCCGACGGTCACGCGGCCCTGCGGCGTGTCGGCGTCGCGGCGCAGCAGCTCGCGCGTGCCGTCGGCCTGGCGCAGCAGTTCGAGTGCGTGCTGGTACAGCGTGCGGCCGGCGGCGGTCGGCGCGACGCCGCGCACGCTTCGTTCGAGCAGTTGCATCCCGAGATCCTGCTCGAGATTGCGCATCTGCTGGCTCACCGCCGGCTGCGCGACGTGCAGCGCCTCGCTCGCGTGCGTGACGTTGCCGCATTCGACGACCTTCACGAAATAGCGCAACTGTCTCAAGTCCATCGCCGCCGTCTCCCGATTCAAGCCCGAATCACGCCCGATTCGAGCCATAAGCCAATCCGATCGAGCAAGATGAATATCATATTTTTCAGCGATCGATAGCGTTTCTATACTCGTCTCACAAAAGAGCCCGACTGCCGGCCATTCCGGACCGGACGCGGCGCAAGAGCCGGCCCCGCCGGCAAGGAGACGAAGATGTTCAAGGCGATCGACGCGTCGGCGGCCGGCGCGAAGCCGCGGCGCACGCCGCTCACGCGCGAGCAGGTGAAGGGTTTCTGGGCCGTGTACGCGGGCTGGGTGCTCGACGGCGTGGATTCGGTGATCTACGCGCTCGTGCTGATTCCCGCGCTGACGGAATTGCTGCCGGCGTCCGGCATCGCGGCGACGCCCGCGAACCTGGGGATGTACGGCTCGATCCTGTTCGCGCTGTTCCTGATCGGCTGGGGGCTGTCGTTCATCTGGGGGCCGCTCGCCGATCGCTTCGGCCGCGTGCGCACGCTCGCGGCGAGCATCCTGATCTATTCGGTGTTCACCGGCGCGGCCGCGTTCGTGCACGACGTGTGGGCGCTGGCCGCGTGCCGGCTGATCGCCGGGATCGGCGTCGGCGGCGAATGGGCGCTCGCCGGTACCTACGTCGCCGAGAGCTGGCCGGAAGATCGCCGCAAGATGGGCGCCGGCTACCTGCAGACGGGCTACTACTTCGGCTTCTTCATCGCGGCCTGCCTGAACTACACGATCGGCGCGACCTACGGCTGGCGCGCGATGTTCCTGTGCGGGCTGGCGCCCGCGCTGCTCGCGGTGTTCACGGTGACGCGCGTGAAGGAGCCGGGGCAGTGGCGGCGGCACGACGCGCGCGACGGCGACGTGGCTGACGCGCGGCGCGCGCATCCGCTGCGCGAGATCTTCGCGCCGGCGTTCCGGCGTCGTACGCTGACGAGCGCGAGCCTCGTCGGCGTTGCGATCGTCGGGCTGTGGGCCGGCTCCGTCTACGAGGCGAGCGCGGTCACCACGCTGGCGGCGCGCGCGGGCATCGATCACGTCGGCGCGCTGCGGCTTGCGTCGATCGGCGCGGCGATCCTGTCGTGCGCGACGATTGCCGGCTGCCTGGTGGCGCCGTGGCTGTCGGAACGGCTCGGCCGGCGTACCGCGCTCGGCGTGTATTTCGCGGGGATGGCCGCATCGATCGTGTTCGCGTTCGGCTGGGCGTTCTACCAGCCGAACGGGCTCGCCGCGTTCATGGTGTCGCTCGCGTTCCTCGGCTTCTTCGGCGGCAACTTCGCGATCTTCTCGCTGTGGTTGCCCGAGCAATATCCGACGCGCGTGCGGGCCACCGCATTTGCGTTCAACGCGTCGGTCGGTCGCTTCATCGGCGCGGGCGTGAACTTCCTGCTCGGCGCCGCGATTCACGGTTACGGATCGCTCGGCGTGCCGGTCGCATGGACCGCGGCCGTGTTCGGGCTCGGCGTCCTGATTCTGCCGTTCGCGGTCGAGACGCGACATCAGACGCTGCCCGAATGAGCGAAATGCCGCAGTCGTTCGGAAACAAGACGAGACATACCCATCAATATCAGGAGTCCGGAATGCAGGCATTAACGGGAATCAAGGTCGTCGATCTGAGTCGCGCGCTGTCGGGGCCGTTCTGCTCGATGGTGCTCGCGGATCTCGGCGCCGACGTGATCAAGGTCGAATCGGGGCCGCACGGCGACATGAGCCGCGCGTGGGGGCCGTTCGATCGCGGCGTGAGCACGTACTACCTGTCCTGCAACCGCAACAAGCGCGGCATCTGCGTGGACTTCCGGCAGCCGGCCGGCCTCGACGTCGTGCGGCGCCTGATCGCGCAGGCCGACGTCGTGATCGAGAATTTCAAGGCGGGCACGATGGACGCGATGGGGCTCGGCTATGCTGAGCTGAGCGCGGGCGATCCGCGGCTCGTGATGGGCAGCGTCACCGCGTTCGGCTCGCGCGGCCCGCTGCGCGACTGGCCGGGCTTCGACCAGATCGCGCAGGGCTATGCGGGGCTGATGAGCCTCACCGGTTTCCCGGATGGCGAGCCGACCCGCACGGGCACCGCGATCGGCGATCTCAGCTCGGGGATGTGGGTCGCGACCGGCGTGATGGCCGCGCTGTTCGAGCGCGAGCGCACCGGGCGCGGCCAGCATGTCGGCACGTCGCTGCTCGAAAGCCTCGTTGCGCTGCTGAGCGTGCATGGGCAACGCTACCTGAGCCTCGGCGACGTGCCACGCCGTACCGGCAATGCGCATGCGGTGATCGCGCCGTACGGCGTGTTCGAGACGGCCGACGGCCCGCTCAACCTCGCGCCGATCACGACCGACATGTGGCTGCGGCTGTGCCAGTTGCTGGATCTGCCCGCGCTGCCCAACGATCCGCGCTTCGCGACCAACGATGCGCGCGTCGCGCATCGCGATGAACTCAAGGCGCTGCTCGAAAGCCGGTTGCGCACGCGCGGCAAGCGCGAATGGACGCAACGGTTCGTCGAGGCCGGGCTGCCGGCCGGCCCGATCCATACGCTCGACGAAGTGTTCGACGATCCGCAGCTCGCGCATTGCGGGCTGGTCGAGCCGGTCGCGCATCCGACGCTCGGTACGCTGCGCCAGGTCGTCACGCCGCTCGGCGGGATGGACGACGACGTGCCGGCGCCGCGCACCCGCCATGCGCCGCCGCTGCTCGGCGAGCATACGGTCGATGTGCTGCGCGAAGCCGGCTACGGCGACGACGCGATCGACGCACTGCTGGCCGGGCGCGCGATCTTCCAGGCCGATGCGGTGGCGGAGGCCGTGCAATGACCGACATGACGAAACACGACGGAGCGTCGAGCGTGACGGTCGATTGGATCGGCGAGCGGATCGCGCGCGTGCGGTTCGGGAATCCGGCGCGACGGCATGCGCTCGACGCGCCGTTGCTCGATGCCCTCGTCGCGCATCTCGATGCGTTGGCCGGGCACCGTCCGCCGCCGGTCGTGATCCTGTCCAACGACGGCAGCGGCGACGTGTGGAGCGCGGGGCACGACCTGCGCGAACTGGCCGACGACCGCGATCCGCTCGCGTACGGCAAACCGCTCGAACGCGCGCTGCGGCGCGTGCGGACCTATCCGGGCGCGGTGATCGCGGCGGTGGCCGGATCGGCGTGGGGCGGGGCGGTCGATCTCGTGATGAGCTGCGATCTCGTCGTCGCGGCGCGCGACGCGCGTTTCGCGATGACGCCCGCGAACATCGGCCTGCCGTATTCGACGAGCGGCCTGCTGCGCTTCTACGACAACCTGCCGATCCATGTGCTCAAGGAGATGTTCTTCTGCGCGCAGCCGCTCGATGCGGAACGCGCCGCGCATCACGGGCTCGTGAACCGGCTGGCTGACGCGGGCGGGGTCGACGACGCGGCGCTCGACGTCGCGCGCACGATTGCCGCGAAGGCGCCGCTCGCGGTGCACGCGGTGAAGGAGCAGTTGCGCGTGCTGCAGGATGCACGGCCGTTGCCGGCCGACGCATTCGAACGAATCACCGAGCTGCGTCGCCTAGCGTGCGAAGGCGCGGATTTCGACGAAGGGTTGCGCGCGTTCGCGGAGCGGCGTGCGCCGGTGTTTCGTGGGGCCTAGACGATCACGCGACGGCCGGTGCGATGATGGCGGCGGCGCGTTACACCCCGCCGAGCGTGTGCACACCCACGAGCAGCAGCGCGCCGATCGCGATCAGCAGCAGCGCATGAACGCGCGTGTAGATCACGCACAGCGTCGACGCAGCCGCGATCGCGCGGGCGGCCCAGCCGCCGTCGAGCGCCTGCAGCAGCACCCACACCGACGCGAGGATCATGCCGGCCGCGACCGGGCGCAGGCCGGCTTCGAGCGCGATTTGCCAGCGTGCGCCCCGGTGTCGCCGCCATAGATGCGCGACACCATAGATCAGGAACGCGGTCGGGCCGAACAGCGCGAGCGTCGCGATCACCGCGCCCCAGAAACCGGCCACCTGCCAGCCGATCAGCGTCGCCAGCAGCGAGCCGGGACCCGGCGCCATCCGCGCGATCGCGAAGTCGTTCACGAATTGCGTGGCGCTCATCCAGTGATGGACGTCGACGACCTGCCGCTGGATATCCGCGATGACCGCCTGCCCACCGCCGATCGTCGCGATCGACAGCGGCGCGAACACGCCGAACAGCGCTGCGTAACGTGCGGACGCGTTCATCGTGCGTCGCTCCCGGCCGGCGCGGCGGCCGCACGGCGGTATTCGAGCGCGACGCTCAGCGCGCCGCCGATCAGCACGGTCCATACGAGCGGCCAGTGCAGCACCGCGACGGACACGAAGGTGAGTGTCATCACCGCGAACGGCAGCGCGCGGCGCGGTAGCCGGCGCACCGCGGTGATCGCCATCGAGATCGACAGCCCGATCGCCGCGGCCGCCGCACCGGCGAGTGCGACATGCGTGAGCGGAAAGCGCGTGAGGGTAGAGAACGCGATGCCGAACAGCACGATCAGCACGGCCGGCGGCGCGATGATGCCGGTGAAGCCGGCCACCGCGCCGCGCCATCCGGCGAGCCGGTAGCCGATCCAGATCGCGAGGTTCTTCACGTTGACGCCCGGCAACGCCTGCGACAGCGCGAGGCCGTTGAGGAAAGCCTCTTCGTCGAGCCAGCGCCGCTCGTGGACGAAGTCGCGCATCATCCGCCCGCTGAGCCCGCCGCCGAAGCTGGTCAGGCCGATCTGCGCGAACGCGATGAACAGCGCGAGGACGCCGGGCGGCGGAGCGTCGCCGGCGGGCGGTACCTGAGGCGTCGTGGTGGAGGGCGGGGGCATCGGGCGGGTAGCACGTGGCGATCGGGCGATCGCCCATGTTAGCAAGCGGTGCCTGTCAGCACGCTGACATGGATTCGGCACGGGCGCGGTGCCGCCCGCAACCGATTCGGCGCATGCGAGCGCCCCGCGCGCTACGCGCGCACCACCGTCACGCCCGCGGCCTCGATCGGCTTCGTCAGCGCGGCGTCGGTTTCCTTCTCGACGACGATCGTCTGCGCCAGCGTGAGGTCACCGATCACGAATTGCGATGCCGCGCGCAGTTTCGACTGCGACGCGAGCACGACCGTCTCGGCCGCGCGTTCGGCCAGCGCGCGCTTGATCGCCGCTTCCTCGAAATCGCCGGTGCTCAGGCCGGCTACCGGATGGACGCCCGTGACGCCCATGAAGTACAGGTCTGCATGAATGCGCGCGATGCCTTCCATCGCCGCGGCGCCGACCGCGACGATCGAATGCTTGTAGAGCCGCCCGCCGATCAGGATCACGTCGATCGACGGATGGGCGGCCAGCGCGACCGCGACGCTCGGGCTGTGCGTGACGATCGTCGCGCGCAGGTCGGCCGGCAACTGGCCGACGAGCAGCGCGGAGGTCGTGCCGCCGTCGACGATCGCCACCTGCCCGGGCGCGATCATCTGCGCGGCCCGCCGCGCGATGCGCCGCTTCTCCGCGGATTCGAGCGCTTCGCGCTGCGCGAACGGCGCGATGGCCGGCGACGCCGGCAGCGCGCCGCCATGCACGCGCTGCAGCAGCCCTTCGGCCGCGAGCTCGCGCAGGTCGCGGCGCACCGTGTCTTCGGACACGCCGAATTGCACGCTCAGCTCGGCGGCCAGTACCTGGCCGTCGCGCGCGAGCGCATCGAGGATCGCCTTCTTGCGTTGTGTCGTCAGCATCGTGTTTGCACGAAAATTCTTGAAATTGCACGAAACTGCACGTTACCATGGGCGCCATCCTTTGTCGAACCGGAGGCTGCAATGGCTGCAACGCGGGAGCGGGTCCGCATCGTCGATACGACGGTGCTGTCCGACGACTGGTATGTGCTGCGAAAGGTGACGTTCGATTTCCTGCGTCGCGACGGAACGTGGCAGCGCCTGAGCCGCGAGACCTACGATCGCGGCAACGGCGCGACGATCCTGCTGCGCCATGCCGAGACGGGCGACGTGCTGCTGACGCGGCAGTTCCGGATGCCGGCGTTCGTGAGTGGGCACGACGGCATGCTGCTCGAAGCGGCGGCCGGCCTGCTCGACGACGAAACGCCCGAGGCGCGCATTCGCGCGGAGGCCGAGGAAGAGACCGGCTATCGCGTGCGCGGCGTGCGCAAGGTGTTCGAGGCGTTCATGAGCCCGGGTTCCGTGACCGAGAAGCTGCATTTCTTCGTCGGCGAATACGATGCGTCGCTGCGCACGAGTGCCGGCGGCGGCATCGCGGAAGAGGGTGAAGATCTCGAAGTCGTCGAGATGCCGCTGCAGGCGGCGCTGGACGCGGTCGAGCGCGGCGAGATCGTCGATGCGAAGACGATCATGCTGCTGCAATACGTCGCGCTGCGGGAAACCGCCGGCGCGCGCGCAGCATGACGCCGCGGCTCGTGCTGGTCGCCGGCCCCTATCGCAGCGGCACGGACGGCGACCCTGCCCGCATCGCCGCGAACCTGCACCGGCTGGAAGCGGCGGCGCTCGCCGTGTATCGCCGCGGGCACGTGCCGATGATCGGCGAATGGGTGTCGTTGCCGCTCGCGGCCGCGGCCGGGTCGACGCAGGTGGGCGACGCCGTCAGCGAAACCTTCCTGTATCCGGCCGCGCACCGGCTGCTGCGACGTTGCGATGCGGTGCTGCGCATCGACGGCGCGTCGCGCGGGGCGGATGCGGACGTGGCGCTTGCGCGGGAACTCGGCAAGCCGGTCTATTTCGCGGTCGACGAGATGCCGGTTGCGCAGGACGATTCGACCTGACTGAGCGAGCATGGGCGCCGGTTGACGGCATCGCCGGTGCGGCGTTTGCGGACGGCCGGTACTCGCATCACCGATAGCCGGCGCGTGTAGTGCAGCACGCCGCGTTGCGTGGCCGATGCAGCGCAGCGTCCGAACCGGCGTATGATCGCGACGCCACTCGCGCAACGCTCGACGCCACTGCTTCTCCATCATGCCTTTTTCCGATCCCGCTGGTTCCGCCGACTCCGCCGCCGCGCCGCTTCCCGCCGATCTCGTCGCGTCCGCCGTCGACGCACTCGCACGCGCCGACGCCTTGCTCGTCACGGCCGGTGCGGGCATCGGCGTCGATTCCGGACTGCCCGATTTTCGCGGCACGGACGGTTTCTGGCGCGCGTATCCGGCGCTGCGCCACGAGCGTTTCGAATTCCACGAGATCGCGTCGCCGCACGCGTTTCGTGCGCGTGCGCCGCTCGCATGGGGCTTCTACGGGCACCGTCTCGCGCTGTACCGTGCGACGGTGCCGCACGCGGGTTTCGCGATCCTGCGCCGCTGGATCGACGCGATGCCGAACGGCGGCTTCGTGCTGACCAGCAACGTCGACGGCCAGTTCCAGAAAGCCGGCTTCGATCCGGCGCGCATCGTCGAGATCCACGGCTCGATTCATGCGATGCAATGCCTGCGCCCGTGCACGGACGACACGTGGGACGCGGCGCCGTTCGTGCCGGTGGTCGACGAAGCGACGTGCCGCCTGGTTGGCGACCTGCCGCGCTGCCCGCACTGCGGCGGTCTCGCGCGGCCGAACATCCTGATGTTCGGCGACACCGGCTGGCTCGGTGCGCGTTACGACGCGCAGGAGCGCGCGCTCGAAGACTGGATCGCGCAGGCCGGGCGCGTCGCCGTGGTCGAGATCGGCGCGGGCACGGCGATTCCGACCGTGCGCCTGCTGAGCGAACGGCTCGGCGCCGACGTGATCCGCATCAACGCGCGCGAAGCGCATGCGCGCCGGGCGGACGTGATCGGGCTGAAAGGCGGGGCGTTGACGACGCTGAACGCGCTCGACCGCGCGTGGCGCGGCGGCTGAACCACGTGCCGCGAGTCCACCGGCCGAGGCCGCGCGATTACGGCCGCGTGACGAGCGCCTGCACGAGCGCCGGCGCGATCGGCGAACCGAGGCCCGTCACGTAGTCGTAGCCGCCCGCCGCATTGCAGATGCTGCCGCAATTGCCGTTGGACCCGGTCGTCACGTCGTGGAAGTCGCTGCCGTACGCGGTTTTACCGACCGTATAGAGCGTGTCGTAGGTGCCGCTCAACGATTTCTTGCCGGCCGCCGTGCGCAGCGAATTCGCGATCGCGACGAGCGCCGACCATTGCGGCGCCCCCGCGCTCGTGCCGCCGACCTGGAACCAGCCGGCCTGCCCCTGATAGGTGACCGAGTCGTACACCGCGAAACCGCTGGACGGATTCGCGTCGTAGCTGACGTCGGGTACGCCGCGCTTGCCGGCCACCGGAATCGGCCACGCGGTCTGGCCGGCCGGCTCGGCCTCGACGTTGCTCACGCCGCCGCCGCTGCCGCTCCATGCCGCCTCGCCGATGTAGTTGCCGGCCGTGTCCGACGACAGCGTCGTGCCGCCGACGGATACCACGTAACGCGACGCGGCCGGGTATTCGGTGCCGGTGCCGCTGTCGCCTGACGATGCGACGAACGTGACGCCCGG Predicted Gene Sequences: >PredictedProphage2 -Hit 1 TTGAGACAGTTGCGCTATTTCGTGAAGGTCGTCGAATGCGGCAACGTCACGCACGCGAGCGAGGCGCTGCACGTCGCGCAGCCGGCGGTGAGCCAGCAGATGCGCAATCTCGAGCAGGATCTCGGGATGCAACTGCTCGAACGAAGCGTGCGCGGCGTCGCGCCGACCGCCGCCGGCCGCACGCTGTACCAGCACGCACTCGAACTGCTGCGCCAGGCCGACGGCACGCGCGAGCTGCTGCGCCGCGACGCCGACACGCCGCAGGGCCGCGTGACCGTCGGCATGCCGTCGAGCACCGCGCGCGTGCTGGCCATTCCGCTCGCCCGCGCCGTGCGCGACCGCTATCCGGGCATCATGCTGGAGCTGATCGAAGCGCCGAGCGCCGACCTCGACACGCTGCTCGAACGCGCGCGGCTCGATCTCGCGATCGTCGTCGATGCGGTCGACACGCGCGGCATCGCGATCCACCGGTTGCTGACGGAAACGCTGTACCTGATCACGTGGCCCGGATTCCCGGTGCCGGACGCGCCCGTGCCGCTCGACGCGATCGCGCGGATGCCGCTCGTACTGCCGAGCGCGCCGAACACGATCCGCAACCGCGTCGACTGGGCGATGCGCGAGGCCGGGCTGTCGTACGAGATCAGCTTCGAGGCGAGTTCGACCGGGCTGCTGTTCGCGGCCGTGATGGCGCAGCTCGGTGTGACGATCCTGCCGTGGACGGCCGCGCACGTCGAGATCGAGGAACGCAAGCTCAAGCTGTCGACGGTCGCGCACCGGCTGTTCGCGCGCGACCTGTCGCTGTGCTGG >PredictedProphage2 -Hit 2 TCGATCCTGTTCGCGCTGTTCCTGATCGGCTGGGGGCTGTCGTTCATCTGGGGGCCGCTCGCCGATCGCTTCGGCCGCGTGCGCACGCTCGCGGCGAGCATCCTGATCTATTCGGTGTTCACCGGCGCGGCCGCGTTCGTGCACGACGTGTGGGCGCTGGCCGCGTGCCGGCTGATCGCCGGGATCGGCGTCGGCGGCGAATGGGCGCTCGCCGGTACCTACGTCGCCGAGAGCTGGCCGGAAGATCGCCGCAAGATGGGCGCCGGCTACCTGCAGACGGGCTACTACTTCGGCTTCTTCATCGCGGCCTGCCTGAACTACACGATCGGCGCGACCTACGGCTGGCGCGCGATGTTCCTGTGCGGGCTGGCGCCCGCGCTGCTCGCGGTGTTCACGGTGACGCGCGTGAAGGAGCCGGGG >PredictedProphage2 -Hit 3 CGTCGGATGCGCGACCGGCTCGACCAGCCCGCAATGCGCGAGCTGCGGATCGTCGAACACTTCGTCGAGCGTATGGATCGGGCCGGCCGGCAGCCCGGCCTCGACGAACCGTTGCGTCCATTCGCGCTTGCCGCGCGTGCGCAACCGGCTTTCGAGCAGCGCCTTGAGTTCATCGCGATGCGCGACGCGCGCATCGTTGGTCGCGAAGCGCGGATCGTTGGGCAGCGCGGGCAGATCCAGCAACTGGCACAGCCGCAGCCACATGTCGGTCGTGATCGGCGCGAGGTTGAGCGGGCCGTCGGCCGTCTCGAACACGCCGTACGGCGCGATCACCGCATGCGCATTGCCGGTACGGCGTGGCACGTCGCCGAGGCTCAGGTAGCGTTGCCCATGCACGCTCAGCAGCGCAACGAGGCTTTCGAGCAGCGACGTGCCGACATGCTGGCCGCGCCCGGTGCGCTCGCGCTCGAACAGCGCGGCCATCACGCCGGTCGCGACCCACATCCCCGAGCTGAGATCGCCGATCGCGGTGCCCGTGCGGGTCGGCTCGCCATCCGGGAAACCGGTGAGGCTCATCAGCCCCGCATA >PredictedProphage2 -Hit 4 GGTGCGGGCATCGGCGTCGATTCCGGACTGCCCGATTTTCGCGGCACGGACGGTTTCTGGCGCGCGTATCCGGCGCTGCGCCACGAGCGTTTCGAATTCCACGAGATCGCGTCGCCGCACGCGTTTCGTGCGCGTGCGCCGCTCGCATGGGGCTTCTACGGGCACCGTCTCGCGCTGTACCGTGCGACGGTGCCGCACGCGGGTTTCGCGATCCTGCGCCGCTGGATCGACGCGATGCCGAACGGCGGCTTCGTGCTGACCAGCAACGTCGACGGCCAGTTCCAGAAAGCCGGCTTCGATCCGGCGCGCATCGTCGAGATCCACGGC >PredictedProphage2 -Hit 5 CCGGGCGTCACGTTCGTCGCATCGTCAGGCGACAGCGGCACCGGCACCGAATACCCGGCCGCGTCGCGTTACGTGGTATCCGTCGGCGGCACGACGCTGTCGTCGGACACGGCCGGCAACTACATCGGCGAGGCGGCATGGAGCGGCAGCGGCGGCGGCGTGAGCAACGTCGAGGCCGAGCCGGCCGGCCAGACCGCGTGGCCGATTCCGGTGGCCGGCAAGCGCGGCGTACCCGACGTCAGCTACGACGCGAATCCGTCCAGCGGTTTCGCGGTGTACGACTCGGTCACCTATCAGGGGCAGGCCGGCTGGTTCCAGGTCGGCGGCACGAGCGCGGGGGCGCCGCAATGGTCGGCGCTCGTCGCGATCGCGAATTCGCTGCGCACGGCGGCCGGCAAGAAATCGTTGAGCGGCACCTACGACACGCTCTATACGGTCGGTAAAACCGCGTACGGCAGCGACTTCCACGACGTGACGACCGGGTCCAACGGCAAT Predicted Protein Sequences: >PredictedProphage2 -Hit 1 LRQLRYFVKVVECGNVTHASEALHVAQPAVSQQMRNLEQDLGMQLLERSVRGVAPTAAGRTLYQHALELLRQADGTRELLRRDADTPQGRVTVGMPSSTARVLAIPLARAVRDRYPGIMLELIEAPSADLDTLLERARLDLAIVVDAVDTRGIAIHRLLTETLYLITWPGFPVPDAPVPLDAIARMPLVLPSAPNTIRNRVDWAMREAGLSYEISFEASSTGLLFAAVMAQLGVTILPWTAAHVEIEERKLKLSTVAHRLFARDLSLCW >PredictedProphage2 -Hit 2 SILFALFLIGWGLSFIWGPLADRFGRVRTLAASILIYSVFTGAAAFVHDVWALAACRLIAGIGVGGEWALAGTYVAESWPEDRRKMGAGYLQTGYYFGFFIAACLNYTIGATYGWRAMFLCGLAPALLAVFTVTRVKEPG >PredictedProphage2 -Hit 3 RRMRDRLDQPAMRELRIVEHFVERMDRAGRQPGLDEPLRPFALAARAQPAFEQRLEFIAMRDARIVGREARIVGQRGQIQQLAQPQPHVGRDRREVERAVGRLEHAVRRDHRMRIAGTAWHVAEAQVALPMHAQQRNEAFEQRRADMLAAPGALALEQRGHHAGRDPHPRAEIADRGARAGRLAIRETGEAHQPRI >PredictedProphage2 -Hit 4 GAGIGVDSGLPDFRGTDGFWRAYPALRHERFEFHEIASPHAFRARAPLAWGFYGHRLALYRATVPHAGFAILRRWIDAMPNGGFVLTSNVDGQFQKAGFDPARIVEIHG >PredictedProphage2 -Hit 5 PGVTFVASSGDSGTGTEYPAASRYVVSVGGTTLSSDTAGNYIGEAAWSGSGGGVSNVEAEPAGQTAWPIPVAGKRGVPDVSYDANPSSGFAVYDSVTYQGQAGWFQVGGTSAGAPQWSALVAIANSLRTAAGKKSLSGTYDTLYTVGKTAYGSDFHDVTTGSNGN Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig351 Genome size: 69963 Host's GC content: 68.07 Predicted Codon Position GC: 1st: 68.76 2nd: 45.08 3rd: 82.88 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig352 Genome size: 75115 Host's GC content: 67.96 Predicted Codon Position GC: 1st: 68.69 2nd: 45.05 3rd: 82.68 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig353 Genome size: 69577 Host's GC content: 68.09 Predicted Codon Position GC: 1st: 68.78 2nd: 45.08 3rd: 82.91 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig354 Genome size: 72660 Host's GC content: 68.03 Predicted Codon Position GC: 1st: 68.74 2nd: 45.07 3rd: 82.80 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig355 Genome size: 59792 Host's GC content: 61.48 Predicted Codon Position GC: 1st: 64.71 2nd: 43.30 3rd: 71.73 >PredictedProphage1 Length: 5582 Number of hits = 5 GC Coding First Second Third 58.44 59.34 63.37 44.46 70.19 Codon Usage: AA Codon Total Percent Leu TTG 9 0.166666666666667 Leu TTA 1 0.0185185185185185 Leu CTG 21 0.388888888888889 Leu CTA 3 0.0555555555555556 Leu CTT 3 0.0555555555555556 Leu CTC 17 0.314814814814815 Lys AAG 9 0.6 Lys AAA 6 0.4 Glu GAG 19 0.513513513513513 Glu GAA 18 0.486486486486487 Gln CAG 21 0.65625 Gln CAA 11 0.34375 End TGA 0 0 End TAG 0 0 End TAA 0 0 His CAT 8 0.5 His CAC 8 0.5 Asn AAT 4 0.5 Asn AAC 4 0.5 Ser AGT 3 0.0810810810810811 Ser AGC 15 0.405405405405405 Ser TCG 11 0.297297297297297 Ser TCA 3 0.0810810810810811 Ser TCT 2 0.0540540540540541 Ser TCC 3 0.0810810810810811 Trp TGG 13 1 Arg AGG 3 0.0508474576271186 Arg AGA 0 0 Arg CGG 10 0.169491525423729 Arg CGA 9 0.152542372881356 Arg CGT 14 0.23728813559322 Arg CGC 23 0.389830508474576 Ala GCG 18 0.346153846153846 Ala GCA 10 0.192307692307692 Ala GCT 4 0.0769230769230769 Ala GCC 20 0.384615384615385 Cys TGT 4 0.5 Cys TGC 4 0.5 Asp GAT 9 0.529411764705882 Asp GAC 8 0.470588235294118 Gly GGG 5 0.0961538461538462 Gly GGA 8 0.153846153846154 Gly GGT 11 0.211538461538462 Gly GGC 28 0.538461538461538 Phe TTT 5 0.178571428571429 Phe TTC 23 0.821428571428571 Tyr TAT 8 0.470588235294118 Tyr TAC 9 0.529411764705882 Met ATG 20 1 Val GTG 19 0.395833333333333 Val GTA 10 0.208333333333333 Val GTT 5 0.104166666666667 Val GTC 14 0.291666666666667 Thr ACG 13 0.590909090909091 Thr ACA 2 0.0909090909090909 Thr ACT 1 0.0454545454545455 Thr ACC 6 0.272727272727273 Pro CCG 14 0.777777777777778 Pro CCA 0 0 Pro CCT 1 0.0555555555555556 Pro CCC 3 0.166666666666667 Ile ATA 3 0.0882352941176471 Ile ATT 9 0.264705882352941 Ile ATC 22 0.647058823529412 Left Right Strand Best Blast Hit Score Evalue 31167 31463 1 ref|NP_958230.1|gene 56 protein 74.3bits(181) 1e-12 31415 31870 1 ref|NP_958229.1|gene 55 protein 122bits(305) 5e-27 31822 32034 1 ref|NP_958229.1|gene 55 protein 104bits(259) 1e-21 33491 33754 1 ref|NP_958229.1|gene 55 protein 119bits(298) 3e-26 36218 36748 -1 ref|NP_945090.1|gp59 59.3bits(142) 4e-08 DNA sequence: CAACGACGTACGTTTTCCCCGGAGTTCAAACAGCAAGCCGCCTGTCTGGTGCTCGACCAGGGTTATAGCCATATGGAAGCAAGCCGCTCGGTCGGCGTCGGCGAGACGGTGCTGCGCCGCTGGGTGCAGCAACTTCAGATGGAACGCCAGGGCGTCACGCCGCAGGGCAAGGCAATCACGCCGGATCAACAGCGTATTCAGGAACTCGAGGCGCGTATCGAACGCCTCGAGCGTGAGAAGGCCATTTTAAAAAAGGCTACCGCGCTCTTGATGTCGGAAGGCATCGAACGTACGAAGTAATTGATCAGATTGGCGCAAGCGAATCGGTCGAGCTGATCTGCGCGGTATTCGACGTGTCGCGGTCCTGCCTGTATGCACACCGAGGGCGAGCCCGACGCGTTGATACCGAGCGCATGGTACTGCGTAGCCGGGTACACGAGCTGTTCATCGAGAGTCGAAGCTCTGCTGGCAGTCGCAGCATCATGGGCATGATGCGCGAGGAAGGTACGGCGATTGGACGCTTCAAGGTCAGCCGCTTGATGGAAGAACTCGGGTTGATCTGCAAGCAGCCGGGTCGCCATGCCTACAAGCAGGCCACGGTCGAGCGGATCGATATCCCGAACCATCTCAATCGCGAATTCGAGGTTGGTACGCCGAATCAGGTGTGGTGTGGTGTGGTGACATCACGTATGTCTGGGCGCAGGGACGTTGGCATTATCTGGCCGTAGTACTCGACCTGTTCACGCGTCGGGTTGTTGGCTGGGCGTTCTCGACACGCCCTGATGCCGATCTGGTCGTGCAGGCGTTGGAGATGGCCTATGAGCAACGTGGTCGACCGCAAGGCTTGCTGTTTCACTCGGATCAAGGCGGCCAAGGCGCATTCAACCGGTCGTCGCAACACGAGATTGTTGAGCAGATTTTAGATGCTCGTTCAAAGCTTCTGCCGGTGTCTTCCATCCAAGCGTCTTTCGAGGCCTAGTATTCAGTGTATGCGCAACGGCTTGGATCTCTTGTGCGCTCCATCGGGATAGGTCTGTGCCCTTTGGAAAGTATTGTCGCAATAGACCGTTCGTATTCTCGTTTGTGCCACGCTGCCATGGACTGTGCGGGTCGGCGAAAAATACTTGTACGCCGGACTCGACAGTAAAGCGAGCATGATCGGACAGCTCCTTGCCGCGATCCCAAGTCAATGATCGCCACAGCCGGGCCGGCATATCTGTCACCGTCTTCTTGAGCGCATTGGCCATCGTGACAGCTCCGTAGCCAGCCAGCGCAGGGCCGTTCTTTGTCCGGGGAATCAATCCGTAACCTTTCTCCCGAGGCAAGTGTACGAGCATGGTGAAACGGGATGATCTCTCCACCAGCGTGCCAATAGCAGATCGATTTAGGCCAATGAGCAAGTCGCCTTCCCAATGGCCCGGCACAGCACGATCTTCCACCTCTGCGGGGCGACTGGAGATCATCACATCCTCGCTGACGTGTGCCCATGCTTTGGCTCGCGCCCTGGCCCTTGGCACGCGCAACGCGCGTCCGGTGCGCAGACAACCCACAAGCTCGCGCTTGAGCGCGCCACGTCCTTGAATGTAAAGAGCTTGGTAAATGGCTTCGTGAGAAATGCGCATGGATTCATCATCAGGGAAATCGATCCGTAGGCGGTTGGCGATCTGTTCCGGCGACCAACCATTGACCCACTTTCGGTCTCCGCGATGCGGTTTATTCCGCCCCTTGAACGGTGCCTGCTGGGGTCCGGCAATCTTACGGCCATCAGCGTCACACACCTTGCCTTCCAAGCGCTCCTGCACATAATGATGCAGTCGCTGGTTAGTCGCCAGTTTCGCTGGTTTGGGTCGCTTGGCAAAGTGCTCTGCCTTCCATTGTGCGACCGAAGCACGATACTCGAGGCGGCCACCACGGGTCGCTGCGTTACGCGTAAGTTCGCGCGAAATGGTTGACGGGCTACGTCCGATTCGGCGAGCAATCTCGCGCACCCCTATGTTTTGGGCCGAGAGCAACCCGATCTCTTCACGCTCGGCGAACGACAAGTACCTACCAGATATAGGTTTCGACATGAAAAGTGGCATACCGCCACGATAACGGAACCAGCGCGAGCCCACCGCGGAGGACACGCCAACCGCCTCTGCGGCTCTCTCACTCGTAACACCGGTGGCGATCTGCTTCCAAAATCGACGCTCAATCTCATGCCGAAGCGACGGCGCACCTGGCGAGTGCATCGCTCCTCGACCGGTTATCTGATACACCCATTCTGCAATTCGACCCATGCAACACCTCCTCGATTAAAGGTGTTGCGACGACCGGTTGAATGCGCCCAATATGCAAGCCGGAAATTCCGTCAGCGCCTCTGGCGCTATCGGATACAGCAGAGCATGAGCCGTCGAGGAAATTGTTGGGATAACTCCCCGATGGAGAGGCTGTTCCGCAGCTTCAAGACCGAATGGCTACCGTCAGTGGGCTACATGTCGGCGCAGGAGGCACACCGGGACATCAGCCACTACCTGATGCACCGGTACAACTGGATACGGCCGCATCAGTTCAATGACGGACTGGCGCCGGCGGTTGCGGAAGAAAAACTTAACGCAGTGTCCGGGATTAGTTGACCACTACACACTACCTCGTCAATTCATCAATGTCCGGCGCAGAAATTTCCTTCCTGCTGGGTTTCGAAGATCCCAACTCCTTCGCGCGGGCATTTCAGGCATGGACCGGAAAAACCCCGCAAGCGGTGCGCTCGGCGCTCAGGCAAGACGGCCCCTGAATCCCTTCGCATGAGGTGCCTGGGTTCTGGCACTTGTCGCTGCTGGCGTCCACGTCGCTGTCACGGACTACCGAGCGGATGTCAGCGTTTCCCCTCTCGAATCAGCAGCTTAGCACCAGACTCGGCGGAATTTGCGAATCCCGAACGCCCCTCGTATATGACCGGCCCGTAACCGACCTCGCCGCCGAGCTTTTCAGAGACAGGAAGTGACGACAAAAGGGTGAACGCTTTCTAGAACGTGTGCCGAATGCCGACGGCAAAGGTGTTGCCGATGGGATGATCGCTCAGCTTGTCGATAGAGTAAATTGCGTAAATGTCCGTCCGCTTGGACAGCAGATGGTCGTAACCGAGTGCGGCAGTATTGCGAAGGCTGTTGGTCGTATGCGTAGGACCGGACCGTTGCGTACGCGCCCACTCAGCAAGCAGGAAATCGGCCGGTGTGAACGGGATCGAAAAACCCGCCTCGTACGTGTGGCTGCCTGTCGGCGTACTCACGTCACTTGTCATCGCCCACGCGCCATAAAGTGTCACGAGCTTGAAGTCATAGGCCGCGCCCGCGAGGTAGGCGTATTGTGCGCCCACTGGCCCCGCTGCGGTGTAGCGTACGCGCTGGCCGGACACCACTGCCGTGAGACCGTGACCTTGATAATTCAAATGCGCGCCGAGATTGCCGACGCCGGGCGACCCCGCAACGCCACCCAGGCCATAGATCACGGTTGCGCCGAAACCTTTGAAGTCCGGTGTTGTGTACTTGGCGGTGTTGTTCCACACCGTATCGCCAATGATCGTGCCACCATAGTTGGTCACGAACGTCTGGAGGACGAGAGGCGAAAAGACAGTCGACGAACTGAACGGGTTGATGAGGGATTCGGCCGTATAGGTCGGATTTCTTTGGCGCCCGAAGGTCAACTGACCGAAGTCGCCTTGAAAGCCCACGTACGCATTGCGTGAAAAGAACGGGTCTGTGGCATTGCGGCCCTGCGCGCCGTTTTGAGGCTGGAAGAAGCTCTCCAGAGCGAAGATGGCGCTGACACCGCCGCCCAGATCTTCCTTGCCGCGGATTCCCCAGAATGATGTGGTCAATCCGCCGCTGCCTATGAGTACCGTGGATTGAGGCGTATCGCTACGTTTGACACTGCCGACATAGGTGCCGACGATCCCATACAGCTGGACTTGCGAACCACTATCTGCGCGGGCGCCGACAGAGGTCAATGCGAGGCCGGCGCTGAGCATCGCTGCTACGCCAAGTGTGCCAGCGACTTTCCGCATCGAAGCGCGGGCCATGACCCGTTGTGCCTTTTTCATTTCCGTTGTCTCCATTCGTTTTGTTATATGCGATCTTTGCCGCACGACATCCGATAAGGACTACAAACAGAGTCGTGGAACGTTGTCGCTATCTGTGAACCTGTCGCGCTGAAATTATCGGTGTTTCGAACCAGGACGCTCCTTCCCCTTGACTCACATCAGGAGAAGGAGCGGCAAGGGATGCGAGCGGTTACGGGGAGATCTCTTCGAGAGCGCGATTGGTGGTCTCCACCATTCGCGAAGCTACAAAGAAACCCACAGCGCTGACCACCGCAAAAAGGATGAATACCGCCGCGATGCCCTTCCCTGTCAATACGACGCCCACGATCGCAGGCGCGGCAGCAGAAGCGGCCCGCAGCCAGGACGTCGCGAGGCCAGTACCAATCGCGCGCATCCGGGTCGGATAGATTTCAGGTGTGTACAGGTACAGCAGTACGGTTGTGGTTGCCATCACTGCGTATGCGGAAGATCCCAAGAACATCACTGACCAGGCACTACCTGCTCCATGAATACCCAGAGCGGCGAGCAGGATCCCGCTGATGATGAAGCAGGCCATTGCCCAGCGGCGGCGCCCGACACGATCGATCAGCAACGCGCAGGCAAGCACCCCGCACGTACTCAGGACGTTCGAGATGGACGCCATGTGAAGCGACTCTTGCAGCGGCAGATGGTAGACCGTCTTGTAGAGGCTGGGCAGCCAGTTGTTGATGCCGTTCGCGACAAAATATGAGGTCGCCCAAAGTAACCACACTACGATGGTGCGCCCGCGGTAGAACGGCGAAAAAAGTTCCTTCCACGATCCCGTCTGCTTCGACTGCAGGCCGTTCAGCAGGCCGACCACGCGCTCATCAACTTCGGCCTTCTGCGTTTTCGTATCAAGGTTTCGCTTGGGCGTGCTGGCCTCCAGTCGCTCGATGATTCCTTCCGCCTTATCGAAGCGCCCCTTTGAAATGAGCCAGCGCGGCGATTCCGGGAGTCGTGCGATCAGGAAGGCGACAATTATGCCCGGGATGCCCCCCACGAGGAACATGTACTCCCAACCGAAGCGGGGGACGATGAACGCCCCCAGTTGCGCGGCTGCGAGCAAACCCAGCGGGAAAATGAGTTCGTACAAAATAAAGAAACGTCCCCGGCCGTGCGCTTGCGACAGCTCGTTGATGTACGTGGCCGCGACGGGCACTTCTCCTCCCACGCCGATGCCTTGCAGAAAGCGCATTAGGAACAGCATATGGAAGCTGCCGGTGAATGCGCAGACGATGCTCATGGCCGACATCACGCCCACAGTCACCGTCGCACTCGGTACGCGACCGATGCGCTCAGCGAGCCAGCCGAACACCAACGCGCCTACGACCTGGCCGAGATAGCCGGCGGCGATCAGCACGCCGATCTGGCCGGCCGAGAGATGCCAGAGGCCAATCAATACGGGCAGTACGAAGGCAAGCGATAGGGCGTCGAATGCGTCAAAGAGGGTCGCGCTGCCCATGATGATACGGGCCTTGGTGTG Predicted Gene Sequences: >PredictedProphage1 -Hit 1 CAACGACGTACGTTTTCCCCGGAGTTCAAACAGCAAGCCGCCTGTCTGGTGCTCGACCAGGGTTATAGCCATATGGAAGCAAGCCGCTCGGTCGGCGTCGGCGAGACGGTGCTGCGCCGCTGGGTGCAGCAACTTCAGATGGAACGCCAGGGCGTCACGCCGCAGGGCAAGGCAATCACGCCGGATCAACAGCGTATTCAGGAACTCGAGGCGCGTATCGAACGCCTCGAGCGTGAGAAGGCCATTTTAAAAAAGGCTACCGCGCTCTTGATGTCGGAAGGCATCGAACGTACGAAG >PredictedProphage1 -Hit 2 AAAAAAGGCTACCGCGCTCTTGATGTCGGAAGGCATCGAACGTACGAAGTAATTGATCAGATTGGCGCAAGCGAATCGGTCGAGCTGATCTGCGCGGTATTCGACGTGTCGCGGTCCTGCCTGTATGCACACCGAGGGCGAGCCCGACGCGTTGATACCGAGCGCATGGTACTGCGTAGCCGGGTACACGAGCTGTTCATCGAGAGTCGAAGCTCTGCTGGCAGTCGCAGCATCATGGGCATGATGCGCGAGGAAGGTACGGCGATTGGACGCTTCAAGGTCAGCCGCTTGATGGAAGAACTCGGGTTGATCTGCAAGCAGCCGGGTCGCCATGCCTACAAGCAGGCCACGGTCGAGCGGATCGATATCCCGAACCATCTCAATCGCGAATTCGAGGTTGGTACGCCGAATCAGGTGTGGTGTGGTGTGGTGACATCACGTATGTCTGGGCGCAGG >PredictedProphage1 -Hit 3 GAATCAGGTGTGGTGTGGTGTGGTGACATCACGTATGTCTGGGCGCAGGGACGTTGGCATTATCTGGCCGTAGTACTCGACCTGTTCACGCGTCGGGTTGTTGGCTGGGCGTTCTCGACACGCCCTGATGCCGATCTGGTCGTGCAGGCGTTGGAGATGGCCTATGAGCAACGTGGTCGACCGCAAGGCTTGCTGTTTCACTCGGATCAAGGC >PredictedProphage1 -Hit 4 GCCCAATATGCAAGCCGGAAATTCCGTCAGCGCCTCTGGCGCTATCGGATACAGCAGAGCATGAGCCGTCGAGGAAATTGTTGGGATAACTCCCCGATGGAGAGGCTGTTCCGCAGCTTCAAGACCGAATGGCTACCGTCAGTGGGCTACATGTCGGCGCAGGAGGCACACCGGGACATCAGCCACTACCTGATGCACCGGTACAACTGGATACGGCCGCATCAGTTCAATGACGGACTGGCGCCGGCGGTTGCGGAAGAAAAA >PredictedProphage1 -Hit 5 CACACCAAGGCCCGTATCATCATGGGCAGCGCGACCCTCTTTGACGCATTCGACGCCCTATCGCTTGCCTTCGTACTGCCCGTATTGATTGGCCTCTGGCATCTCTCGGCCGGCCAGATCGGCGTGCTGATCGCCGCCGGCTATCTCGGCCAGGTCGTAGGCGCGTTGGTGTTCGGCTGGCTCGCTGAGCGCATCGGTCGCGTACCGAGTGCGACGGTGACTGTGGGCGTGATGTCGGCCATGAGCATCGTCTGCGCATTCACCGGCAGCTTCCATATGCTGTTCCTAATGCGCTTTCTGCAAGGCATCGGCGTGGGAGGAGAAGTGCCCGTCGCGGCCACGTACATCAACGAGCTGTCGCAAGCGCACGGCCGGGGACGTTTCTTTATTTTGTACGAACTCATTTTCCCGCTGGGTTTGCTCGCAGCCGCGCAACTGGGGGCGTTCATCGTCCCCCGCTTCGGTTGGGAGTACATGTTCCTCGTGGGGGGCATCCCGGGCATAATTGTCGCCTTCCTGATCGCACGACTC Predicted Protein Sequences: >PredictedProphage1 -Hit 1 QRRTFSPEFKQQAACLVLDQGYSHMEASRSVGVGETVLRRWVQQLQMERQGVTPQGKAITPDQQRIQELEARIERLEREKAILKKATALLMSEGIERTK >PredictedProphage1 -Hit 2 KKGYRALDVGRHRTYEVIDQIGASESVELICAVFDVSRSCLYAHRGRARRVDTERMVLRSRVHELFIESRSSAGSRSIMGMMREEGTAIGRFKVSRLMEELGLICKQPGRHAYKQATVERIDIPNHLNREFEVGTPNQVWCGVVTSRMSGRR >PredictedProphage1 -Hit 3 ESGVVWCGDITYVWAQGRWHYLAVVLDLFTRRVVGWAFSTRPDADLVVQALEMAYEQRGRPQGLLFHSDQG >PredictedProphage1 -Hit 4 AQYASRKFRQRLWRYRIQQSMSRRGNCWDNSPMERLFRSFKTEWLPSVGYMSAQEAHRDISHYLMHRYNWIRPHQFNDGLAPAVAEEK >PredictedProphage1 -Hit 5 HTKARIIMGSATLFDAFDALSLAFVLPVLIGLWHLSAGQIGVLIAAGYLGQVVGALVFGWLAERIGRVPSATVTVGVMSAMSIVCAFTGSFHMLFLMRFLQGIGVGGEVPVAATYINELSQAHGRGRFFILYELIFPLGLLAAAQLGAFIVPRFGWEYMFLVGGIPGIIVAFLIARL Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig356 Genome size: 80674 Host's GC content: 66.98 Predicted Codon Position GC: 1st: 68.09 2nd: 44.78 3rd: 81.02 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig357 Genome size: 96694 Host's GC content: 66.39 Predicted Codon Position GC: 1st: 67.73 2nd: 44.62 3rd: 80.03 >PredictedProphage1 Length: 6349 Number of hits = 5 GC Coding First Second Third 55.74 58.16 56.82 50.52 67.13 Codon Usage: AA Codon Total Percent Leu TTG 7 0.159090909090909 Leu TTA 0 0 Leu CTG 13 0.295454545454545 Leu CTA 2 0.0454545454545455 Leu CTT 8 0.181818181818182 Leu CTC 14 0.318181818181818 Lys AAG 9 0.9 Lys AAA 1 0.1 Glu GAG 13 0.619047619047619 Glu GAA 8 0.380952380952381 Gln CAG 12 0.631578947368421 Gln CAA 7 0.368421052631579 End TGA 0 0 End TAG 1 1 End TAA 0 0 His CAT 5 0.333333333333333 His CAC 10 0.666666666666667 Asn AAT 17 0.435897435897436 Asn AAC 22 0.564102564102564 Ser AGT 7 0.159090909090909 Ser AGC 10 0.227272727272727 Ser TCG 12 0.272727272727273 Ser TCA 6 0.136363636363636 Ser TCT 1 0.0227272727272727 Ser TCC 8 0.181818181818182 Trp TGG 9 1 Arg AGG 4 0.133333333333333 Arg AGA 4 0.133333333333333 Arg CGG 5 0.166666666666667 Arg CGA 3 0.1 Arg CGT 4 0.133333333333333 Arg CGC 10 0.333333333333333 Ala GCG 23 0.359375 Ala GCA 15 0.234375 Ala GCT 9 0.140625 Ala GCC 17 0.265625 Cys TGT 1 0.111111111111111 Cys TGC 8 0.888888888888889 Asp GAT 11 0.478260869565217 Asp GAC 12 0.521739130434783 Gly GGG 13 0.228070175438596 Gly GGA 8 0.140350877192982 Gly GGT 14 0.245614035087719 Gly GGC 22 0.385964912280702 Phe TTT 4 0.173913043478261 Phe TTC 19 0.826086956521739 Tyr TAT 8 0.615384615384615 Tyr TAC 5 0.384615384615385 Met ATG 7 1 Val GTG 11 0.25 Val GTA 7 0.159090909090909 Val GTT 9 0.204545454545455 Val GTC 17 0.386363636363636 Thr ACG 23 0.433962264150943 Thr ACA 5 0.0943396226415094 Thr ACT 9 0.169811320754717 Thr ACC 16 0.30188679245283 Pro CCG 16 0.695652173913043 Pro CCA 1 0.0434782608695652 Pro CCT 3 0.130434782608696 Pro CCC 3 0.130434782608696 Ile ATA 4 0.166666666666667 Ile ATT 7 0.291666666666667 Ile ATC 13 0.541666666666667 Left Right Strand Best Blast Hit Score Evalue 17923 18204 -1 ref|YP_164271.1|hypothetical protein 58.5bits(140) 1e-07 20265 20645 1 ref|YP_195210.1|virion structural protein 38.1bits(87) 0.15 21034 21147 -1 ref|NP_944262.1|hypothetical protein 47.8bits(112) 2e-04 21272 21628 -1 ref|NP_490641.1|hypothetical protein 130bits(328) 2e-29 23690 24271 1 ref|NP_944360.1|gp51 107bits(268) 2e-22 DNA sequence: CGGGGTGATCCTTCTGAATTCGACGACCCACAGGAGCGGGTTCGTGTCCCCCCCGCCGTGGCCGGCTTCGGCGTTGATGCCGCCCCAGAGCGACGCGAACGAGTCGCGCGCCCGAGCTGCGGGGAAGTGGCGGCTGCCGTCGACGCTGAAGCCGTCGGATGTCCGCTCAATTCCTTCGGAGATCGCATTTACGTCGCTGATCGATTGAAGGCGCTCCACGCACACGCCAGGCACTTCGAACAGCGTGCGCGCGGCGGTGCTCGGCATGAAGATCGACGGGCGACGCCACCACGCCGGCAGCACACCGTCGCGTTTGGCGTTTGGCACCGCGCCGTCGAAGCGGTACTCGCGGCCGGTTTCCAACATTTCGATCGCGGCAAGTGCAACTTGTGCCGTCAGCGCATCAGCGCGGCTCTTATCGGTGGTCATGGTGATCTTCAGGAAATCGGTGGACGCACCTATTTTTCACAGTGCGACGTAGCAGAAAGCTCGCTAATGGAGCTTCGATGCTCGGGGGTAAATGGATTAAAGACCTGTCTTTCTTAACAATTACCTTACGGAATTCCTCAAATCAGAAAGGCACATCCTTGTGCTATTCTGCCGCTGCAACAAACTGTAACGATCACGAATCCAACATGGATTTATCTAAAACCATTACCTAGGGGTTGCTATGAGGTTTGTTACGTCGTTGATTGTTTGCTTGGTAGCTTTAATGCCGATACTTTCGAGCGCGAAGATCCTTGGCTCAAATGAAACGTTGTCGGCTGGAAATGTTGTCTACTCGGATAACGGCCAGTATCACCTTGCGATGCAAACGGACGGGAACTTGGTCGTCTATGGACCGACGGGCGCAGTATGGCAATCGCAGACATCGGGATCTGGCGGCAACAGGGCGGTAATGCAGGGCGACGGAAATCTTGTCATTTATCGTGCCGACAACACGGCTGCATGGTCGTCCAAAACGGCGCATCCGGGCGCGTTCCTCGCAGTGCAGGATGACGGGAACGTGGTGATCTACTGGCCCCGTCCGGCCTGGGCAAGTAATACCAGTGATCCCGCGACCCAACAATCGGCCGAGAGCAAATATCTAGCTTCGGGCTCCACGATGTCGGCTGGTCAAACTGTCACTGTCGCCCAATACATGCTCGTGTTTCAGGCGGACGGCAACCTCGTTCTTTATAAGAATGGCGGTAATCCGATTTGGTCGACTGGCACTCAGGGAAAAGGTGCTACGTATGCTGTTATGCAGAGCGACGGAAATTTTGTAATTTATGCAGGATCGACGGCTCTTTGGTCGACTAAGACTAACGGAGCCAATGGAGCGCAACTCGTTTTACAATCGGATGGCAACCTGGTGATTTACGCGCCGACAGCGGCATGGAGTACAAAGTTTGGCCTGGTTACGGCTCCGACATCGACGTCGACATCGAATAACGGGCCGGGCAGCGGTATCTGTGTCGGTGTTTGCCCGCCGCACCCCCTCAACGGAAATCCTTTTTCGCCCGTCGGCGTTGGTACAACCGGCCTCGGGTTCCCGACACCGGGTTATCCGGGTGCCGCCTTCTGACTTTGCTGACCAAACCCTTCAGTCGACCTGACTGAGAGCGGAACAAAAGTGCCGTCAGAGTTCGTTAATGGTTGCCTCGGGCGAGGCGTAATTTCGAACTCGTCTCATTGCCGCCGCCGGCATCCAGCTCGCCAATGCTTTCGGCGGCCGGGACAACCCCTGTAAAGGTACTGTCCATTCCCGGTCGCTGAGCTGTTGCCCCGCTCGCCTGTACGGAAGCGGGGCCCTTATCTTGGCTAAGGTTCTCGGCGGGCGTGCCGTTATCTGCTGAGGACAGTCCTCGTGCCTCGATTGCTGTTCCGTTTTTTTTGCCCGCTCGCGTTCCACATACACGGGTTTTTTTCGTTTCGGGTGCTCATGATTCGAATCGCAGCTGATAAGGATGCCTGTGGGCGATAGGGCATCTAATATATAAACAATGGTTTTAATTGTTGTAAATTATAAAAGAAAGTTTTGTAATAATTTCACTTAATTGGTTTCGCTGTAATATTCTTTTAAGTGTGGTAATCTCGCTATGCGTCTGGCTCGATGCAAATAAAGCGAAACATACATTTACGAGAGGAAATCAGTGAAAAAGGGGATTGTTGTATTTTTCGGAATGCTAATGCTGTATATGTCATCGGCAATTGCAACGGTGATTCCTTCTGGGGCCACCCTAAATCTAGGTGCGCAGGTTTGTTCTGAAAATGGCCAGTACTGCCTCGACATGCAAGCGTCCGATGGCAACCTGGTGTTGTATGGTCCGAGCGGCGTAGTCTGGTCCGCACAGGTTGCGGGGAAGGGTGTTACGCGAGCAGTCGTGCAGCCGGACGGAAATTTCGTTCTGTACACTTCAGCCAATGTACCTGTGCTCTATTTCAATACCCAGCACCCGGGTGCATATCTGAATGTTCAAAATGACGGCAATCTCGCTCTTTATTGGGATCGTCCGGTATGGCAAAGTCATACCAGCGATACCGGTTCTATTCAGACAAATCAGGGACGTATACTACACACCAATAACAGAATCCTCGTCGGCACGAGCTACACGGTCGGTCAGTATTTCTTGATTTTGCAAGCTGATGGTAATTTCGTTCTTTACAAGAACGGGGGTGCAATTTGGAATTCAGGAACCCCGGGCAGAGGTGTTACTGCAGCTTGGATGCAGAACGATGGGAATTTCACGCTGACCAACGACGCGGGCACTGCGATTTGGCAAACGAACACGGAAGTGAATTCCAATAATTACTTTGCGTTCCAGCCTGATGGAAACCTTGTTGTCTATGCGCCGACTGTAAGCTGGGATCGTCTTGCTCACTTCAATCACCCGGACTATCTTGATCACGGTGGTGGCAACTACTGCTTTGCTTGTACGGCGAAGCCAATCTCAATTCCGTTCTAAGGATCTGCTATTCGTACGTTGAGCCGATGGCGTGAAGATAAAGGTCCTCCGAGCGAGGGCCTTCTCGTATTGAAGCGTGGCAGCCCAAAAGAACAGGTGTGAGCCTGGGTGGTCATGCGAAAAGGTCACCCTGCTCCTTCCGCTCGACTCCGCAAGGTGGGTGGCAGAAATGGACGTCAGTCCCGATCTAATGCGCATGCGCGGCGCACAGGTGCCGATCGCAAGTCTTACCCGGCTTCGTCTGGAAATCGCAGTGGAAGCCACTCAGCACGTTGCAGCCATCGACCGAGCAGCGATGCTCGTGCTTGCGACCTCGCGTGCAGATGATTCCGGACATGCGGCCGGGAAGGCGAAAGGGGTGCAGGGCATCAGGTGCCTCCGTCTTAGAAGGTCTGCGGTACGACGGTCAGTGCGGTGGCGATAGGGCGCATCGAGACCGGTGTCGATGAAAGCTGCAACGTTTCGCCGGATTCAACGAGCAGCAGCGTGGTGCCCATTGCCTCGGCTATCTCCTGCGCGGCGTCGGGCGGCACGACGTTGCCGATACGCTCGCGCCATGCCTGGTCGGGCACCCCGTCGAGCTCGAGGTACTCCTCCGGCTCGACAAGCGATTGCAGTACCGCCAGCTCGAGCGTGGTGAACGGCCGGCGCCACGTACTATCGAGCGCGCGTATCACGGCGCCGGTCTTCTCGTTCGCCGCGAGCAACCGTCTATACCTGATCGACCTGGTGCGCGGGAAGTGGAAGGCGCCGCAACTGAAGCGGCACGGAATCGACTTCTGAACAAGCACAACGCGATCGGCGCCGGCGACCTTGGTGCGCCGATGCTTCGCCAGATGAAGGTCGAGGATACGCGGAACCGTCGACTAGGTAGGGCATCAGCCAATGCGACGTACGCATATCCCGGCTGAAGTGGTTGTATAGCCGGCCAACCTCAATTTGAGATGAGGGTTATTGCTATATGGCGGTGCGTCGACATGAAAATCGAGCGCGTGTGCGTGTGGTGCCGGCGCGAACGTCTCAACCTCGTATCCTCGGTCGCGCAATCGCGTGACGAGTTCTTCCATATCGCGTTTTCGATAAATCACGGTCCCACCTTCGCGGGAAGTGTCGTCGTTCGACGAAAGATTGTATTCCGTCGTGTGAACCGCAACCCCACCGGGCTTCAGTGTGTCCATGCTGTTGATGACGAACTGCAGTCCGGCCTCCAGATTGCCAAGGTGCTCGAAGCAGCAGGACGACCAGTTGAAATCAAAATCGCGGAGCGACGGGGCAATGGCGTTCATGTCGCAATACTGATGCGTCACTGACCGATCGAAGATTTTATCGGCCACAATGGCCGGGAACCGTAGCTCGTCGAGAGCACTGCTATGTTGTCCGGTTTGGGACCATCCGCTAGATTGTCCGATTTCCGGCGGCGCATCAGTGGCGACGATCGAGCATCCCAGCTTCGCGAAAAGCGCCGGCAACCGCTCCTGACCCACGCCGAAACCAAGTCCGCGCCTGCCTGGTTTGAGCATGCCTAGCCGATTCAGATGATGGATGATGTATGTCCATTCCCAAAATTTTCGCTGGTACATCGGAGGGAGGCCGAGCATCGCGCAAATTCGGGCATGCTCCGGGTGAAGCATATCGGCTGCGCTGCACGTCGAATACTGCATGAACGGCGCTTGATCGTCGAAGACCGGGTCGGATGGAACGAAGATTCGTTGCCCGATCGCATGGGCAATGCGCTTGTCCAGATCGAAATGTTCGCTTTCGCACCCGCGCTCGAGGTACAGGGATTCGACCATTTTTTGTAGGCCAACGATCACCTGCTTAAGCCGTTCAATTTCTGCTCGGTCACGTTCGATACGTCCATCGATCGCGGCATTGATACGGAACTGCATCCGCTTCCAGATCGGCCTGCCGATTACCTTCAACGCCGCCTTCACCATTCCGGTCTCCATCGATGTGGTGCGGGGATGTTGACGATCTTACGTTAAGTAAGAACTATCAACAATCGACCGTCGCTATGATGGTCCTTCATTTTCGGGAGATGAAGGACCGGCCGCGCACCGGCACGCGCGCATCGAGGAGCGATTGCGCGCCGAAGCGCGACCCTTTTCGAAGCTGGAATTCGACTGGTGCGCGTCCGGCCGTCACAATCGCGCGAAGTGCCGTTTTTCGTGTTCGATGCATACTGTGCGGGCATCGACGTCAGAGCGTTGGAAGTGCTCGCGATCATCGCTCATGGCCTGCTCGAATACACGTTCGTCCTCGACATTTCACTTCCACGCTGATTGCCCCCCATGAAGAGCATCCGTATCTGTTTGTTCGCTGCGCTCGTTTCGACGACCGCATTGTCCTCACATGCCCAGTTGGCGACTGGTCAATCGCAGTCGACTTCTCAGCCCGGTGCGAAGCTTTCCTCGACAACCCCCAATGCGACGCCCGCCGTTGCATCGTTCGGCAATCAACTTACTTGGCTTAACTCGTTGATCCCCTGTACCACAGCCTGCGCCCAAACGTGGTCGCAATCGGCTGGGGGCGGAATGGGTTTGCTGGGGGCAACGCGCACCTCGGATAATTCGTTGACCGGGTCGATGGCTGCTCAGGGCGTTGCCGGCTATGCGATCAATGACAATACGAAACACGTTCAGACCGCCTACGCCACCTATTCCGAAGTGCGGAGAAAGCCGGGGGCCGGGACGACGCAAGGTCATGAAATCGACGTCGTTAATCAGGGTTCCGTAGTCGGCGTTGATCCGTACAACATGTTCCGGATTGGCATTACGCCGGGGCTTTGGCTGTCATCGGGGCGTCCGGATGTGAAGACCGGTGCAGCCAACGCGAGCACTGCCGTCGGAATCGTAAACAACAACACTGCTTTCGAAAACGGGATCGTGTTTCACAGTAATGCCTTGAACACGACGACCGGCGAAGGTAACGCAATCGCGCTGCCACGAAAAGATGCTGTCGTATGGTTCGGTAGCGCAGGGAACAAGGTTGCGGCAATTCGAAGCGATGCGACGACTGCGTCACTTCGTGCGATATTTGCGAATGGCCTTCTTGCGCTACAGAATCTCTCCGGTGTTAACGAGCACACGTTTTCGGATGCCGGGAACTATTCCGCAAAGGGAAATATTTCAGCCGCCGGGACGGGCTCAATGCCGCTGTATAGCACAACCGGAAACGGCATGAATGCTCCGCACATGGTGCAAGGGTCGGTCGCGTTGGCGTCCGGTCATGCTACGGTCAAGCTCACGGGTTTGGCTGTCTACACGTCCGCGTCGAGTTATACATGCACGGCCAACGACACGACGGAGGCAAACGCAGTAAAGGTCAGTCAAGATTCCGGGACTTCGATTACTTTCACGGGAACCGGCACGAACAGGGTTCAGTTTCTCTGTGCGGGCAAT Predicted Gene Sequences: >PredictedProphage1 -Hit 1 CGCCCGTCGATCTTCATGCCGAGCACCGCCGCGCGCACGCTGTTCGAAGTGCCTGGCGTGTGCGTGGAGCGCCTTCAATCGATCAGCGACGTAAATGCGATCTCCGAAGGAATTGAGCGGACATCCGACGGCTTCAGCGTCGACGGCAGCCGCCACTTCCCCGCAGCTCGGGCGCGCGACTCGTTCGCGTCGCTCTGGGGCGGCATCAACGCCGAAGCCGGCCACGGCGGGGGGGACACGAACCCGCTCCTGTGGGTCGTCGAATTCAGAAGGATCACCCCG >PredictedProphage1 -Hit 2 GGGAAGGGTGTTACGCGAGCAGTCGTGCAGCCGGACGGAAATTTCGTTCTGTACACTTCAGCCAATGTACCTGTGCTCTATTTCAATACCCAGCACCCGGGTGCATATCTGAATGTTCAAAATGACGGCAATCTCGCTCTTTATTGGGATCGTCCGGTATGGCAAAGTCATACCAGCGATACCGGTTCTATTCAGACAAATCAGGGACGTATACTACACACCAATAACAGAATCCTCGTCGGCACGAGCTACACGGTCGGTCAGTATTTCTTGATTTTGCAAGCTGATGGTAATTTCGTTCTTTACAAGAACGGGGGTGCAATTTGGAATTCAGGAACCCCGGGCAGAGGTGTTACTGCAGCTTGGATGCAGAACGATGGG >PredictedProphage1 -Hit 3 TGCAACGTGCTGAGTGGCTTCCACTGCGATTTCCAGACGAAGCCGGGTAAGACTTGCGATCGGCACCTGTGCGCCGCGCATGCGCATTAGATCGGGACTGACGTCCATTTCTGC >PredictedProphage1 -Hit 4 AGTTGCGGCGCCTTCCACTTCCCGCGCACCAGGTCGATCAGGTATAGACGGTTGCTCGCGGCGAACGAGAAGACCGGCGCCGTGATACGCGCGCTCGATAGTACGTGGCGCCGGCCGTTCACCACGCTCGAGCTGGCGGTACTGCAATCGCTTGTCGAGCCGGAGGAGTACCTCGAGCTCGACGGGGTGCCCGACCAGGCATGGCGCGAGCGTATCGGCAACGTCGTGCCGCCCGACGCCGCGCAGGAGATAGCCGAGGCAATGGGCACCACGCTGCTGCTCGTTGAATCCGGCGAAACGTTGCAGCTTTCATCGACACCGGTCTCGATGCGCCCTATCGCCACCGCACTGACCGTC >PredictedProphage1 -Hit 5 GGTGCAGCCAACGCGAGCACTGCCGTCGGAATCGTAAACAACAACACTGCTTTCGAAAACGGGATCGTGTTTCACAGTAATGCCTTGAACACGACGACCGGCGAAGGTAACGCAATCGCGCTGCCACGAAAAGATGCTGTCGTATGGTTCGGTAGCGCAGGGAACAAGGTTGCGGCAATTCGAAGCGATGCGACGACTGCGTCACTTCGTGCGATATTTGCGAATGGCCTTCTTGCGCTACAGAATCTCTCCGGTGTTAACGAGCACACGTTTTCGGATGCCGGGAACTATTCCGCAAAGGGAAATATTTCAGCCGCCGGGACGGGCTCAATGCCGCTGTATAGCACAACCGGAAACGGCATGAATGCTCCGCACATGGTGCAAGGGTCGGTCGCGTTGGCGTCCGGTCATGCTACGGTCAAGCTCACGGGTTTGGCTGTCTACACGTCCGCGTCGAGTTATACATGCACGGCCAACGACACGACGGAGGCAAACGCAGTAAAGGTCAGTCAAGATTCCGGGACTTCGATTACTTTCACGGGAACCGGCACGAACAGGGTTCAGTTTCTCTGTGCGGGCAAT Predicted Protein Sequences: >PredictedProphage1 -Hit 1 RPSIFMPSTAARTLFEVPGVCVERLQSISDVNAISEGIERTSDGFSVDGSRHFPAARARDSFASLWGGINAEAGHGGGDTNPLLWVVEFRRITP >PredictedProphage1 -Hit 2 GKGVTRAVVQPDGNFVLYTSANVPVLYFNTQHPGAYLNVQNDGNLALYWDRPVWQSHTSDTGSIQTNQGRILHTNNRILVGTSYTVGQYFLILQADGNFVLYKNGGAIWNSGTPGRGVTAAWMQNDG >PredictedProphage1 -Hit 3 CNVLSGFHCDFQTKPGKTCDRHLCAAHAH_IGTDVHFC >PredictedProphage1 -Hit 4 SCGAFHFPRTRSIRYRRLLAANEKTGAVIRALDSTWRRPFTTLELAVLQSLVEPEEYLELDGVPDQAWRERIGNVVPPDAAQEIAEAMGTTLLLVESGETLQLSSTPVSMRPIATALTV >PredictedProphage1 -Hit 5 GAANASTAVGIVNNNTAFENGIVFHSNALNTTTGEGNAIALPRKDAVVWFGSAGNKVAAIRSDATTASLRAIFANGLLALQNLSGVNEHTFSDAGNYSAKGNISAAGTGSMPLYSTTGNGMNAPHMVQGSVALASGHATVKLTGLAVYTSASSYTCTANDTTEANAVKVSQDSGTSITFTGTGTNRVQFLCAGN Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig358 Genome size: 89197 Host's GC content: 67.14 Predicted Codon Position GC: 1st: 68.19 2nd: 44.83 3rd: 81.31 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig359 Genome size: 91141 Host's GC content: 68.19 Predicted Codon Position GC: 1st: 68.84 2nd: 45.11 3rd: 83.08 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig360 Genome size: 81767 Host's GC content: 64.81 Predicted Codon Position GC: 1st: 66.76 2nd: 44.20 3rd: 77.37 >PredictedProphage1 Length: 17145 Number of hits = 6 GC Coding First Second Third 64.15 67.51 72.69 47.03 82.82 Codon Usage: AA Codon Total Percent Leu TTG 14 0.121739130434783 Leu TTA 0 0 Leu CTG 55 0.478260869565217 Leu CTA 0 0 Leu CTT 5 0.0434782608695652 Leu CTC 41 0.356521739130435 Lys AAG 15 0.789473684210526 Lys AAA 4 0.210526315789474 Glu GAG 18 0.327272727272727 Glu GAA 37 0.672727272727273 Gln CAG 31 0.720930232558139 Gln CAA 12 0.27906976744186 End TGA 0 0 End TAG 0 0 End TAA 0 0 His CAT 12 0.6 His CAC 8 0.4 Asn AAT 4 0.222222222222222 Asn AAC 14 0.777777777777778 Ser AGT 1 0.0185185185185185 Ser AGC 19 0.351851851851852 Ser TCG 30 0.555555555555556 Ser TCA 1 0.0185185185185185 Ser TCT 1 0.0185185185185185 Ser TCC 2 0.037037037037037 Trp TGG 8 1 Arg AGG 0 0 Arg AGA 1 0.010752688172043 Arg CGG 14 0.150537634408602 Arg CGA 3 0.032258064516129 Arg CGT 8 0.0860215053763441 Arg CGC 67 0.720430107526882 Ala GCG 67 0.544715447154472 Ala GCA 9 0.0731707317073171 Ala GCT 5 0.040650406504065 Ala GCC 42 0.341463414634146 Cys TGT 1 0.25 Cys TGC 3 0.75 Asp GAT 18 0.3 Asp GAC 42 0.7 Gly GGG 12 0.19047619047619 Gly GGA 3 0.0476190476190476 Gly GGT 7 0.111111111111111 Gly GGC 41 0.650793650793651 Phe TTT 0 0 Phe TTC 17 1 Tyr TAT 6 0.461538461538462 Tyr TAC 7 0.538461538461538 Met ATG 11 1 Val GTG 37 0.513888888888889 Val GTA 2 0.0277777777777778 Val GTT 3 0.0416666666666667 Val GTC 30 0.416666666666667 Thr ACG 32 0.627450980392157 Thr ACA 4 0.0784313725490196 Thr ACT 1 0.0196078431372549 Thr ACC 14 0.274509803921569 Pro CCG 26 0.838709677419355 Pro CCA 1 0.032258064516129 Pro CCT 0 0 Pro CCC 4 0.129032258064516 Ile ATA 0 0 Ile ATT 7 0.184210526315789 Ile ATC 31 0.815789473684211 Left Right Strand Best Blast Hit Score Evalue 2387 2500 1 ref|NP_665964.1|putative plasmid partitioning protein Soj 40.8bits(94) 0.020 7730 8410 1 ref|YP_164086.1|tail length tape measure protein 38.1bits(87) 0.13 10712 10897 -1 ref|NP_690787.1|immunity repressor 51.2bits(121) 1e-05 11716 12015 1 ref|NP_932363.1|hypothetical protein 37.4bits(85) 0.22 16771 17529 1 ref|NP_945089.1|gp58 78.6bits(192) 9e-14 18848 19531 1 ref|NP_945089.1|gp58 65.9bits(159) 6e-10 DNA sequence: ATTGCAGTCACTCAACAAAAAGGTGGCGTCGGCAAAAGCACGATTGCCATGCATCTCGGCGCCGCGTTCCATGAAAAAGGGAAGCGCGTCCTCGTCATCGACGCAGACCGTCAAAACACGCTGGTTCACTGGTCGAGCGCATCCGGCGACAGCGACAACGGCATCCCGTTTCCGGTCGTCAATCTTGCCGAAGCCGACGGCCAGATCCATCGCGAGATCAAGAAGTTCATCAACGACTACGACATCATCGTCGTGGACTGCCCGCCGTCGATCACCGAGAAAGTGTCCGGCGTCGTCCTGCTGGCCGCCTCGATTGCCGTGATCCCGACATCGTCGTCGCCGGCCGATTACTGGTCGAGCGTCGGGCTGGTCAAACTGATTCAGCAGGCGCAGGTGATGAACGAAGACCTCCGCGCGGTCTTCCTGCTGAACAAGACCGAAGAGAAGCGCATGCTGACCCGCGAGCTCAAGCGTGCACTCGAAGAACTCGGCTTCCCGCTGCTGAAGACGCAGATCCCGACTCGGGAAGCGTACAAGCAGGCGATGGCGCTCGGTCAGACCGTGCTGCAAATGAACGATCGCGGCGGCAAGCTGGCCGCCGCCGAAATTCGCGCATGTGCCGACGAAATCGTCGCCATGCTGCCCTGACTTTATGCGCATAAAGGAGTCACATGAAACCCTCCCAATTCGCCAAAGGATTCCAAGCGCGCCCGGATATCACGACGAGCGAGAAGCGCACCGCGCTTGATCGGCTCAATGCGATCGACGGCATCGTCAAGTCCGAGACGCCGACCCCGGTGCCGACCAAATCCGCGAAGAAGGACATCGCACCGCCGCCTGCTCCGGCATTCGCGATCGATCCGTCCATCGACGAATCGCCGCAATACCGCGCGTGGCGCCTCGAGAATCGCTATGCGCCCGGGCAGGTGATCGAACTGCCGCTGAAGGCCATCAAGCACAGCCCGTTCAACCCGCGGCACTTCTATCTGAAATCGTCGATTGCCGAACTCGCGGTCAACCTTGCGAAGCAGGGGCAGCAGCAGGCGATCCACGTGATTCCGGATTACGACAATCCGGGCACGTATTTCGTCAGCGATGGTGGCCGCCGCGTGCGGGCGCTGAAGGAAGCGAACAAGGAGTCGGTCAAGGCGATCGTGATCGACGTGCCGATCGGCATCCAGAGCTACAAGCTCGGCTACGACCTCAACGTTCAGCGCGATTCGCAGACGGTGTTCGACAACGCGGTCGTGTGGCGCCGCTTCCTCGACGACAAGCATTTCCAGAGCCAGAAGGAGCTCTCCGAGCATCTCGGCCTCGACGAGTCGACGGTGGCCGTCGCGCTGTCGATCGGCAAGTTGCCGGAAGCGATCATGCAGGAAATGGTCGCGCGTCCCGATCGCTTCGGGTCGAACATGGCGTATCAGGTCGGTCGCTATCACAATGCGCGCGGCACCGAGGCCACGCTGCGACTGATCAACAAGATCGTGTCGGACGATCTCAGCACACGCCAGGTGTCGGACATCGTCAAGGGCCGCGTCGCGGCACAGGAGACGCCGAAGGCCGCGGGCCGTCAGCGCTATGCGCAGCGTCTCGAGATCAAGCTTGGCGGCAAGTCGGTCGGCGACCTGAAGTCGTATGGCGAAGACCGCATCGAACTGCGCCTGCGTGGCCTCCCGAAGGACAAGCGCGACGCGATCCTCGAGCAGCTCGAGCGAATGCTGTTGTCGGAGTAAGGGAAACGGCCGGCAAGGCCTGGTGAGGCCGCCGGCCCTGCCCGATCAGGGGTGGGGACCGGCGGTGGCCCGTCAGCGGGCCTGAGCGGGCCTCAAGCGGCCCGCGACTGGTTCAGCGTGAACGACAGCAGGTCACCGTCCGTCGGCTCGCCCCAGGTCTTCTGGGCCAGCCAGTCGAAAAAGGCCGTCTCGGCCAGCTTGGAATCGAGGCCGCGCTTGCGCCAGTCGTCGCGCAGATGCGAGCCCATCGTCGGCAACGCCTCCGACTCGAACGACTCGCGCGCCACTTCGCGCTCCGCGTCGCCCTGCTCTTCGTACAGCACCTTCGCTTCCTTGCGGCGGAACGCTGCGAACTCGCTCAGCAAGCGCGCCTTCAGATCGTCCGGCTGCGCAGCCGCAACCTTCGCGGAAGGCGTGCCGGCCGGCAGCGCGTCGACCGACTCCACCGGCGGCGCATAACCCTTCTTCAGCGCGTCCTTGAACAGCGCCGGCGCGCTCCGCACCGGCGGCAGCGTCGTGCTGCGCATCCGCTGCTCGGTCATCTGCAGCGCGGCACGAATCCGGTTTTCCTCGCTGTCCGCATAGAGCGTCTGCGCTTCCTTCAACGGGATTCCCAGCTTCACCATCCGGTCGACCAGCGTGCTGTCGAACACGTTCGGGTGTTCGTCGAGCGCGAGCATCGGCTGCTTGCGCTCGGTCACGCGGAACTGGATCTCGGCCACCCGACGCCCTTCGCGGTGCTCGATCAGCTCGACGAAGATGTTGGTGACCGCGTTGACTTCCGCGATCGCGGGACGCAGGTAGTCGCGCTTGAAGTACTTGTACTCGCGCTTCGCTTCGTCGCCGGCTTCCGTGTCGGGCGTGCCCGACAGGATCGGCCGCCACCATTCCCACGGCTCGCGCATCGTCAGGTGGCTCGGGTTCGTCAGGTAGCGCACGCAGATCTCGTACAGCGCGAGACCGGCGCTGCTGCGCAGCTGGCTCTGGAACTGCAGGCTCAGCCGCGCATACTGGACCGGGTCGAGCAGCTTCTTCTTGATCTTCGGCGCGAACGAGAATTCGACCCACACGCGGCGGGTGGTCGGGTCCTCGAGAATTTCCGCATCGGCGATCAGCGTGGAGATCCCCCACTTGCGGCCCGGCTTCTGGCTCGACGTCCCCGTGCTCCATTCGACCTGCACCGACACCATGCGGCGCAGGTGTTCCTTCACCAATGCGGTGTCGTTCGAATCGAAAGCGGAGTTCGCGACGATGTCCGACAGCAGCGCGCGATATGTATCGCCCGAGTCGTCGGCCTGCTGCGCGACGGCCAGCAGGACATTGAACAGCTTGCGAGTGAGGAGCGTGATCTTGCCGCTCTTCGGCTGAATGGCGATCGCCTCGACGGCCTTTCGCAATTCGGCTGAACTGGCACTCACCACATCCACATCGGTTTTCTTGGCGCGCTTCGTCGTGGCCATACGTCGGGTCGGAGGAGAAGTTTCCCGGAAGGATAGCGCCTGCGGTGATGTGCGTCCAGAACGACATGCTCACCATAGCCGGTGAAGCGTGCCGGCAAAACGGCACTCACCCGAACAGCTCCCGAAAACGCTCACCGGTCCGCCAGTGCGGCGTTCCGGACTCTTCCAGACGTGCCGCGGCATGCGCCGATTCACAGAATTTCACCTGTGCGCGACACGTGCGAAATTGGCTCCCGTATCGGCTCACCTTTCGATTTGTCGTAATTTTGCGACTGCGCAGACGTGAGTTCGACACAGGGCCGCGATTGCACCTCACCGCACCTTTTCCGACTGTGCCGATCGGCCTGTATGCATGTACAGGCGCGGGTCGCCGAGATATCGATCTGGCTTCGACACATGGAAAAGCGCGGTCGAAACCGGCATGCGCGGCCCGATCAGTGCCTATTTGGCCGGGCCGGGCGCGCATTGTACAGCGCGCAGATCGTATCCGGTCCCGAAAATACTCACCTCAAGCACAGCATGTTGATTCATCCGGGTGCCGACGAAGGCCCGACACACGGGCGACCGGCTGCCAATGACTCCCGAAAACACTCACCTCAACGAAAAAATGCGGCACAGCAACGGGTACGGAAATGGCTCCCGAAAAATCTCACCGTAACCGCCGCGGTATCAAAAATCCCAATCTCTTCCGATACTTATGCACAAAAGGCATTTGGCTGTGCATCGCCAGGAGCCCCCGAAAAGCCTCACCTTTCGACGGGTATCCTTCATACGACAACCGTATGTCGCCCCCCGAAAACTCTCACCTGTGCCAAAAAGTGGCACAGCAAAAACGAGATTTCTTCCAGTCCTGGCGGGCTTTTCGACGAATTCCGCCCCTCACAGGTCCCGAAAAACCTCACCTTTGACCATTTTTTCAGCAAATACGTCTCCCGGAAAACCTCACCTGTAAGCCAAGTCGGAGCCTGTGATCCATGCCCCGAAAAAGCTCACCTTAAGGCGAACGGGGCAGGAAAACCCGGATTTCCCTCCCGAAAAGTCTCACCTTTGGGGCATCACAGGCCCAGGAGAGCACTTTTGCTGTGCAAAATGGCGTCCACTTCCCGCAAATCCTCACGGCAAATTTCCGTGGAGTCCCGTGGAACCTCACCTTTCGCCAAATTTGCCCAAAAGATGGGCAGAATCGGGGCGCGAAGCAGGTCCTGCAAATTCTCACCTATGTCTGCACAGGCAGAAAACTGTGAAGTCAGGCACAGCGCGGCTTCTACGGCTGTGTGGCCCCGAAAACCCTCACCTTCAGGAAAACGTGTGTTTTACTGTGATCCCGAATCCGCTCACGACCCTTCCTGCAACGGCTCACGCAGCTCCCTGAACCCCATCACGTCAGCTCCCGCAGAAGATCACCTTGGCTCCCGTAAAACTTCACCTTGTCGGCCGGAGAGCCTTGCAGCATAAGGCTGTGCCGTGGCGTTAACGTTTTTAACTAAGGGTTCAAGGGTGTTTACTTCTAATACTCTCAAGACATCGGGCTGACGAGTTTTCCACAGACACCTCAACCCCAGAACACCCACGGGCGAACAGCTCCGCTGTCATGTGAAACAAAGGCCAAAATTCCGGGTCCGCTGAAAAATGCTTATGCGACAAGGACTTGAATAACTTTCTTCGCTTTGTTTCACGGAATTCCGGCTCACCTTCGGCAAGATTGGCTCCCTGATCCGATTTCTGTGCAAAACGACGTAAATTCACAACGGACCCTCGAAACAGGTATCAAGTAATACGTATTTCGTTATGATTGCCACAATTCATTGTCTGTGAGCGTGGTCATGACCCTGGACGAAATGCGTCAAGTCATTCGGGAAGAACTGGAATCGCTGCGTGCAAGCGGTGCGCGGCGCCAGGAATTGTCGCTGCACGCATGCAAGCGGCTGTTTTTCGATCTCGGCATTCGGCCGTCGGCCGCCAACGTCCGCGATCTTACCCAGACCGGCAGCGCCAGCGACATCCCGAAAGACATCGACCATTTCTGGGAACGCATCCGTTCCGCCTCCAAGATCCGGCTCGACGGCGCGGCGATCCCGAAAGCCGTCGAGGAAAAAGCCGGCGCGTTGCTCGGCGCACTCTATGAAGAGGCATTGAAAGCGGCGCGCGACAGCCTCGACGCCGACCGCGAACAGGTTCGCGCCGACATGGCCGACGCCGAACAGCGCTTGCGCGACGCGACCATCCGCCAGGAAACGCTTGAAGGTGCGCTCGCGCGCGGGGAAGCGAGAAACGAGCAATTGCAGGCGCGGGTGACCGAACTCGAAATTCAGCTCGCGTCGCAAACGACCCACGGTTCGGCAAGCGAAGCAACCTTGCTCACCACAGTCGCCCGACTCGAAAAGGAGTTGGCCGCGGCCGCCGGCCGCATCGATGCCGAACAGGCGCAGAACGCTGCGCTGCGTGACCGCATCGATGCTTTGCAAGCCGAATTGCAACAGCGCACCGAGCACTACGCGCAGCAAATCAAGGATGCGGTGGCGGAAGCCGAACGCCGCGTCAAGCCGATGCTGGTCGAACTGGACTCATTGCGCAGCATGGCGTCGACCTACCAGAGCGGGTTGCGCGACGTTCAGCGCAAGGAATTCGATTTCCTGCAGCAGTTGAGTTCTGCCAAGGCGCGTGCTGATCGGCTCGAGGAACAGTTGCGCAGCCAGAGCGACGAACTGGAACGCGCCACGCGCGACGTGAATTCGTTGCGCGCGAACCGCGGGATGAATCCGGAAATCGCCGCGCTGCTGCGGCGCCTGGCCGATGCCGGACAACTGGACGCGGACGCGTATGCCGCAATCGGCACCTCGCTGGATCAGGAGATTCCGGCCCCGGCGCGGTGCCCGCATTGCGACGGCGAACCGGAGCTGTCACATGGCGACGAGGGTTTTGAAGTCGCGTGCCCTGAGTGCGAGCACGCTTCGGGCGCGTGGCCGTCCCGCTTCGAAGCCGTCGCCCGTTTTGCGCAAACCTGACCGGGAAGCCGGCGATGCGCACAGGTGAGATGATCCGGGAAGCTTGAGGTGAGGTTTTTCGGGAGCTGTGAAACGGTGAGGCTGCGCCACGCAAGGCTGCTCACGGATCGCGTCGCGCGAGCAGCCGTTTCCTGATCAGTGAGTTTCGTCGCGGTCGGACGCGTCACCGTTGCTGTCGGCCAGCCCGTCGCGCCAGTTTTTCCACGCGCGATGCAGGCGATTCGACGAGATCGGCCGCATGAAGCCCAGCCATTTGCCGACCCGCTCGGGCGGCACGTCATGCTCGAACAGTTCCGCCGCGTAGGTATTGCGCAAGGTTTGCGGGCTGGTGCGTGCAGTGCGCGACGACGTGAGCCCGGCCGATTCGACGATCGCGTCGATCGCGCGCAGCATCGTCGCCTTGTGCATCGGCCGTCCGGCGTGCGACGCGGGGAAGACGAGCTCCCCCGGAATCTCCTGGCGTTTGCGTTCGGTGAGCCAGGCTTCCAGCAACGCGATCGCGAATGAGGCCAGATGAGTTTCGCGTGCGTAATCCGGATGCGTCGATTCGATCCGCAGCGACGTGTTGCTCGTATTGATGCAACTAATCGTAAGCGCGCGCGCTTCGCCGGTTTTGATGCCGGCGCCGAGAAATGCAGCGACGAGTGCGCGGTCGCGACGCTCCTTCCAGTACGCGGAACCCGACACGCCGATCGGCGAAAACAGATACGCGAGCAACGTCGCGCGTTCCGCCGGCGTGAGGAAGCCGGTCGGTTCGTTGTCGCGGGCCTTGCGCCAAGTCGCTTCGCCATCCTGAGCAATGAAGCGGGCCGGATTGGTCGATGCATATTCGGTGCGGCGAATATGATCGAGCACGCGCTCGATCAGCCGCAGATAGCGCATTCGCTGCGTTTTCTTGATCGGCAACTCGCCGACGAAGTTCGCGATGGTCGGTGTATCGACCGTCGCCAGGTTCTTTTGATGCGCGCGCATCCATGCGAGAAACGCGCCCCATTGCGCGCGATAGACATCGGCCGACGAGCGGCGATAGTCCTGCATTGCCAGCCATGCGTCGAACGCGGCTTCGGGCGAAAGAACCCAGTCGGACGCATCGCGGTCGAACAGGTCCTTTTCTTCCGGTGGGGCGGCGGTGTCGGGAGAGGCGGGAAGGGACATGGTATTAATTCCGTTAGTTGCGTATATGGTAGCCCTTTCCGCAACGTCTCGGGCAGCAAAAGGGTGAAGCGGCCGCCCTGCGCGGCGGCCGCGGTTGAGCCGTCAGTCGCCCCACGCCTTGGACGGGCGGAGAGGGCGCGACGGACGCACGGTATCGTGTGTCGTTGCCGCGGCTTCGTACGCGAGAACGGCGAATGAAAAGACCGCGGGCAGCGCGTTCGAGCGCCCGAAGTCGATTGGATCGTCGGTCTCGGGAAACGTCATGTCCGACGGCCGTTCGAACAGTTGACGCATGCCGGCGTCGTGCCGGCTCGCAAAGCCGAGATCGGCGAGCGCCTCGGCTTCGATCGCGTGCAGCAGGCGCCACGTCAGCGGCACGCGCTGACGGATGTACCGCCCGGCGATATGGCGAACGATCAATTCGAGGTCATGCGCGGCAGCCTTGAAGCTGAGCGCGGCCAAATCTTGTTCTTCTGTCATTGCAGGCTCCTGTCGACCGGAGCGGGCGCCTCGGTGCGCCGGCTCCGGCCCATGCATGGCGGAATGTCCGTATACTGTACAAACATACAGTACTTTCCGCAACTGGCCTGCAACTGACCTTTTGGCCGACTACCCGCGCCGTCAGCGATGGATCACGATCAACAAGGCCCGTGCTTCGGCCTTGCCGGGATTGCGGATTGCATGCGGCTCATCGGCCGGGTAACGCGCGGTGTCACCCGCCTTCAGGCGTCGGCTCGCCGCGGCGGCCTCGATTTCCATCGCGCCCTGCAGCACGGTGAGGTGCTCGCGCGTGCCCGGTTCGTGCGCGTTCGATACCAGGGCGCCGCCGCCCGGCAGCGTCAGTTCGTACCACTCGAACTTGCCGGCGAGGTCGATCGGGCCCCATACGCGCAACTGGTACCGGCCGTCGTGGCCGGCGAGCGTCGGAATGTCGTGCGGGCCGTCCACGCGGATCGTCTCGGGCGCCTTCGGCTGCGAGAACAATTCGTCGAGCGTGATGCCGAGCGCGTTCGTCAGCCGCCATGCCACGGCGATGGTCGGGTTGGCCTTGTCGCGTTCGATTTCGGAGAGCATCGATTTCGATACGCCGGCTGCGCGCGACAGGTCATCGAGCGTCAGCTTGCGCTCGTTGCGCAGGCGCTGAATCTGCTCGCCCACACGCGGCGGGGTCGCGGCCGGCGGCTGCGGGGCGGCGTCGGCGGCCGGGCGCCGCGATCCGGAGGAACTTGCCATTTGGATTCCGTTCGCTTAGAGTTGTTCGATATTTCGAATTCTAGTTCGGAATATCGGATAAATGCGGTCAACCGAACGACCGACTATAACAGTAGCAGGCCGTTGCGCCGCCACGAGCGGTGCGCTGCGGAATGCGAAACCCTGTCAGGAGCTTTGCGATGCGTGATGCCTTTCTCGCCCAGGTGCGCGGGACGCTCGACCAGATCCGCGCGGACGGTTTTTACAAGACCGAGCGCGAGATCGCGAGTCCCCAGGCGGCAGCCGTGCGGCTCGCCGGCGGTGCCGGCGTGCTCAATTTCTGCGCGAACAACTATCTGGGTCTGGCGAACGATCCGCGCCTGATCGACGCGGCGAAGGCCGGCCTCGACCAGGACGGCTTCGGCATGGCATCGGTGCGCTTCATCTGCGGCACGCAAACCGTCCACAAGCAACTGGAAAGCGCGCTGGCCACGTTTCTCGGCACCGAGGACAGCATCCTCTATTCGAGCTGCTTCGACGCGAACGGCGGGCTGTTCGAAACATTGCTCGACGAGAACGACGCGGTGATCAGCGACGAACTGAATCACGCGAGCATCATCGACGGCATTCGCCTGTGCAAGGCGAAGCGTTTTCGCTACAAGAACAACGATCTGTCCGACCTCGAGGCGAAGCTCAAGGAAGCCGACGCCGCTGGCGCGCGCCACAAGCTGATCGCGACCGACGGCGTGTTTTCGATGGACGGCATCATCGCCGACCTCAAAGGCATCTGCGATCTCGCCGATCGCTACGGCGCGCTCGTGATGGTCGACGATTCGCATGCGGTCGGCTTCATCGGCACGCACGGCCGCGGCACACCCGAGCACTGCGGCGTCGAAGGTCGCGTGGACATCATCACGGGCACGCTCGGCAAGGCGCTCGGGGGTGCCTCGGGCGGCTATGTCGCCGCACGTCGCGAGGTGATCGAGCTGCTGCGCCAGCGCTCGCGTCCGTATCTGTTCTCGAACACGCTCACGCCGAGCATCGCCGCGGCGTCGCTGAAGGTGCTGGAACTGCTCGGCAGCGACGAAGGCGCGAAGCTGCGCGAGCGCGTGCGCGAGAACGGCGCGCGGTTCCGCAAGCAGATGACCGAAGCCGGCTTCACGCTCGTGCCCGGCGCGCATCCGATCATCCCGGTGATGCTCGGCGACGCGCAGCTCGCGACGAACATGGCCGACAAGCTGCTCGGCGAAGGCGTCTACGTGATCGGCTTCTCGTTCCCCGTCGTGCCGCGCGGCCGTGCGCGCATCCGCACGCAGATGAGCGCCGCGCACTCGCCCGAACAGGTCGACCAGACGGTCGCCGCGTTCGTGCGCGTCGGCAAGTCGCTCGGCATCATCTGACGGAGGCGCGACCATGAAAGCACTGGCAAAGCTCGAACGCGGCCCCGGCCTCACGCTCACGCGCGTGAAGCGTCCCGAAGTCGGCCACAACGACGTGCTGATCAAGATCCGCCGCACGGCGATCTGCGGCACCGACATCCATATCTGGAAGTGGGACGACTGGGCGCAGAAGACGATTCCGGTGCCGATGCACGTCGGCCACGAATACGTCGGCGAGATCGTCGAGATGGGGCAGGAAGTGCGCGGCTTCGCGATCGGCGATCGTGTGTCCGGCGAAGGTCACATCACGTGCGGTTTCTGCCGAAACTGTCGCGCCGGGCGCCGGCATTTGTGCCGCAACACGGTGGGCGTCGGCGTGAACCGCGAAGGCGCGTTCGCCGAATACCTGGCGATTCCGGCGTTCAACGCGTTCAAGATTCCGCCGGAGATCTCCGACGATCTCGCGTCGATCTTCGATCCGTTCGGCAACGCGACGCATACGGCGCTGTCGTTCAACCTCGTCGGCGAAGACGTGCTGATCACCGGCGCGGGCCCGATCGGCATCATGGCCGTCGCGATCGCGAAGCACGTCGGCGCGCGCAACGTCGTCATCACCGACATCAACGACTATCGGCTGGAACTCGCACGCAAGATGGGCGCGACGCGCGCGGTCAACGTCGCGCGCGAGTCGCTGCGCGACGTGATGGCCGACCTGCACATGACCGAAGGCTTCGACGTCGGGCTCGAGATGTCAGGTGTGCCGAGCGCGTTCACGAGCCTGCTCGAGGCGATGAACCACGGCGGCAAGGTCGCGCTGCTCGGCATCCCGCCCGCGCAGACGGCGATCGACTGGAACCAGGTGATCTTCAAGGGGCTCGAGATCAAGGGCATCTATGGTCGCGAGATGTTCGAGACCTGGTACAAGATGGTCGCGATGCTGCAGAGCGGCCTCGACCTGTCGCCGATCATTACGCATCGTTTCGCGGCCGATGATTACGAGCAAGGCTTCGCCGCGATGCTGTCCGGCGAAAGCGGCAAGGTGATTCTCGACTGGACGGCCTGAGTCGAGTGAGTGTCGAGACGGGGCAGTGCGGCGCGATCGCCGCCTGCCCTGTTTTCGTTTGCACGCGCATCGTTGCGCGTCGGAACGCGTGATTCAGCGCTTGAGGTGAGATTATTCGGGAGCTGTGTGTGCGTGCCGAATCGCCGCGCGATCCCGCATCGGTGAATGGCGATTTCACGTCCGCTTCACCTGTCGGTAGCCACCTCGCTTCTTCTCGTCACGCCATTCGGCGCCTGCTTTTCCTTCTTCCACACACTTCCCTGCTTCGCCTGGCAGGCGGGCGTTTGCTTGCCGCCGTATGCGACATCGCGCCGAATCGGGACATCAACCGTGAGCTGCACACAGCGTTGCGCCTCACTGATAGGCGATGCGATCGACATCGATCGGCCTCGACCGGTGCGCAGGCCACCACTTGATCCGTTCACCATTCAATCAGCGCGAATCGAGCTGAAGACTCGTCAGGACGAGCAGACGCTTCAGGCACGATTCAACCTTCCCACCGGCAGGGCCTTTTCATCCAGGCATTGACGGCGGAGAACGATCGTTCTACCGTAAACCCCATGAACACACTTCTCGACTCCTCCGGCGAACCGGGCGTTCGCGACCGGCTGCTCGACGCGGCCGAAGCGCTGATCTACTCCGGCGGCATCCATGCGACCGGTGTCGACGCGATCGTCAAGCGATCCGGCGCGGCGCGAAAGAGCTTTTATTCGCATTTCGAATCGAAAGAAGCACTGGTGGTCGCCGCGCTCGAGCGGCGAGACGAGCGCTGGATGCGCTGGTTCGTCGACGGCACGCTGGCGCGCGGCAAGGCGCCGCGCGCGCAACTGCTCGGCATGTTCGATGTGCTGCGCGACTGGTTCGGGCAGCCCGACTTCCACGGTTGCGCATTCCTGAACGCGTCGGGCGAGATACCCGACGCCGACGATCCCGTGCGCGTCGTCGCCCGTATGCACAAGGCGCGCCTGCTGGCATTCGTGCGCGAGCGCCTCGACGCCTATGCCGACGAAACCGGCATCGAGCGCCGCGGGCTCGCGCGCCTCGCGCGTCAGTGGCTCGTATTGATCGACGGCGCGATCGGCGTGGCGCTCGTCAGTGGCGATGCAAACGCTGCACGCGATGCCCGCGCGACGGCTGAACTGCTGCTCGACACCGCCTCGCGGTAGCCGACGCAGCGAATCCGAACCGGCTGCGTGCGTTCGCGGCCAGAACCCTGAACAGGAGCTACCCATGTCCGCTTCCCCCGAAGTTCGTCCGCCCGTTCCGCCCTTCACGCTCGACACGGCGCGCCAGAAAGTGCGCGCCGCCGAGGACGCGTGGAACACGCGCGACCCGCAACGCGTGTCGCTCGCCTATACGCCGCAAAGCCGCTGGCGCAATCGCGCGGAATTCGTGACGGGCCGCGACGAGATCGTCGGGCTGCTGCAGCGGAAGTGGGCGCGCGAACTCGACTACCGGCTGATCAAGGAGCTGTGGGCGTTCGGCGGCAATCGCATCGCGGTGCGCTTTGCGTACGAGTGGCACGACGATGCGGGCAACTGGTTCCGTTCGTACGGCAACGAGAACTGGGAGTTCGACGAAAACGGCCTGATGGCGCATCGTCACGCGAGCATCAATGATCTGCCGATTCGCGAGGCGGACCGTCTTTATCATTGGCCGCTCGGCCGTCGTCCGGACGATCATCCGGGGCTGTCCGATCTCGGGCTGTGATGATGCGCGCACGCGTTCAACGGATCGGCGAACGCATCACCAAGCTTCAATGGTGAGGAAATTCGGGAGCCGCCCGCTGAAGGTGAGACTTTTCGGGACGAGGTGAAATGCCGCGTCGAACTGGGTGCATTGAACGGATCGACGCGACGTCGCAGGGGTAAAGCGGCGCAGATGTCGACGTGCAGCGGTGTGCTTTCCTGCGTGATGCATCTCACCGATCGCATCGAAGCGATCGTGCATTGCCGATCGGTGTGTGCGAGCGCGACGTGCAACTCACCGATCGAATCATCTTGCGACTTTCAACGAAAAATCGCGCAAGCAGTGCGCGCTGCGATAGGGCGTTGCTCACCGCTCGATGTTCACCGCCGCCGCATCGTCAAAGTCGGCACACGTGCGCAACCGCATCGTGTATCGCTCACCGCAGCCGATTCACGAAGGGCCGCCCGGCGCCAGCGCCGGGCACGACCCTCACCTCTCACCCCGCAATCCGCGCGGCGATCGCCTCGCCCACTTCCTGCGTGCCCGCATTGCCGCCGAGATCGCGGGTACGCGGCCCCGTGCGCAGCACGTCCTCGATCGCGGCGACGATCGCATCGTGCGCTTCGCGTTCGCGGCCCGTGCCGTTGCCGAGGAAGTCGAGCATCATCGCCGCCGACCAGATCATCGCGACCGGATTCGCGATGTATTGCCCCGCGATGTCGGGCGCGGAACCGTGCACGGGCTCGAATAGCGACGGGAACGTGCGGTCGGGGTTCAGGTTCGCCGACGGCGCGATGCCGATCGTGCCCGTACAGGCCGGCCCGAGATCCGACAGGATGTCGCCGAACAGGTTGGACGCGACGACGACGTCGAAGCGGTCCGGCTGCAGCACGAAGCGCGCGCACAGGATGTCGATGTGCTGCTTGTCGACCGCGATCTCCGGATAGCGTTCGGCCATCTCGGCCGCGCGCGCATCCCACCACGGCATGCTGATCGCGATGCCGTTGCTCTTGGTCGCGACGGTGACGCGCTTCGCGCGCCGCTGCGCGAGCTCGAACGCGAATTTCAGCACACGCTCGGTGCCGTGCCGCGTGAAGATCGACTGCTGCATCACGACTTCGCGCTCGGTGCCTTCGAACATCGTGCCGCCGACCGACGAATATTCGCCCTCGGTGTTCTCGCGCACGATCATGAAATCGATGTCGCCCGGGCGGCGGCCGGCGAGCGGCGACGGCACGCCGTCGAACAGGCGCGCGGGCCGCAGGTTGATGTACTGGTCGAATTCGCGGCGGAATTTCAGCAGCGAGCCCCACAGCGAAATGTGATCGGGCACCGTCGCCGGCCAGCCGACCGCGCCGAACAGGATCGCGTCCATGCCCGACAGTTGCGCCTTCCAGTCGTCCGGCATCATCGTGCCGTGCTGCGCGTAGTAGTCGCAGCTCGCCCAGTCGATCTCGACGAAGTCGAAGCGCACGCCGAAGCGCGCGGTCACGGCGGCGAGCGTGCGCAGGCCCTCGGGCATCACTTCGCGGCCGATGCCGTCGCCGGGGATCACGGCAATCCTGTAAGTCCTGTCGGTCATGCAAATCTCCTTGGCTGATTGGCCGGCTGCCGGAAAGGCAGGGGCCCGTCACGTCATTCTATTTGTTTCCATCTGGATTAAAATCGCTCAAAAGTTAATCGACTTTCCACGAATCGTGAATAAATCGCCGAACCTCGACGACCTGCGCGTGTTCAGCCTGGTCGTCCGCCTTGCGAGCTTCAGCGCGGCCGCCGAGCAGCTCGCCGTGTCGCCCGCGTACGTCAGCAAGCGCGTCGCGATGCTCGAGGCGCAGCTCGGCACGCGCCTGCTGCATCGCTCGACACGCCGCATGACGGTCACCGACGCCGGCGAACGCGTGTTCGCGCGCGCCGAAAAGATTCTCGACGACGTCGATCATCTCGTCGAGGACGTGTCGACCACGCGCACGGTGCCGCGCGGCACGCTGCGCATGTCGAGCAGCTTCGGCTTCGGCCGGCACGTCGTCGCGCCGGCGCTGCTCGACTTCAGCGCGCGCTATCCGCAGTTGAATGTGCGGCTCGATCTGTTCGACCGGCTCGTCGACGTGGCGGGCGAAGGCTACGACCTCGACGTGCGCATCGGCGACGAGATCGCCGATCACCTGATCGCGCGCCGCCTTGCCACGAACCATCGCGTGCTGTGCGCGTCGCCAGACTATCTCGCCCGACGCGGCACGCCGCGCTCGCTCGCCGATCTCACATCGCACGACTGTCTCGCGATCAAGGAGCGCGATCATCCGTTCGGCGTATGGCGGCTGAATGTGCGCGGGGAAACGGTCACGGTGAAGGTTGGCGGCGCGCTGTCGACGAACCATGGCGAGGTGGCCGTGCAATGGGCGCTGGCCGGACGCGGCATCGTGCTGCGCTCGATCTGGGAGGCCGGGCCGCTGATCGAACGCGGCGAACTGTGTCGCGTGCTGCCGGACGCGACCCAGCCCGCGAACATCTGGGCCGTGTACCCGGAACGCGTCGCGGCGTCGGCGAAGGTGCGCGTGTGCGTGGATTTTCTGGTGGAGACGCTGGCCGGCCTGAATGCCGCGGCGGGTGACGATACGGCCTGAAACCGGCTAAAGGTGAGCTTTTACGGGGGCGTGCGCAGGCATCGTCGACGATGCCTGCGGAGCGTCACGCCGCGTGTCGCGCGCCGAGCATCAGGTCGAGATTCTGCACGGCGGCGCCGGATGCCCCTTTGCCGAGATTGTCGAACACGGCGGACAGCAGCACCTGCCCGCCGTTCGCGTTGACGAACACGCCGAGCCGCAGATCATTGGTGCCGTTCAGCGCTTGCGGATCGAGATGCGTTGCCGCGCGTGCGTCCGCGAGCGGCATCACATCGACGTGACGGGCGTCCGCGTAGTGGTGCGCGAGACACGCATGCAGCCGCTCACCCGTCACGCCGGCCGGAAGCAGGCGCAGCTCGATCGGAATGGTGAGCACGATGCCTTGCCGATAGGCACCGTAGGCCGGCACGAAGAACGGGCGGTGCGCGAGCCCCGCATGCTGCCGGATCTCGGGCACGTGCTTGTGCGCGAGCGCGAGGCCGTAGACCTGCAGCGGCAACGCGCGTGCCGCGGCGTCGCCCGATTCGAATGCGTCGACGGCGGCTCTCCCGCCGCCCGAGTAACCGGACACCGCATGGATGCTCACCGGGTAGTCGCGCGGCAGCAGCCCGGCCTGCAGCAGCGGACGAAGCAGGCCGATCGCGCCGGTCGGGTAGCAGCCGGGATTGGTCACGCGCTTCGCATGCGCGATCTCGTGTGCGTGTCCGTCGGCCATCTCGGGAAAGCCGTAGACCCAGTCGGGTTGCGTGCGATGGGCCGAACTCGCGTCGATCACGCGTACCGCCGGGTTCCGGATGAAGCCGACCGCTTCGCGCGCGGCCGCATCGGGCAGGCACAGGATCGCGATATCGCACGCGTTGAGTGCATCGGCGCGCCGCGCCGCCTCCTTGCGTTCGGCGGCGGGAAGCGTGAGCAGCCGCACGTCGGTGCGGTCGCGCAGACGCGCGTGAATCTGCAACCCGGTCGTGCCCTGGTCGCCGTCGATGAAGACAGTGGGGAAGCTCATGATGGTCGTGCTCGTCGCGTTCGGTCGTCGGGGAAACCGTATCGTCCACCGAACGCCTAGAATAGGAAAAGTTGAATTTGCTGATCGTCTGATTCAGATTTCCTGAACGAGAGGAGTGTGATGCGCGAGATCAGTCTGGACCGTCTGCGTACGCTGGTCGCGATCGCGGACCAGGGTTCCTTCGTGGCGGCGGCGCAATGGCTTCATCTCGCGCCGCCGACCGTCAGCCTGCATGTCGCCGAGCTGGAAAGCCGCGTCGGCGCGCCGCTGCTGTCGCGCACGCGCGGCAACGTGCGCCCGTCGGTGATCGGTGAAGTGCTGGTGGAGCGGGCGCGGCGTCTGCTGGCGGAAGTCGAATCGACGCTGGACGACGTGCAGCGACAGGTGCAGGGGTTGACCGGGCGCGTGCGTCTCGGCGCGTCGACCGGCGCGATCGCGCATCTGCTGCCGCAGGCGGTGGCTGGACTGCGCGCGCAGCATCCGGATATCGACGTGCAGATCGCGGTGCTCACGTCGCAGGACACGCTGGCGCGCATTGCACAGGGCACGCTCGACGTCGGGCTGGTCGCGCTGCCGCAAGCGCCGGTCGCGGGGCTGTCGATCCGCTCGTGGCGCCGCGACCCGGTGATGGCTTTCCTGCCCGCGGACTGGCCGCTTCCGGCCCGTGTGACGCCGGCGTATCTGGCCGCGCGGCCGCTGATTCTCAACGATGCGACGACGCGCCTGTCGCGGCTCACGACCGAATGGTTCGCGCTCGGCGGCCACCGGCCCGTGCCGCGGATCGAACTCAACTACAACGATGCGATCAAGAGCCTGGTCGCCGCGGGGTACGGCGCGACGCTG Predicted Gene Sequences: >PredictedProphage1 -Hit 1 ATTGCAGTCACTCAACAAAAAGGTGGCGTCGGCAAAAGCACGATTGCCATGCATCTCGGCGCCGCGTTCCATGAAAAAGGGAAGCGCGTCCTCGTCATCGACGCAGACCGTCAA >PredictedProphage1 -Hit 2 AGCCTCGACGCCGACCGCGAACAGGTTCGCGCCGACATGGCCGACGCCGAACAGCGCTTGCGCGACGCGACCATCCGCCAGGAAACGCTTGAAGGTGCGCTCGCGCGCGGGGAAGCGAGAAACGAGCAATTGCAGGCGCGGGTGACCGAACTCGAAATTCAGCTCGCGTCGCAAACGACCCACGGTTCGGCAAGCGAAGCAACCTTGCTCACCACAGTCGCCCGACTCGAAAAGGAGTTGGCCGCGGCCGCCGGCCGCATCGATGCCGAACAGGCGCAGAACGCTGCGCTGCGTGACCGCATCGATGCTTTGCAAGCCGAATTGCAACAGCGCACCGAGCACTACGCGCAGCAAATCAAGGATGCGGTGGCGGAAGCCGAACGCCGCGTCAAGCCGATGCTGGTCGAACTGGACTCATTGCGCAGCATGGCGTCGACCTACCAGAGCGGGTTGCGCGACGTTCAGCGCAAGGAATTCGATTTCCTGCAGCAGTTGAGTTCTGCCAAGGCGCGTGCTGATCGGCTCGAGGAACAGTTGCGCAGCCAGAGCGACGAACTGGAACGCGCCACGCGCGACGTGAATTCGTTGCGCGCGAACCGCGGGATGAATCCGGAAATCGCCGCGCTGCTGCGGCGCCTGGCCGATGCCGGACAACTGGACGCGGACGCGTATGCCGCAATC >PredictedProphage1 -Hit 3 GTGGGCGAGCAGATTCAGCGCCTGCGCAACGAGCGCAAGCTGACGCTCGATGACCTGTCGCGCGCAGCCGGCGTATCGAAATCGATGCTCTCCGAAATCGAACGCGACAAGGCCAACCCGACCATCGCCGTGGCATGGCGGCTGACGAACGCGCTCGGCATCACGCTCGACGAATTGTTCTCGCAG >PredictedProphage1 -Hit 4 ATCTGCGATCTCGCCGATCGCTACGGCGCGCTCGTGATGGTCGACGATTCGCATGCGGTCGGCTTCATCGGCACGCACGGCCGCGGCACACCCGAGCACTGCGGCGTCGAAGGTCGCGTGGACATCATCACGGGCACGCTCGGCAAGGCGCTCGGGGGTGCCTCGGGCGGCTATGTCGCCGCACGTCGCGAGGTGATCGAGCTGCTGCGCCAGCGCTCGCGTCCGTATCTGTTCTCGAACACGCTCACGCCGAGCATCGCCGCGGCGTCGCTGAAGGTGCTGGAACTGCTCGGCAGCGAC >PredictedProphage1 -Hit 5 CCGAACCTCGACGACCTGCGCGTGTTCAGCCTGGTCGTCCGCCTTGCGAGCTTCAGCGCGGCCGCCGAGCAGCTCGCCGTGTCGCCCGCGTACGTCAGCAAGCGCGTCGCGATGCTCGAGGCGCAGCTCGGCACGCGCCTGCTGCATCGCTCGACACGCCGCATGACGGTCACCGACGCCGGCGAACGCGTGTTCGCGCGCGCCGAAAAGATTCTCGACGACGTCGATCATCTCGTCGAGGACGTGTCGACCACGCGCACGGTGCCGCGCGGCACGCTGCGCATGTCGAGCAGCTTCGGCTTCGGCCGGCACGTCGTCGCGCCGGCGCTGCTCGACTTCAGCGCGCGCTATCCGCAGTTGAATGTGCGGCTCGATCTGTTCGACCGGCTCGTCGACGTGGCGGGCGAAGGCTACGACCTCGACGTGCGCATCGGCGACGAGATCGCCGATCACCTGATCGCGCGCCGCCTTGCCACGAACCATCGCGTGCTGTGCGCGTCGCCAGACTATCTCGCCCGACGCGGCACGCCGCGCTCGCTCGCCGATCTCACATCGCACGACTGTCTCGCGATCAAGGAGCGCGATCATCCGTTCGGCGTATGGCGGCTGAATGTGCGCGGGGAAACGGTCACGGTGAAGGTTGGCGGCGCGCTGTCGACGAACCATGGCGAGGTGGCCGTGCAATGGGCGCTGGCCGGACGCGGCATCGTGCTGCGCTCGATCTGGGAGGCCGGGCCGCTGATCGAACGCGGCGAACTG >PredictedProphage1 -Hit 6 GCGATCGCGGACCAGGGTTCCTTCGTGGCGGCGGCGCAATGGCTTCATCTCGCGCCGCCGACCGTCAGCCTGCATGTCGCCGAGCTGGAAAGCCGCGTCGGCGCGCCGCTGCTGTCGCGCACGCGCGGCAACGTGCGCCCGTCGGTGATCGGTGAAGTGCTGGTGGAGCGGGCGCGGCGTCTGCTGGCGGAAGTCGAATCGACGCTGGACGACGTGCAGCGACAGGTGCAGGGGTTGACCGGGCGCGTGCGTCTCGGCGCGTCGACCGGCGCGATCGCGCATCTGCTGCCGCAGGCGGTGGCTGGACTGCGCGCGCAGCATCCGGATATCGACGTGCAGATCGCGGTGCTCACGTCGCAGGACACGCTGGCGCGCATTGCACAGGGCACGCTCGACGTCGGGCTGGTCGCGCTGCCGCAAGCGCCGGTCGCGGGGCTGTCGATCCGCTCGTGGCGCCGCGACCCGGTGATGGCTTTCCTGCCCGCGGACTGGCCGCTTCCGGCCCGTGTGACGCCGGCGTATCTGGCCGCGCGGCCGCTGATTCTCAACGATGCGACGACGCGCCTGTCGCGGCTCACGACCGAATGGTTCGCGCTCGGCGGCCACCGGCCCGTGCCGCGGATCGAACTCAACTACAACGATGCGATCAAGAGCCTGGTCGCCGCGGGGTACGGCGCGACGCTG Predicted Protein Sequences: >PredictedProphage1 -Hit 1 IAVTQQKGGVGKSTIAMHLGAAFHEKGKRVLVIDADRQ >PredictedProphage1 -Hit 2 SLDADREQVRADMADAEQRLRDATIRQETLEGALARGEARNEQLQARVTELEIQLASQTTHGSASEATLLTTVARLEKELAAAAGRIDAEQAQNAALRDRIDALQAELQQRTEHYAQQIKDAVAEAERRVKPMLVELDSLRSMASTYQSGLRDVQRKEFDFLQQLSSAKARADRLEEQLRSQSDELERATRDVNSLRANRGMNPEIAALLRRLADAGQLDADAYAAI >PredictedProphage1 -Hit 3 VGEQIQRLRNERKLTLDDLSRAAGVSKSMLSEIERDKANPTIAVAWRLTNALGITLDELFSQ >PredictedProphage1 -Hit 4 ICDLADRYGALVMVDDSHAVGFIGTHGRGTPEHCGVEGRVDIITGTLGKALGGASGGYVAARREVIELLRQRSRPYLFSNTLTPSIAAASLKVLELLGSD >PredictedProphage1 -Hit 5 PNLDDLRVFSLVVRLASFSAAAEQLAVSPAYVSKRVAMLEAQLGTRLLHRSTRRMTVTDAGERVFARAEKILDDVDHLVEDVSTTRTVPRGTLRMSSSFGFGRHVVAPALLDFSARYPQLNVRLDLFDRLVDVAGEGYDLDVRIGDEIADHLIARRLATNHRVLCASPDYLARRGTPRSLADLTSHDCLAIKERDHPFGVWRLNVRGETVTVKVGGALSTNHGEVAVQWALAGRGIVLRSIWEAGPLIERGEL >PredictedProphage1 -Hit 6 AIADQGSFVAAAQWLHLAPPTVSLHVAELESRVGAPLLSRTRGNVRPSVIGEVLVERARRLLAEVESTLDDVQRQVQGLTGRVRLGASTGAIAHLLPQAVAGLRAQHPDIDVQIAVLTSQDTLARIAQGTLDVGLVALPQAPVAGLSIRSWRRDPVMAFLPADWPLPARVTPAYLAARPLILNDATTRLSRLTTEWFALGGHRPVPRIELNYNDAIKSLVAAGYGATL Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig361 Genome size: 94229 Host's GC content: 66.55 Predicted Codon Position GC: 1st: 67.83 2nd: 44.67 3rd: 80.30 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig362 Genome size: 90963 Host's GC content: 66.39 Predicted Codon Position GC: 1st: 67.73 2nd: 44.62 3rd: 80.03 >PredictedProphage1 Length: 7355 Number of hits = 5 GC Coding First Second Third 65.82 67.49 70.29 48.55 83.64 Codon Usage: AA Codon Total Percent Leu TTG 7 0.0630630630630631 Leu TTA 0 0 Leu CTG 60 0.540540540540541 Leu CTA 1 0.00900900900900901 Leu CTT 7 0.0630630630630631 Leu CTC 36 0.324324324324324 Lys AAG 15 0.9375 Lys AAA 1 0.0625 Glu GAG 18 0.473684210526316 Glu GAA 20 0.526315789473684 Gln CAG 33 0.767441860465116 Gln CAA 10 0.232558139534884 End TGA 0 0 End TAG 0 0 End TAA 0 0 His CAT 14 0.424242424242424 His CAC 19 0.575757575757576 Asn AAT 6 0.375 Asn AAC 10 0.625 Ser AGT 1 0.0212765957446809 Ser AGC 12 0.25531914893617 Ser TCG 24 0.51063829787234 Ser TCA 2 0.0425531914893617 Ser TCT 1 0.0212765957446809 Ser TCC 7 0.148936170212766 Trp TGG 11 1 Arg AGG 3 0.0348837209302326 Arg AGA 0 0 Arg CGG 11 0.127906976744186 Arg CGA 12 0.13953488372093 Arg CGT 12 0.13953488372093 Arg CGC 48 0.558139534883721 Ala GCG 73 0.629310344827586 Ala GCA 4 0.0344827586206897 Ala GCT 3 0.0258620689655172 Ala GCC 36 0.310344827586207 Cys TGT 0 0 Cys TGC 8 1 Asp GAT 12 0.285714285714286 Asp GAC 30 0.714285714285714 Gly GGG 15 0.147058823529412 Gly GGA 5 0.0490196078431373 Gly GGT 13 0.127450980392157 Gly GGC 69 0.676470588235294 Phe TTT 5 0.106382978723404 Phe TTC 42 0.893617021276596 Tyr TAT 6 0.352941176470588 Tyr TAC 11 0.647058823529412 Met ATG 24 1 Val GTG 35 0.460526315789474 Val GTA 2 0.0263157894736842 Val GTT 6 0.0789473684210526 Val GTC 33 0.434210526315789 Thr ACG 32 0.56140350877193 Thr ACA 3 0.0526315789473684 Thr ACT 0 0 Thr ACC 22 0.385964912280702 Pro CCG 31 0.738095238095238 Pro CCA 4 0.0952380952380952 Pro CCT 2 0.0476190476190476 Pro CCC 5 0.119047619047619 Ile ATA 1 0.0294117647058824 Ile ATT 5 0.147058823529412 Ile ATC 28 0.823529411764706 Left Right Strand Best Blast Hit Score Evalue 26031 26267 1 ref|NP_958209.1|gene 33 protein 37.0bits(84) 0.32 26662 27027 1 ref|NP_945089.1|gp58 42.7bits(99) 0.006 27622 28875 -1 ref|NP_945090.1|gp59 293bits(749) 2e-78 30976 31608 -1 ref|NP_046877.1|putative non-heme haloperoxidase 83.2bits(204) 4e-15 32978 33385 1 ref|NP_817692.1|gp15 39.7bits(91) 0.050 DNA sequence: CGGCACCACGCCGACGCCGGCCGGCGCCCAGTGCGCGAGCGCCCACGATTCGAATTGCGTGCCCGACTGCACGCCGACGCGCTTGCCGGCCAGCGACGCCGCCGTGCCGTCGAGCCCGCTGCCGGGCCGCGCGACGAGCCGCGACTTGAAGCGGAACAGCTTCGACGAGAACAGGATCTGCTTCTCGCGCTTCGCGGTGATCGCCATCGACGACAGGATCGCGTCGATCTTGCGCGCCTGCAGCGCGGGGATCATCCCGGAGAATTCGAGCTCGACCCACTGGCAGCGCAACTGCGCGCGGCGGCAGATCTCGTTGCCGAGATCGACGTCGAAGCCCTTCAGGCTGCCGTCGGGCGCCTTCGCGTCCATCGGCGGATAGGTCGGGTCGATGCCGAGCCGCACCACGTGCGCGTCGAGCGCATATGCGGACGTGGCCGCCAGGCCAATGCACAGGAAAACGAGCGGGACGAGGAAACGTTTCATGGTCGACGACGGGCAGGAAGAGGAACGAACGGCATGAGCCGGACTGCCTGCGATCGTAGGGGCCGCGCGCGGCCGCCGGAACCATCGGCTGGCTTATCATGATCGGTATTTCCGATCACCGGCCTCGCTGCTTCCCATGGCGTTCACGCTGTCCCAGCTCCGCATCTTCCAGGCCGTCGTCGAGCACGGCAGCCTGCGCGCGGCCGCCCGCGCGCTCGATCTCGCGCAAAGCGGCGTCACGCAGCAACTGCAGGGCCTCGAGGCGACGCTCGGCGCGACGCTGTTCACGCGCACCAACCGCGGGATCGTGCCGACGGCCGTCGGCCAGCGGCTGCTCGCGCGTTCCGGTTCGATCCTCGGCGAATGCGAGCAGGTCGAGCGGGAAATCCGTCAGTTGAGCGGTGCCTACGAAGGCACCGTCACGCTCGGCCTCGTGACCGAGCCGCTGATCGACGCGTTCGCGCCGGTGCTGACCGCGTTCCGCGCGCGCTTCGACAAGGTGGACGTGCACCTGCGCACCGGCACGTCGCGGATGATGATCGGCTGGCTGCGCGAGAGTGCGGTCGATTTCGCGATCGCGCTGGTCGCGAAGCAGACCGACACGACCGATCTCGCGGTCACGCCGCTGCGCACGTCGGCGCCGGTGGTCGTCTGCCGCAACGGGCATCCGGCGATGCACGCGCAATCGCTCGCCGAGCTGGGCGACTACGGATGGGTGTCGACGCGCTCGCCGAACCTGAGCGCCGACCCGGTCGTCAACCGGCTGCTCGCGTACTTCGATACGCACGGCCAGCCGCCGCCGAAGATTCTGGCGACCGTCGAAGGAATGTTCGAGACGCTGCAGATCGTCACGCAGACCGATTCCCTCGCGCTCGAAACCGAAGCGATCACGCGGCACGGGCCGTTCGCCGGCGCGCTCGTGAAGGTGCCGGTGCGCGAGCAGGCCGAAGCGCAGGACATCTGCCTGCTGCAGCGCGCGGCCGTGCCGCTGACGCCCGCCGCGCAGGAACTCGCGACGATGCTCGCGTCGTATTTACGGGTGGTGCGCGGGCGGTAAGGCCACCCGCCTCGCACGTCAGTCCAGCGATTCCCGCGCCGTCTCGCGCAGCATCGCGACCGCGATCAGCGACAGCACCACGCACGCGGCCACGTAGCCGGCCGGCGCGAGCTTGCTGCCGGTCGTCTTCACGAGCCAGGTCGCGATCAGCTGCGCGGTGCCGCCGAAGATCGTCACCGCGAGCGCATACGCGATCGAGATGCCCGTCGCACGCACGTGGCGCGGCAGCGACTCGCACATCAGCGCCATTTCCGATGCCGAGCCGAGCGAATAGAACAGCAGCATCAGCGCGGTCAGCGGCAGGATCACCGACAGCGTCGGATGATGGTTCATCAGCCAGAACGCCGGGAACAGCAGCGCGACCAGCACGCCGCGGCCGACGAAGATCGGCAGGCGGCGGCTGCCGAGCTGGTCCGACAGCCAGCCGAACAGCGGGCATGTGACCAGCATCACGCAGCCCGACGCGACGCCGACGAACATCGACAGCTTCATCGGCAGGCCGAGCGTATGGATCGCGTAGGTCGGCATGTAGAAGGTGAGGATGTAGGTCGACACCGTGCCGCCCATCACCGTGAGCATCAGCAGCAACACCGTGCGTGTGTGCTTCGAGAACAGCTCGCGCAGCACGCCGCGTTCGATGCCGTGATGGCGGTCTCCGGGCGCGTCGTCCGCGAGCCGGCGGCGCAGATACATCCCGACCGGCGCGATCAGCACGCCGACGAGAAACGGCAGCCGCCAGCCCCAGCCTTCCAGCGCGTCCTTCGTCATCGTGTTGGACAGCAACGCCGCGAACCCTGAACCCATCAGCGCGGCGCCGCCCTGCGTCGCGAGCTGCCAGCTCGCGCGGAACCCACGGCGCGACGTGCCGCCCTGTTCGAGCAGCGTCGACGTCGCCGCGCCGAATTCGCCGCCCTGCGAGAAACCCTGCAGCAAGCGCGCGAACACGACGAGCAGCGGCGCGGCGACGCCCACCTGCGCATAGGTCGGCGCGATCGCGATCAGGCCGGTGCCGAGCGCCATCAGCATGATCGTCAGGTTCAGCGCGGCCTTGCGCCCCTTGCGGTCCGCGTAGACGCCGAGCACGACGCTGCCGAGCGGCCGCGTGAAGAAGCCGGCGGCGAACGTCGCGACCGACAGCAGCAACGACGTGGTCGGGTCGCTCGACGGGAAGAACAGCTTGCCGATCAGCACCGCGAAGAAGCCGTACACGGTGAAATCGAAGAATTCCAGCCAGTTGCCGATCACGGCCGCGGCGATCGCGCCGCGCCGCGTGACGGCAGGCGCGCCCGGCGCGCCGGTGTCGGCGGCCTCCGCCGACGCGGGGTGCAGCGCGAGATGATCTTTCTGCATCGCTATCCTCTCCTGTCAATGCGGCCGGAAGCGCCGGCCGCCCGCCGCCGCCGCGATTACTGTCCGAGGTAACGCTCGACGAGGCGCGTCCAGAACGCCGCGCCGATCGGCAGGTTGCGATCGTTGAAGTCGTATTTCGGGTTGTGCACCATGCAGCCGTCCTCGCCTTCGCCGTTGCCGAGCCGCACGAACGAGCCCGGCCGCTGCTGCAGCATGAACGCGAAATCCTCGCTGCCCATCAGCAGGTCGGTCTGCTCGACCACGTGCGCATCGCCGACGAGTTCGCGCGCGACCTGCGCGGCGAAATCCGTTTCGGCATCCGTATTGACGACGACCGGATAGCCTTCGATGTACTCGACGTTCGCGCTCGCGCCGTAGCTCGCGGCCTGCGTTTCGGCCAGCTCGGTGATGCGGCGCTTGAGCAGCGCGCGCACTTCCGGGCTGAACGACCGTACGCTGAGTTCGAGGCGCGCGCCGTTCGGAATCACGTTGTTCGCGGTGCCCGCGTGCATCGAGCCGACCGTGACGACCGCCGGCTGCGACGGGTCGACGTTGCGCGCGACGATCGTCTGCAGCGCCATCACGATGCTCGCCGCGACGACGACCGGATCGACTGTCAGGTGCGGCCGAGCCGCGTGGCCGCCGACGCCCTCGATCGTGATGATCGCCTTGTCGCCGGCCGACATGAACGGGCCGCGCCGCGTGAGGAACACGCCGGGCGCCGCGCCCGGATGGTTGTGCATGCCGAACACGGCATCGCACGGGAAGCGCTCGAACAGGCCGTCGTCGATCATCTTCTTCGCGCCGCTGTCGACGCCGTGCTCTTCCGCCGGCTGGAAATACAGGTGGACGGTGCCCGAGAAGTTGCGCGTCTTCGCGAGATGCTGCGCGGCGCCCAGCAGCATCGTCGTGTGGCCATCGTGGCCGCACGCGTGCATCTTGCCGTGCGTGCCGCTCGCATACGGCAGGCCGGTCGCCTCGACGATCGGCAGCGCATCCATGTCGGCGCGAATGCCGATGCTGCGCGTGCCGTCGCCCACCCGCAACGTGCCGACCACGCCCGTCTTGCCGACCCCGCGCGTCACCTGCCAGCCCCATTGCTCGAGCTTGTCCGCGACGAGCGCGGCCGTGTCGTGCTCTTCGTACGCGAGCTCGGGATGATGGTGGATGTGGTGGCGGATCTCGCGCAGCCCGCCGGCGGCGGGCATCAGATCCTCGACTTCGGTGAAGCGGGTATTGGGGGTATCGGTGGTCATCAAGGGGCTCCTGCTGATTGTCAGCGTGTCTCGCACGCGGCGTTTGCATGCGGGAAAGCGAGCCACTATAGCCAGCCGATATCGGTTCAAGAAGATGCGGAATTTTTCACCGTGATAAGTGTTTTTAATCAGGGTTAGTACGGATGCGCCGGTCCGGCTTGTAGTTTTCGATTGGGTACCCGCTACTGCGGCGTAAGACTACTTCTTGATTGCACTCAACTGCCGATCGAAGTCCGCGGGATCGAAGTAGTCTCGCCAAACCGTGATTCGATCATCGACGATGGTCAGGGTACCCATCACGGGAAGCGTGATTTTTCCGCCTGATTCGTGTTGAAAGACGTCGATCCGCTCATTGAGGACGACGTTTCCCGCTGCGGCGATATGGGTCACCGTCCAGTCGACCTTGAACGTCGTACCGATCCCGAAGTCGCCGTGGAATTGGCGAACATTGTCCCGTCCAACGATGTCGGGGAACGGAACGTTGTCGTAGAGGACATCATCGGAGAGCATCGACAGCGCGTCGTCGATGCGGTTTTCGGTCCAAAGCGAAAAGAATCGAAGCGCCACGGCCAAAACATCGGTAGTCATCTCGGCTCCTCAAAATGGGGGGGAAAAGCAGGCGCGGGACATCGCGCACCAGCAGGTGCGCGATGTCCCGCCAGTCTTATTCTTGAACGAATGCCAGCAGTTCCGCGTTCAAGACACTCGCGTTGACGGTCAACATCCCATGGGAGAAGCCCGGGAACGTTTTCAGCTTGCCGTTCTTCAACAGTTTGATCGCCTTGAGCGCCGCGTCCTTGTACGGGACGATCTGGTCATCCTCGCCGTGAAGCACCAGCGTCGGCACGCCGATCAACTGGAGATCTTCGGTCTGGTCCGTTTCCGAAAACGCCTTGATACCCTCGTAGTGGGCTTGCGCGCTACCCATCATTCCCTGGCGCCACCAGTTCTGAATCACGCCCTGATGAACGGTCGCGTCAGGACGATTGAACCCGTAGAACGGGCCCGCGGGCACGTCTACGAAGAACTGCGCGCGATTTTCAGCGAGCCCCTTGCGTAGCCCGTCGAAGACATCCAGCGGCAGGCCTTCGGGATTCGATGGCGTCTTCAGCATCAGCGGCGTCACGGCGCTCACGAGAATGGCCTTTGCGACACGCCCCGTCGGCTCGCCGTGCCTCGCAACATAGCGCGCCACTTCGCCCCCGCCGGTGGAATGGCCGATATGCACGGCATGCCTGAGGTCCAGTGTCTCGACGAGCGCAAACGCGTCCGCTGCGTAATGATCCATGTCGTGACCTTCTGCGACCTGCGACGAGCGCCCGTGTCCGCGCCGGTCGTGGGCAATAACGCGATACCCGTTCGCCAGGAAGAAGAGCATCTGGGTATCCCAGTCATCCGCGGAGAGCGGCCAGCCGTGATGGAACACGATCGGCTGAGCGTCCCGGGGGCCCCAGTCTTTATAGAAAATGTCTACGCCGTCCCGCGTGGTAATGAATGACATGATCGTGTTCCTTTCGTACGGTTGCAGGGAAGTAACGGGTGCTGCGGAAGTCGTCGTCGCGGCCCGCGCGATCTCGCAGGGTGGTCGCCGGAATGCGGCCGGCAGGCGAAAAGCACGCCCGCGGGTGCCGTCCGATCTCGAGCCGCCTCAGGAAGGAGTGGTTACGTCGACGCCGCGAACGGGTAATCGATGTAGCCCTGCGCGTCTTGCGTGAACCATGTGGCCGGGTCGTCTGACGCGAGCGGAATCGCTTCGGCCAGACGCCGAGGGAAGTCCGGATTGGAAATGAACGGGCGCCCGAACGTAACGGCGTCGGCGACGCCCGCATCGAGTTCTGCCTGAGCTCGAGTGGCGTCGAAATCCGAGTTGAGCACCAGCGGTCCTTTGAAAGCCGGTCGAATTTTCGCCGCGAGCGGGTCGAGGTACCCGACGCCGAAACTGCCGTTCAGCGGAGGCTCGCGCAGTTCCAGGAACCCGATCCCTACCGCGGACAGCGCCTCGGCGGCCGCGATAAACAACGGCAAGGGATCGCTGTCGCGCACGCCCTGCGTTTCGCCGTTCGGAGACAGGCGGACGCTGGTACGGCCGGGACCCGCTACATCCGCGACAGCCCGGGTTGCCTGGATGAGCAGCCGGAGCCGATTCGAGATCGATCCGCCATACGCGTCGCCGCGGAAGTTGGCACTGTCTCGCAGGAATTGATCGATCAGATAACCGTTCGACGCATGCAACTGTACGCCGTCGAAGCCAGCCTGCAGCGCATTTCGTGCCGCGGCGGCGAACTGCTCGATGATCGCGGGAATTTCTTTTGTCTCGAGTGCGCGTGCCTGCGTGTAGGGCTGCTTGCCCGAGTAGGTATGAGCGTGGCCGGGCGCCGTCGTCTCGGACGAGGAGACAGGCGGTGCGTCATCCAGAAAGCTCGGATGCACGACTCGCCCCATATGCCACAGCTGCGCAATGATGCGGCCGCCCGCTTCGTGCACGGCATCGGTCACCGTGCGCCAGCCGGCAATTTGCGCAGCTGTCCACAGCCCGGTGGCGTAAGGCCATCCCAGGCCCTGCCGGGAGATGCCGATCGCCTCCGAGATGATCAGCCCCGCGGAGGCACGCTGACTGTAATAGTCCGCCATCATCGCGGTCGGTACGTGTTCGCGCGTTCCCCGCGCACGCGTCATCGGCGCCATGAGGATACGGTTGGGCACTTCAATCGCACCGAGTCGCAAGGGATCAAACAGCGTAGGCACCCCAACCTCCTTCTTGTTTTCGCCAACGTGGAAATGCCGGCAACGCTTCACCCAGTTCAGACGAGGCGAGCGCCGCCGTCGACATGAATCGTCTCGCCGTTCATCGATCCATTGCTCATGAGGAACACCACTGCCGCGCCCACTTCTTCGGCGGTTCCCAACCGATGCAACGGCAATTTGTCTTTCAATGCGTTGACGTACGCGTCACGACCTTCGCCGAGCGTGCGAGCGAGCAACGGCGTGTCGGTGGTGCCGGGCGAAACGGTGTTGACACGGCGAGGCGCAAGTTCCAGAACCAGCCCTCTGGCCAGCGCCTCCATCGCGGCCGATGCCGACGCAAGAATGGCGGTGCCATAGGCATTGGGTCGGTCGGCCAACACGCCGGAAATAAACGTGACGGAGGCATCGGCCGCCAGGCGGTCACCCAGCGCGCGCAAAGTATGGACGGCGGCCCAAACGCGCTC Predicted Gene Sequences: >PredictedProphage1 -Hit 1 CGGCACCACGCCGACGCCGGCCGGCGCCCAGTGCGCGAGCGCCCACGATTCGAATTGCGTGCCCGACTGCACGCCGACGCGCTTGCCGGCCAGCGACGCCGCCGTGCCGTCGAGCCCGCTGCCGGGCCGCGCGACGAGCCGCGACTTGAAGCGGAACAGCTTCGACGAGAACAGGATCTGCTTCTCGCGCTTCGCGGTGATCGCCATCGACGACAGGATCGCGTCGATCTTGCGCGC >PredictedProphage1 -Hit 2 CTGTCCCAGCTCCGCATCTTCCAGGCCGTCGTCGAGCACGGCAGCCTGCGCGCGGCCGCCCGCGCGCTCGATCTCGCGCAAAGCGGCGTCACGCAGCAACTGCAGGGCCTCGAGGCGACGCTCGGCGCGACGCTGTTCACGCGCACCAACCGCGGGATCGTGCCGACGGCCGTCGGCCAGCGGCTGCTCGCGCGTTCCGGTTCGATCCTCGGCGAATGCGAGCAGGTCGAGCGGGAAATCCGTCAGTTGAGCGGTGCCTACGAAGGCACCGTCACGCTCGGCCTCGTGACCGAGCCGCTGATCGACGCGTTCGCGCCGGTGCTGACCGCGTTCCGCGCGCGCTTCGACAAGGTGGACGTGCACCTG >PredictedProphage1 -Hit 3 GCCGACACCGGCGCGCCGGGCGCGCCTGCCGTCACGCGGCGCGGCGCGATCGCCGCGGCCGTGATCGGCAACTGGCTGGAATTCTTCGATTTCACCGTGTACGGCTTCTTCGCGGTGCTGATCGGCAAGCTGTTCTTCCCGTCGAGCGACCCGACCACGTCGTTGCTGCTGTCGGTCGCGACGTTCGCCGCCGGCTTCTTCACGCGGCCGCTCGGCAGCGTCGTGCTCGGCGTCTACGCGGACCGCAAGGGGCGCAAGGCCGCGCTGAACCTGACGATCATGCTGATGGCGCTCGGCACCGGCCTGATCGCGATCGCGCCGACCTATGCGCAGGTGGGCGTCGCCGCGCCGCTGCTCGTCGTGTTCGCGCGCTTGCTGCAGGGTTTCTCGCAGGGCGGCGAATTCGGCGCGGCGACGTCGACGCTGCTCGAACAGGGCGGCACGTCGCGCCGTGGGTTCCGCGCGAGCTGGCAGCTCGCGACGCAGGGCGGCGCCGCGCTGATGGGTTCAGGGTTCGCGGCGTTGCTGTCCAACACGATGACGAAGGACGCGCTGGAAGGCTGGGGCTGGCGGCTGCCGTTTCTCGTCGGCGTGCTGATCGCGCCGGTCGGGATGTATCTGCGCCGCCGGCTCGCGGACGACGCGCCCGGAGACCGCCATCACGGCATCGAACGCGGCGTGCTGCGCGAGCTGTTCTCGAAGCACACACGCACGGTGTTGCTGCTGATGCTCACGGTGATGGGCGGCACGGTGTCGACCTACATCCTCACCTTCTACATGCCGACCTACGCGATCCATACGCTCGGCCTGCCGATGAAGCTGTCGATGTTCGTCGGCGTCGCGTCGGGCTGCGTGATGCTGGTCACATGCCCGCTGTTCGGCTGGCTGTCGGACCAGCTCGGCAGCCGCCGCCTGCCGATCTTCGTCGGCCGCGGCGTGCTGGTCGCGCTGCTGTTCCCGGCGTTCTGGCTGATGAACCATCATCCGACGCTGTCGGTGATCCTGCCGCTGACCGCGCTGATGCTGCTGTTCTATTCGCTCGGCTCGGCATCGGAAATGGCGCTGATGTGCGAGTCGCTGCCGCGCCACGTGCGTGCGACGGGCATCTCGATCGCGTATGCGCTCGCGGTGACGATCTTCGGCGGCACCGCGCAGCTGATCGCGACCTGGCTCGTGAAGACGACCGGCAGCAAGCTCGCGCCGGCCGGCTACGTGGCCGCGTGCGTGGTGCTGTCGCTGATCGCGGTCGCGATG >PredictedProphage1 -Hit 4 CCGATCGTGTTCCATCACGGCTGGCCGCTCTCCGCGGATGACTGGGATACCCAGATGCTCTTCTTCCTGGCGAACGGGTATCGCGTTATTGCCCACGACCGGCGCGGACACGGGCGCTCGTCGCAGGTCGCAGAAGGTCACGACATGGATCATTACGCAGCGGACGCGTTTGCGCTCGTCGAGACACTGGACCTCAGGCATGCCGTGCATATCGGCCATTCCACCGGCGGGGGCGAAGTGGCGCGCTATGTTGCGAGGCACGGCGAGCCGACGGGGCGTGTCGCAAAGGCCATTCTCGTGAGCGCCGTGACGCCGCTGATGCTGAAGACGCCATCGAATCCCGAAGGCCTGCCGCTGGATGTCTTCGACGGGCTACGCAAGGGGCTCGCTGAAAATCGCGCGCAGTTCTTCGTAGACGTGCCCGCGGGCCCGTTCTACGGGTTCAATCGTCCTGACGCGACCGTTCATCAGGGCGTGATTCAGAACTGGTGGCGCCAGGGAATGATGGGTAGCGCGCAAGCCCACTACGAGGGTATCAAGGCGTTTTCGGAAACGGACCAGACCGAAGATCTCCAGTTGATCGGCGTGCCGACGCTGGTGCTTCACGGCGAGGATGACCAGATCGTCCCGTAC >PredictedProphage1 -Hit 5 TCAGACGAGGCGAGCGCCGCCGTCGACATGAATCGTCTCGCCGTTCATCGATCCATTGCTCATGAGGAACACCACTGCCGCGCCCACTTCTTCGGCGGTTCCCAACCGATGCAACGGCAATTTGTCTTTCAATGCGTTGACGTACGCGTCACGACCTTCGCCGAGCGTGCGAGCGAGCAACGGCGTGTCGGTGGTGCCGGGCGAAACGGTGTTGACACGGCGAGGCGCAAGTTCCAGAACCAGCCCTCTGGCCAGCGCCTCCATCGCGGCCGATGCCGACGCAAGAATGGCGGTGCCATAGGCATTGGGTCGGTCGGCCAACACGCCGGAAATAAACGTGACGGAGGCATCGGCCGCCAGGCGGTCACCCAGCGCGCGCAAAGTATGGACGGCGGCCCAAACGCGCTC Predicted Protein Sequences: >PredictedProphage1 -Hit 1 RHHADAGRRPVRERPRFELRARLHADALAGQRRRRAVEPAAGPRDEPRLEAEQLRREQDLLLALRGDRHRRQDRVDLAR >PredictedProphage1 -Hit 2 LSQLRIFQAVVEHGSLRAAARALDLAQSGVTQQLQGLEATLGATLFTRTNRGIVPTAVGQRLLARSGSILGECEQVEREIRQLSGAYEGTVTLGLVTEPLIDAFAPVLTAFRARFDKVDVHL >PredictedProphage1 -Hit 3 ADTGAPGAPAVTRRGAIAAAVIGNWLEFFDFTVYGFFAVLIGKLFFPSSDPTTSLLLSVATFAAGFFTRPLGSVVLGVYADRKGRKAALNLTIMLMALGTGLIAIAPTYAQVGVAAPLLVVFARLLQGFSQGGEFGAATSTLLEQGGTSRRGFRASWQLATQGGAALMGSGFAALLSNTMTKDALEGWGWRLPFLVGVLIAPVGMYLRRRLADDAPGDRHHGIERGVLRELFSKHTRTVLLLMLTVMGGTVSTYILTFYMPTYAIHTLGLPMKLSMFVGVASGCVMLVTCPLFGWLSDQLGSRRLPIFVGRGVLVALLFPAFWLMNHHPTLSVILPLTALMLLFYSLGSASEMALMCESLPRHVRATGISIAYALAVTIFGGTAQLIATWLVKTTGSKLAPAGYVAACVVLSLIAVAM >PredictedProphage1 -Hit 4 PIVFHHGWPLSADDWDTQMLFFLANGYRVIAHDRRGHGRSSQVAEGHDMDHYAADAFALVETLDLRHAVHIGHSTGGGEVARYVARHGEPTGRVAKAILVSAVTPLMLKTPSNPEGLPLDVFDGLRKGLAENRAQFFVDVPAGPFYGFNRPDATVHQGVIQNWWRQGMMGSAQAHYEGIKAFSETDQTEDLQLIGVPTLVLHGEDDQIVPY >PredictedProphage1 -Hit 5 SDEASAAVDMNRLAVHRSIAHEEHHCRAHFFGGSQPMQRQFVFQCVDVRVTTFAERASEQRRVGGAGRNGVDTARRKFQNQPSGQRLHRGRCRRKNGGAIGIGSVGQHAGNKRDGGIGRQAVTQRAQSMDGGPNAL Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig363 Genome size: 88728 Host's GC content: 67.70 Predicted Codon Position GC: 1st: 68.53 2nd: 44.98 3rd: 82.25 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig364 Genome size: 105780 Host's GC content: 66.80 Predicted Codon Position GC: 1st: 67.98 2nd: 44.74 3rd: 80.73 >PredictedProphage1 Length: 14566 Number of hits = 6 GC Coding First Second Third 66.97 67.44 69.82 48.42 84.08 Codon Usage: AA Codon Total Percent Leu TTG 5 0.0757575757575758 Leu TTA 0 0 Leu CTG 29 0.439393939393939 Leu CTA 0 0 Leu CTT 3 0.0454545454545455 Leu CTC 29 0.439393939393939 Lys AAG 19 0.863636363636364 Lys AAA 3 0.136363636363636 Glu GAG 16 0.551724137931034 Glu GAA 13 0.448275862068966 Gln CAG 18 0.782608695652174 Gln CAA 5 0.217391304347826 End TGA 0 0 End TAG 0 0 End TAA 0 0 His CAT 8 0.571428571428571 His CAC 6 0.428571428571429 Asn AAT 0 0 Asn AAC 10 1 Ser AGT 2 0.0555555555555556 Ser AGC 12 0.333333333333333 Ser TCG 12 0.333333333333333 Ser TCA 2 0.0555555555555556 Ser TCT 1 0.0277777777777778 Ser TCC 7 0.194444444444444 Trp TGG 4 1 Arg AGG 0 0 Arg AGA 2 0.0298507462686567 Arg CGG 10 0.149253731343284 Arg CGA 3 0.0447761194029851 Arg CGT 5 0.0746268656716418 Arg CGC 47 0.701492537313433 Ala GCG 47 0.573170731707317 Ala GCA 9 0.109756097560976 Ala GCT 5 0.0609756097560976 Ala GCC 21 0.25609756097561 Cys TGT 0 0 Cys TGC 4 1 Asp GAT 12 0.315789473684211 Asp GAC 26 0.684210526315789 Gly GGG 6 0.153846153846154 Gly GGA 2 0.0512820512820513 Gly GGT 3 0.0769230769230769 Gly GGC 28 0.717948717948718 Phe TTT 1 0.05 Phe TTC 19 0.95 Tyr TAT 5 0.555555555555556 Tyr TAC 4 0.444444444444444 Met ATG 10 1 Val GTG 20 0.408163265306122 Val GTA 2 0.0408163265306122 Val GTT 3 0.0612244897959184 Val GTC 24 0.489795918367347 Thr ACG 25 0.641025641025641 Thr ACA 1 0.0256410256410256 Thr ACT 0 0 Thr ACC 13 0.333333333333333 Pro CCG 14 0.666666666666667 Pro CCA 2 0.0952380952380952 Pro CCT 0 0 Pro CCC 5 0.238095238095238 Ile ATA 2 0.0952380952380952 Ile ATT 2 0.0952380952380952 Ile ATC 17 0.80952380952381 Left Right Strand Best Blast Hit Score Evalue 65652 66134 -1 ref|NP_076796.1|Orf17 89.0bits(219) 8e-17 71088 71462 -1 ref|NP_945089.1|gp58 43.5bits(101) 0.004 72797 72976 -1 ref|NP_758895.1|ORF2 38.1bits(87) 0.17 75752 75880 -1 ref|NP_047971.2|gp26 37.0bits(84) 0.37 76201 76512 -1 ref|YP_024964.1|putative prophage repressor protein 43.1bits(100) 0.005 79888 80217 -1 ref|NP_958267.1|hypothetical protein 37.0bits(84) 0.37 DNA sequence: CACCATGTAGTGCTCGTCGTAGAAGCGGCCATCGACGAACAGGGAGCGCGGTTCCGTGCCGAACCGCACGAACCCCTGCGATGCATAGAGCCGCTCCGCGGTACGGTTGACGTCGTTCACGCACAGCATCAGTTGCTTGCATCCCCACGCGTTCGCCGCATGCCCGGTCGCGCTGTCGAGCAGCGCCTGCGCGATGCGTTGCCCGCGATACGCGGCATCGACGTACACGCCCCAGATCGTCGCCTTGTGTGCGATCTTCGTGCGCGCGTCGCGGCGTACACCGGTGATGCCGACGAGCGTGTCGCCGTCGAACGCGCCGAACACGGCCTGTGCCTGCGTCGGCGTGAGGCGCTTCGCGAATTCGTCGACCGGCACCTGCGATTCCTCGTCGAGCGTCGGCAGGAAGGACGTGGGCGCGGTGTCGACCGCGCGCAGGCGGACGGTCTGGAACTGCGCCGCATCGGCGGCGTCAAGCAGGCGGATCGTGATCTTTATCGTCATCGGCAGCATTCCGGTTGTGGGCCGTGCATGCCGGCGCGCCGCTGCTGCGGTCGCGGGATGCATCGCCCTTATCGTAATAGGAATCCGGATGTCGCGGAGCGATGGTCGGTGCGTCGCAGGGGTAGCGGGCACGATCGTGAACGGAGAAGACAGGGATGGCGGCGCGTCGTGCCGCGATCAAGGAGGGCGCGCGTAAGGGGTGTAAAGCGCGTGCGCCGTCGCGCCGCACCGGCGCCCGACGTCAAACCGGCGACGTGCGCGCGATCAATTCACGCGCACGCCAGCGGCATCAATAGCGCGACAGTTGATTGCCGTTGATCTGCACCCGGTCGCCCGGACGCAGGTTGCCCGGCGACTGCACGTCGAACGAGCGCATCGAGCCGTCGCTCACCTGCACGTCGATCCGGTAGCTGCTCGGGCCTTGCGCGGCGCCCATCTGCTGGCCGATCTGGTTGCCCGCCACCGCCCCGCCGAGCGCGCCGATCACGGTCGCCGCATCGCGGCCGTGACCGCGGCCGAACTGGTTGCCCACCAGGCCGCCAACCAGCGCGCCGACGACGGTGCCGGCGATGCCTGACGGGGCGACCGAGCCGTTGACCGGCTGGATGTTCGACACGGTGCCGTACTGCGTGCCGTACGGGGTCGCGTATTGCTGCTGATTGCCGTACTGATCATACGGCTGCGAGCCGTATTGCGACGGGTTGCCGTATTGATCGTACGGCTGCGGCGCCTGGTTCGGATACGCCGGTTGCTGCTGCACGTAGCCCGGTTGCGAGTACGCGGGCTGCCCATAGCCGGGCGTCGCGTATTGCTGCTGTTGCGAATAGCCCGGCTGTGCGCCGTAGTAGCCCGGCGCGACGCAGGCAGTGAGCGGAAGCGCCGCCACGGCGACGAGCGAGGCGAACAGAACGGTCTTCGTGGAAGGCATGCGCATCATGATGATTCCTGCATCGGCAACGTGTCCGCCGATGGATTCCCGTGATGGGTGGCGAACTCGGCGTGAGTATAAGGAATGGCCGGATGCGCGTCCGGTGCGGCCGGGTAACAACGTGTAAAGTCTGTTGCCGCGTAAATCCCCGGTGGGGCGGGGCGTCGAAGCCGTGCGCGGCAAGGACATGGCGCGGCTTCCCGGCGCACGCGTGCCGACGACGCGACCCGTGCATTGCCGAAGACATTTCGGCCATTTCCTCGACGATCGCGCCCCCGTCGCGCCCGGCCCGGCAGGCTTCCGCGCCGCGCATCGCGAAATCGAATGCGCGGCATCGCGACATTTAATTGGCCTCGGGCGGCAGCGTTCGATATCGTGGCCGGATTCCCTGCCAACGGTCGCGCCGCGCCGGCCGCGGTCCTTCCTCGATCCGCGCCGGTGTCGCGCCGCGACCGCCCCACATTCGAAGCCATGACCGAACGACTCTTCATCAACGCCCGCGACGCCGGCGGCCAGCTCGTCAACCTCGTCGTCCGCGACGGCCGCTTCGCCGCGATCGGCGCCGATTGCACAGCCGCGCCCGGCGCGCAGACGATCGACCTCGACGGCCGCGTCGTGCTGCCCGGTTTCGTCGACGGCCACATCCATCTCGACAAGAGCTTCGTCGGCGATCGCTGGGTGCCGCACGAACCGGTCGGCTCGCTGCGCGAGCGGCTCGCGGTCGAGAAGCGCCAGCTCGCGGCCGCGCCGCCTACCGTCGAGCGGGCGAATGCGCTGATCGCGCAGGCCGCCGCGTTCGGCACGATCGCGATGCGCAGCCACGTCGACGTCGATGCGACGACGGGCCTGTCGAACCTGCACGCCGTGATGGCCGCGCGCGAACAATGGCGCGGGATCGTCGACATCGAACTGGTCGCGTTTCCGCAGGCCGGCGTGATCACCTGCCCGGGCACCGCCGAGATCCTCGACGCGGCCGTGCGCGAAGGCGCCGACGTGGTCGGCGGGATCGACCCGACGACGCTCGACGGCGACGCGGATGGTCAGCTCGACATCGTGTTCGGCATCGCCGAGAAGCGCGGCGCGAAAATCGACATTCACCTGCACGAACCGGGCGACACGGGCATCGCGCAACTGCTGCGGATCGCGGCGCGCACGCGCTCGGCCGGGCTCGCCGGGCGCGTGAACGTGAGCCATGCATACGCGCTCGGCCAGGTGAGCGACGACGACGTGCAGCGCACCGCTGCGGCACTGGCCGAAGCCGGCGTGTCGATCCTGACGAATGCGCCGGGCGACTGCGCGTTTCCGCCGGTGCAACGGCTGCGCGACGCGGGCGTGCATGTGTTCGCGGGCAACGACAACATTCGCGACGCGTGGTGGCCGTACGGCAACGGCGACATGCTGCAGCGTGCGATGATGGTCGGCTACCGGTCGGGCTTCTACACGGACGAAGAGCTCGGCATCGCACTCGACATGGCGACGCACGCCGGCGCGCGCGCGATCGGCAAGGAGAACTATGGAATCGCGGTCGGCTGCGACGCGAGCTTCGTCGCGGTGCGTGCGCCGAACGCGGCGGCGGCCGTCGCCGGCGTGCCGGCCGAACGCTGGGTATTCCGCCGCGGCGAAAGCGATACGGACGCACCGTTCGCGCCGTCGCTGCGCTTCACGCGCTGACCCACTCGACCGGCGGCACGGCCCGCGCCGTGCCTGCGTTGCACTGACCGACCCGACTGGAACCGACATGACGAACCTGCTGATCCGCAATGTCCGCACGAGCGCCGACGCGGCGCTCGATATCCTGATCGAAGGCGATCGCATCGCGCGGGTCGGCCCGGCGCTCGATGCGCCCGCCGGCTGCGCGATCGAGGACGGTGCGCTCTCGTTGGCGTTGCCTGGCCTCGTCGAGGGCCACACCCACCTCGACAAGACCCACTGGGGGATGCCGTGGTATCGCAACCAGGTCGGCCCGCGCCTCGTCGACCGCATCGAGAACGAACGCCACTATCGCGCGACGAGCGGCCACGACGCGGGTGCCGCGTCGCTCGCGCTGGCGCGCGCGTTCCTCGCGGCCGGCACGACGCGCATCCGTACGCACGTCGACGTCGATACCGAAGCCGGGCTGCGCCATTTGCACGGCGTGCTCGCGACGCGCGAGACGCTGCGCGGGCAGGTCGAGATCCAGATCGTCGCGTTTCCGCAATCGGGCGTGCTCAAGCGGCCGGGCACCGATGTGCTGCTGTCCGACGCGCTCCGCGCTGGTGCCGACCTGCTCGGCGGGCTCGATCCGTGCGCGATCGAAGGCGATCCGGTCGAGGCGGTGGACGTGCTGTTCGCGATCGCCGAACGCCACGGCCGCGGGCTCGATATCCATCTGCACGAGCGCGGGTCGATGGGCGCGTACTCGCTCGACCTGATCCTGCAGCGCACGGCGGCGCACGGGATGCACGGCAAGGTCACGATCAGCCATGGTTTCTGTCTTGGCGATCTCGCCGAACGCGAGCGCGACGCGCTGCTCGCGCGGATGGCCGAACTTGGCGTCGCGATCGTCACGACCGCGCCGGCCGCGGTGCCGGTGCCGCCGGTGGCCGCATGCCGTGCGGCGGGCGTGACCGTGATCGGCGGCAACGACGGCGTGCGCGACACGTGGACGCCGTATGGCTCGCCGGACATGCTCGAACGCGCGATGCTGATCGGCATGCGCAATGATTTCCGCCGCGACGATGCGCTCGAAGTCGCGCTCGATTGCGTGACGCACGGCGCGGCGCGCGGCTGCGGTTTCGCGGATTACGGACTGCAGCCGGGTAGCCGCGCGGACGTCGTGCTCGTCGATGCGCTGACGTTCGCCGAGGCCGTCGTCGCTCGGCCGGTGCGGCGGCTCGTCGTGTCGTCCGGAAAAATCGTCGCGCGCAACGGCGCGCTGGTCTGAGCGCCGCGTCGCCCCGGTATGATCCGGTTTTCAGCCGGATTTCCGGGAGACGACGATGCGACGCACGACCGCGGCACGGGCCGCACGATGGATGGCGGCGGCCCTGTTCGCCGTGACGGCCGCGCATGCGGTGGCGGCCGGCCCGGCCGACGCGCAGCAGGAAGCCAACCGGCGCACGGTGCTCGCGTTCTACGAGAAAGGGCTGAACGAGAAGGATGCGGACGCCGCGCTCGCGTATGTCGGCGATCGCTACGTGCAGCACAACCCGAACGCGGCCGATGGTCGCGACGGCTTCCGCAAGTTCGTCGCGTTCCTGCGCGATAAATATCCGCAGTCGCACAGCGAGATCAAGCGCTCGTTCGTCGATGGCGACTACGTGATCCTGCACGTGCACGCGGTGCGCGAACCGGGCACGCGCGGCAGCGCGATCATGGACATCTTCCGGCTCGAACACGGCAAGATCGTCGAACACTGGGACGTCAACCAGCCGGTGCCCGAGCAGGCGGCGAACGGCAATACGATGTTCTGATTGTTCTGATTGTTCTGATGCGTGTAGTGCGCGGCGCCCCTGTGCGCCGCTTCCGTTTGCAATCCGCTTCGCCTACCGCTCTTCGAGTTCCAGCATCGCCGCAAGCGCCTTCGTCAACGCGCTGACCATCGGGTCGGCCGTCGGCCGGTGCAGGATCGCGATGTCCATGTGCTCGATCGGCGCGAAGCCCTGCTTCGCGGTCAGCACCACGTGCTCGTCGGTCACCACGCGCGCGGGCAGCACGCTGATGCCGAGCCCGTCCGCGACGGCCGCCTGGATGCCGCTCAGGCTCGACGTCGTGAAGCTGATCCGCCAGCGGCGGCCGCGCTCCTCGATTGCCTTGATCATGTCGTCGCGATAGAGCCCGCGCGGCGGGAACACGACGATCGGCACCGGGTCGAGATTGATCGACGGATGCTTCGCGCTGTCGATCCAGCGCAGCTTCTCCGGCCAGCGCACGACCGCCTCGCGGCTGTCGCGCCGCTGCTTGATCAGCACGAGGTCGAGTTCGCCGCGATCGTACGCGGCGCTGATGTCGCGGCTCAGCCCGCACGTCACTTCGAGCTTCACCTGCGGATGCTCGCGCTTGAACGCCGCGAGCGCATGCGTCGTGCGGCCCGCGGCGAAATCGTCGGGTACGCCGAGCCGGATCGTCAGCGCGACCGTCGCACCCGACAGCGCCTCCAGCATCTCGTCGTTCAGCGCGAGCATGCGTCGCGCATAGCTGAGCACCGTCACGCCCGCGTCGGTCGGCCGCACGTCGCGCGCGCCGCGATCGAGCAGGCGGTGGCCGGCGATTTCCTCGAGCCGGCGCACCTTCTGGCTGACCGTCGACTGTGTCGAATGCAGGCGCGCGGAAGCGGTCGTGAAACTGCCGCAATCGGCGACCATCACGAGCGCGCGCAGCAGGTCGATGTCGAACAGGGGTCTATTCATTTCTGCACTTCTGTGGATTCGGGCATTTCATTTTCAAATGCGTGCGATGACTTTTAACATGGCCGGACATCGCGGGCAATCGCGGTTTCGCCGGACTTGGGAGTGGTGTTTGGCGGGATTTTGAGGCGCCAGACGACATCCAATGGATGACGCTCGCGCACAGCGCCGATCTGCGCAGCCCGATCCGCTATCGCTGCACCGCGTGGATTCCGGCGGCCGAACGCGGTCGTGCTCGACGACGCGGCGAACGGGACGTGCGGATCGAACGGCGTGACGCCGCTGCCGCCCGCGCGACGGCGGGTATGGGGCGAACGAGCGGGCTGGTGGCGGGGCGCAGTAGGTTTAGCGGCGGCGCGATTTGGGTTCCGGCGTGCCGCCGGGGAGTTTTCGCAGGAATGCGTCGGCGAGTTCAACACAATAGTCGAACGACGGCGTGTAGCCGAGTGTCCGGATGTCGTCGAAGCGCGGTTGAACGAAGGCACGATGCTCGTTGAGCAGACGCAGAAACGTGTCGCGATGCCGAACGAGGAACGCACCGGCGTCCATCAGGCTTTCCGGCTCCCGCTCGATGACCAGGCACAGATCGAACAGGTCCCGGGCGGTCGGACGATCGCCGCGGTGCCACATTTTCTTGGCGACGATTTCCGCGGAAGTCTCGACCTTGACGACGCGATCCATCAGCATCCATTCGTCGTAGCCGGGAGACGTCAGATTCCGGGAGACCACGAAGTCGATTTCGCCGTCGGGCAGCATCAGCTTCACGAACCCGGCGTGTTCCTCATAATTCGGCGTGATGTCGGACGCGGCATCGCTGATGCGAGGGTTCACGTACCCGAGATACTGCGGATCGGGTACGAAGATGTCGACGTCCTTGCTGACGCGATGGCCGTGGCGCAGCATGAGGACGGTGCCTCCGCCAAATGTCCAGAACGGACTCGACGTGCCGTGCTTCCGTATCTCTTCGATCAGTGTCAGTGCGTGGCGAAAAAGACCCTGCCACGGGCCGTCGGGCAAAGTGGATGGTACGGTCATGCCCATACTTCCCGATACAGATGAAGGTCCTTCGACCAAGCGGCAAGATTTTTCCAGATAGTCCGAAGCGGGGTGCCCGAGCGCTCGGCGGCTTCCTCGGCCGCCTTCACCACGACAGGCAGCGGCACTTCGTCGAGGATGACGGAGAACTGTGATTCGTACCCCTCCGGAATTCGTCCCGTGGTCAACGCATCGGCCAGCAGTCGTTCGGTCAGTTCACCCTTGTAGCTGACGTTCGCGCTCACGACGGCTTTGTAAAGACCGTTTTGAGCCTGTCGCGGCAGTGCCAGAAGTTCAATGCCGAGCACACTGAGCAACGGGATGAGCTTGTTGATACCGAGATCCTTGACCTTGCCGGATTCGAGCTGGTTGACGGTAAGGCGAGACAACCCGGCGAGCTTGGCAAGTTGCGCCTGCGTGAGGTCGAGTTCGGCCCGCCGTTTTGCGACGGCCTGTCCGATTTCATAGAGTTGCATGGCGACCTCCCGACGAAGGTTGGGTGCTCTTCAATGTAAGCTATATCTTACATCTTGAAGCGCGATATTGGTGTTGAAAAATTCCATCGCAGTATAGGTCGCATTGCCGGTAGGTTCGATGGAACTGCGGGAAACTCATCGCCGTGGTGACCGGTGTAGATCACTTCCTCTCGTTAACATTCGGAAAGCGCATTCTGTGTCAGGTATGGATCGCGCGGGGTAAACACCCGAAAATTCCTGGAAAATCTCACAATTGAGCATCGCCTCGCCTCTCGGTTTCGATCTTCTCTCAATCCGCCGCCCCTCCCGTATTTCCCCGCTTGCGCTCAAAAATCAAGCAGTCTAGACTGCATCGCAGTTTCATCGAAGTCCGTCGTCTTTCACGCCCCGCGCCGCCCCCCCGTCGCGACGCCCCACCGGACGCCGGCATCGCCCGCCGCGTCGAGACTTTCAAGGACCCGCCATGAACCGCACCGCAAAGCTCTTCGCCACCGCGCTGGCGTTCGCGCCGCTCGTGTCGTTCGCGCAGGATACGGCGACGATCCGCTGGGGTATCGACCCCACCTATCCGCCGTTCGAGGCGAAGCAGCCCGACGGCTCGCTCGCCGGCTTCGACATCGACCTGCGCAATGCGATCTGCGAGCAGCTGCATGCGAAGTGCGTGTGGGTCGAGCAGGGCTTCGACGGGATGATCCCGGCGCTGCGCGCGCGCAAGTTCGACGTGATCATGTCGGCGATGACGGCCACCGACGAGCGGCTCAAGCAGATCGACTTCTCGAACAAGCTGTATGCGTCGCCGGGCGCGCTCGTCGCGCCGGTCGGCTCGAAGCTGCTGCCGAGCGCCGCGTCGCTCGCCGGCAAGCGCATCGGGATCGACCAGGGCACGACGCAGGAGGCGTACGCGAAGGCCGAATGGGCGACCAAGGGCGTGACGATCGTCTCCTACCAGAATCAGGACCAGGTGTACCAGGATCTCGTCAACGGCCGCCTCGACGCGACCTTCCAGGACAAGACGCAGGCCGGCTACTCGTTCCTGAAGACGCCACGCGGCAAGGGCTACGCGTTCGCGGGCCCGGACGTGACCGACGCGCGGATCACCGGCTACGGCGTCGCGATGGGCATACGCAAGGGCGACGCCGACATGAAGAAGCGGCTGAACGACGCGATCGTCGCGATTCGCGCGAACGGCACGTACCAGAAGATTGCCGCGAAATACTTCGACTTCGACATCTACGGCGCGAAGCAGCAACTGACTTCGGCGCCGTGACCCCGTGACTCATTCGATCGACAGGCACACCATGACGAGTATCCAGGAGCGCGTCGCGCAAGCCGTGACGCCCGAACTGATCGCCGCGTTCCGCGAGGAAGGCGCGGTCTGCATCAAGGGCATTTTTTCGCCTGACGAAGTGGCCGCGCTGCGGGCCGGCATCGACGCGAACCTCGCGCAACCGAGCGAACGCGCGAAAGTCGCGAGCCGGCCCGACGATCCGGGCTGGTTCTTCGAGGATTTCTGCAACTGGCAGCACAACGACGCGTATCGCGATTTCATCGTGCGCTCGCCGGCGCCGTCAGTCGCCGCCGCGCTGATGGGCACCGACCACGTGCGGCTGCATCATGATCACCTGCTCGTGAAGAAGCCCGGCACGCGGCAGCGCACGCCGTGGCATCAGGACCAGCCGTACTACGACATCGAAGGCGACGACAACGTCAGCATGTGGATTCCGGTCGATCCGGTGCCGCTCGAATCGACGCTGGAATTCGTCGCGGGCTCGCATCGCGGGCCGTGGCTGATGCCGCGCACGTTCATGGACAAGGAGGCGAAGTGGTTTCCGGAAGGCAGCCTCGCCGACCTGCCCGACATCGAAGCCGACCGCGCGGCCTTCCCGATTCGCCGCTGGGCGCTCGAACCCGGCGACATGGTGTGCTTCCGGATGCTCACGCTGCATGCGTCGGGCGGCACGCAGAACCGCCGCCGTGCGTTCTCGATCCGCTTCGTCGGCGATGATATCCGTCACGCGCCGCGCCGCTGGAAAACGTCGCCCGATTTCCCCGGGCTCGCGGCGCAACTGGCCGACGGCGCACCGCTCGATCATCCACTGTTTCCGGTGGTGTGGTCGCGCGACGCGGGGCAGGTCGGCGCGATCTGAGCAGCGCAGGTAACGAATACGGCGGCCGTTTCATGACGAAACGGCCGCCGTGCGTTGAGGGGCTTGCGACGAACGATCAGGTCGGGTGGCGCCCCGCGCCTGGCTTGAAGCGCGAACCGAGCCGGTAGCGGTTGCCCGGATGCAGGAAGTGCACGAACGTGACGGGCAGCCCGTCCGTCCATGTGCGGCGCGTGAGCGTCAGGCACGGCTCGTCGGCGCGCATGTCGAGCAGCCGCGCCTGCTCGCTGGTGGGCAGCGACGCGTCGACGACGTGCTCGATTTCAAGTTCGTAGTGCGACACGTTGTTGTACAGGTACTCGGACGGCGGCTCGGTCTGGAAATCCTGGTCGATGAAGCCGGGCGCGGCGGCCGGGTTCACGTAGCGATCCTCGAGCTGAATCGGGCGGCCGTTTTCCTCGTGCACGCACACCACGTGAAAGACCGGCGTGTTGACCGGCAGGCCGAACGCGGCCGCGACGTCGAACGACGCGGGTTCGCTCGACTGGCTCAGCACGCGGCAGCGATATTCGTGCCCGCGCGCGCGGATTTCGTCGCGGATGTGCGCGATCATCAGCAGGTTCGACTGCGGCTTCACCTCGGCGACGAAGGTGCCGACGCCTGCGGTGCGCTTGAGCACGCCTTCCTCGGTCAGCTCACGCAGCGCGCGGTTGACCGTCATGCGTGCGACGCCGAACTGCGCGGCGAGATCGAGCTCGGACGGAATGCGGTCGCCGGGGCGCCAGTCGCCGGACTCGACGTTCTGACGGACGAGCGTCTTGATCTGCTGGAACGGTGCGGTGGCCTTGGTGACCATCGGAAGATCCTTGCGCGAAAAAGTGACGAGAAGTGACGAGGCTAGTCGTCGTGGCTGACGATGACCAGGATCTCCGCCTGCGCGGTGCCGAGGCTGCGCGTGCGGTGCGGGATCAGTGCGTTGAAATAGACTGAATCGCCGGCCTTGAGTTGCACCGTCTCGTTCGGAAATTCGATTTCGATGCGTCCCTTGTGTACGAACAGGAATTCCTCGCCCTCGTGCTCGCGGAACGTCGATGCGACGAATTCGTGCGGCGGATGCACGACGAACGGCAGCATTTTCTTCGGCGCGACGCCCGCTGCGATGCTTTCGAAGCGATGCGCGTGGCTGTCGGCCGCCGCCCCCATTGCCGTGCGCTCGCCGGCGCGCGTGACCGTGATCAGTTCGCGGTTGCGGCTTTCCGAGAACAGTTGCTCGACGTCGACGTTCAGCGCCTTCGACAGCTTCAGCGCGACCGCGATCGACGGCACGCTCAGGCCGCGCTCGACCTTCGACAGGTAGCTCTTGGTGAGGCCGGTCTCGTCGGCCAGCACGTCGAGCGTCCAGCCCTTCTGTTTTCTGAGCAGCTTCAGGCGAATCGTCATGGGGCGCCAGGTGTCCTTCGAAAAACCGATTGTAACGCATGACACAAAGTGTCATTCGGTGTATCGTGTGTCATTCGTGATCGGGGAAACGGCCGCGGACGGCGCGGCAGACCCGGTTCATTCAGGAGGCGAACATGGCGGAAACGCTGAATTTGACGAAGGAAGCGCTGGTCGCGCTGGCAGAGCGGCGTCTGGAAAACGAGGTGGGGGACAGCGGCTGGTCCGCGCGACAAAAGCTTGCGCTGACCTGCCGGATTTTGTTCGACGCCGGCCACGACTCGGGCCTGGCCGGGCAGATCACCTGCCGCGCGGACGCGGCCGGCACGTACTACACGCAGCGGCTCGGGCTCGGCTTCGACGAGATCTTGGCCGCGAACCTGCTGCGCGTCAACGAGGATCTCGACGTCGTCGACGGCGATGGCATTCCGAACCCGGCCAACCGGTTCCATACGTGGATTTATCGCGAACGCCCGGACGTGAACTGCATCATCCATACGCATCCCGCGCATGTCGCGGCGCTGTCGATGCTCGAACAGCCGCTCGTCGTGTCGCATATGGATACCTGCCCGCTGTACGACGATTGTGCGTTCCTGAAGGACTGGCCGGGCGTGCCGGTCGGCAACGAGGAGGGCGAGATCATCTCGAAGGCGCTCGGCAGCAAGCGCGCGATTCTGCTGTCGCATCACGGTCAGCTCGTGGTCGGCAAGACGATCGAGGAGGCGTGCATTCTCGCGCTGTTGATCGAACGCGCCGCGAAGCTTCAACTGCTCGCGATGTCGGCCGGCGAGATCAAACCGGTGCCTCCGGCGTTGGCGCGTGAGGCGCACGACTGGATCTCGAAGCCCAAGCGCGATGCGGTGACGTTCGACTACTACGCGCGCCGCGCATTGCATACGCATCAGGATTGCGTCGCGTAAGCGAGTGCACCGTTCCGATCTTTTTAGTCAATCATTGAGGAATACCAATCGTGTCCATCCTGTTGAAAGGCATCATTGCCTACCCGGTCACGCCGTTCTCCGCCGACGGCGACGTCGACCTGACAGCGCTCGATGCGCTGATCGAACGCCTGATCGCCGACGGCGTTCACGCGATCGCGCCGCTGGGCAGTACCGGCGAAAGCGCCTACCTGTCCGACGCCGAATGGGAGGCCGTCGCTACCGCGTCGATTCGCGCGGTGCGCCGGCGCGTGCCGACCGTCGTCGGAATTTCCGATCTCACCACGGCGGGCGCGGTGCGCCGCGCCCGCTTTGCCGAGCAGGCCGGCGCCGATGCGGTGATGGTGCTGCCGGTGTCGTACTGGAAGCTCGGCAACGACGAGATCGTCGCGCACTACCGTGCGATCGGCGACGCGATCGGCATCCCGATCATGCTGTACAACAACCCGGCGACGAGCGGCGTCGACATGTCGCCCGAGCTGATCGCGACGATCTGCCAGACCGTCGACAACGTGACGATGGTGAAGGAAAGCACCGGCGACATCGGCCGGATACACCGGCTCGCGCAATTGAGCGACGGCACGATCCCGTTCTACAACGGCAGCAATCCGATGGCGCTCGCCGCGCTGGCCGCCGGCGCGGCCGGATGGTGCACGGCCGCGCCGAACCTGAATGCCGCGTTGCCGCTTGCGTTGTTCGACGCGATGTGCGCGGGCGACCTCGCGCGCGCCCGATCGGTCTTTCACGCGCAGTTGCCGTTGCTGCAGTTCATCGTCAACGGCGGGTTGCCGGTGACCGTGAAGGCCGGGCTGAGGCTGCGCGGCTTCGACGCCGGCGAACCGCGGCGACCGCTGCTGCCGCTCGGCGACGCACGCACACGAGAACTCGAGCGCCTGCTCGCGGCGCTGCCGGACGGTGTGGCGGCATGAGCGCCGACGCACGGCTGGCGATCGCGGTCGCCATCGGCGCGGTGCGGATCGGCGTGAGCCGGCCGCTCGCCGGCACACCGCACGCGAGCGCGATCGACAAGCAGCCGGTGGACGCACGCCTGTGGCTGGGCGCGCTCGGCTTTGCCGGCGACCAGCAGGCCGATGCGCGGCATCACGGCGGCCCCGACAAGGCCGTTCATCATTATGCGCATGATCACTATCCGTGGTGGACCGGGCAGATCGGCGCGCGCGACGTGCTCGCCCGGCCGGGTGCGTTCGGCGAGAACCTGTCGACGCGCGGCATCACCGAGCACGACGTGTGTCTCGGCGACGTGTTCACGCTGGGCGGCGCGGTGCTCCGGGTGTCGCAGTCGCGGCAGCCGTGCTGGAAGCTCAACGCGCGTTTCGATCATCCGCGGATGGCGGCGCTCGTGCAGCACAGCGGCCGGACCGGCTGGTACTACCGCGTGCTGCAGGAAGGCTGGGTGGCGGCGGGCGATGTGCTGGCGCTGCACGAGCGCCGCTACCCGGAATGGCCGCTGTCGACGGTGCTCGACGTGCTGTATCGACGCACGCTCGACATGGCCGCGCTCGATGCGCTGTGCGACGTGCCGCTGCTGCCGCCCGGCTGGCGCAAGATGCTCGAAAAACGCCGGACCGGGCGGCAGGTCGAAGACTGGACGAAGCGGCTCGAAGGATGACGGGCCGCGTCCGGCGCTTACTTCGTCGGCAGGTTGCGCACGTCGGCCGTCGGCTCGGTACCGAACACATCGCTCAGCGCATAGCCGATCAGTTGCCGGGCGGTCGCCTCGGGCGTGGCGAGCGCGCCGCTCGACTTCAACTGGTCGAATTTCTCGCGCATCGGGAAGTTGTCTTCGCCGGTCGCGCGGATCGTGGCCTGCATGCCCGTATCGACGACGCCCGGTGCGACGCTGCAGATCCGCAGCGCGCCGTTCGCGTCGAGCGCGACCGCGCGCGCATGATGATCGAGCGCGGCCTTGGTCGCGCAGTAGATGCTCCAGCCGGCATACGCATTGCGGGCCGCACCGCTCGACAGGTGCACGATCCGGCATTCGGTCGCGGCCGAGGCGGCTTGCGCGAGCGCGGCCGACAGCATCAGCGGTGCGGCGACGTTCAGGCCGACCGCGCGGGCGACGATCGCCGGGTCCTGCGCGGCGAGCGGGCCGATCGGGTCGACGATGCCCGCGTTGTTGAACAGCAGCACGAGTGACGCGCCGTCGACGAAGCGGCGCAGCGTGTCGCCGGCCAGCCAGCTCGCAATGGTCTTCGAGTCCGACAGGTCGAGTTCGACCTCGGTAAAGCGCTCGCCGGCCTGTGACGCGAGCGACGGATGACGGCTGCGCGACACGCCGAGCACGGCGATGCCTTCCTGCAGGAGTTGTTCGGCGAGCGCCGCGCCGACGCCGCGGGTGTGTCCGGTGACGATGGCGCGCACGGGTGCGGAAGAGGATGCAGTCATGGTGGTGAACGGGTGAGGGGGTGAGCGGGTTTGACGAGCGGTGCGCACGCACGGCGGCAGCGCATTCAACGCGGGTGATGCGTGGTATCGGCGTGCGAAAGCGGTCGTGTGCGGCGCCGCTGATATCGGGATGAACGTCTATCGTAGCGCCGGCATGCGCATCGCGCAAACGCCCGGCGCGCGCGAAGGATGAAGCTGCGGTGCCGCGCACGCGCATCGCAGCGATGCGCCGCACGCTATCGCGCGCGCCGCTACGTCGGACGAAAACCCGCTGCGGCAAGTCCGCATGCTGCTGCGCCAAGCGGCGCCGGGCCGTGCGTCGCGAGCTATCATATGGCTCGCCCGTGCGCGA Predicted Gene Sequences: >PredictedProphage1 -Hit 1 ATCCGCCTGCTTGACGCCGCCGATGCGGCGCAGTTCCAGACCGTCCGCCTGCGCGCGGTCGACACCGCGCCCACGTCCTTCCTGCCGACGCTCGACGAGGAATCGCAGGTGCCGGTCGACGAATTCGCGAAGCGCCTCACGCCGACGCAGGCACAGGCCGTGTTCGGCGCGTTCGACGGCGACACGCTCGTCGGCATCACCGGTGTACGCCGCGACGCGCGCACGAAGATCGCACACAAGGCGACGATCTGGGGCGTGTACGTCGATGCCGCGTATCGCGGGCAACGCATCGCGCAGGCGCTGCTCGACAGCGCGACCGGGCATGCGGCGAACGCGTGGGGATGCAAGCAACTGATGCTGTGCGTGAACGACGTCAACCGTACCGCGGAGCGGCTCTATGCATCGCAGGGGTTCGTGCGGTTCGGCACGGAACCGCGCTCCCTGTTCGTCGATGGCCGCTTCTACGACGAGCACTACATGGTG >PredictedProphage1 -Hit 2 AGACCCCTGTTCGACATCGACCTGCTGCGCGCGCTCGTGATGGTCGCCGATTGCGGCAGTTTCACGACCGCTTCCGCGCGCCTGCATTCGACACAGTCGACGGTCAGCCAGAAGGTGCGCCGGCTCGAGGAAATCGCCGGCCACCGCCTGCTCGATCGCGGCGCGCGCGACGTGCGGCCGACCGACGCGGGCGTGACGGTGCTCAGCTATGCGCGACGCATGCTCGCGCTGAACGACGAGATGCTGGAGGCGCTGTCGGGTGCGACGGTCGCGCTGACGATCCGGCTCGGCGTACCCGACGATTTCGCCGCGGGCCGCACGACGCATGCGCTCGCGGCGTTCAAGCGCGAGCATCCGCAGGTGAAGCTCGAAGTG >PredictedProphage1 -Hit 3 ATGCAACTCTATGAAATCGGACAGGCCGTCGCAAAACGGCGGGCCGAACTCGACCTCACGCAGGCGCAACTTGCCAAGCTCGCCGGGTTGTCTCGCCTTACCGTCAACCAGCTCGAATCCGGCAAGGTCAAGGATCTCGGTATCAACAAGCTCATCCCGTTGCTCAGTGTGCTCGGCATT >PredictedProphage1 -Hit 4 GTCGAGTCCGGCGACTGGCGCCCCGGCGACCGCATTCCGTCCGAGCTCGATCTCGCCGCGCAGTTCGGCGTCGCACGCATGACGGTCAACCGCGCGCTGCGTGAGCTGACCGAGGAAGGCGTGCTCAAG >PredictedProphage1 -Hit 5 CGCCTGAAGCTGCTCAGAAAACAGAAGGGCTGGACGCTCGACGTGCTGGCCGACGAGACCGGCCTCACCAAGAGCTACCTGTCGAAGGTCGAGCGCGGCCTGAGCGTGCCGTCGATCGCGGTCGCGCTGAAGCTGTCGAAGGCGCTGAACGTCGACGTCGAGCAACTGTTCTCGGAAAGCCGCAACCGCGAACTGATCACGGTCACGCGCGCCGGCGAGCGCACGGCAATGGGGGCGGCGGCCGACAGCCACGCGCATCGCTTCGAAAGCATCGCAGCGGGCGTCGCGCCGAAGAAAATGCTGCCGTTCGTC >PredictedProphage1 -Hit 6 TCGCGCACGGGCGAGCCATATGATAGCTCGCGACGCACGGCCCGGCGCCGCTTGGCGCAGCAGCATGCGGACTTGCCGCAGCGGGTTTTCGTCCGACGTAGCGGCGCGCGCGATAGCGTGCGGCGCATCGCTGCGATGCGCGTGCGCGGCACCGCAGCTTCATCCTTCGCGCGCGCCGGGCGTTTGCGCGATGCGCATGCCGGCGCTACGATAGACGTTCATCCCGATATCAGCGGCGCCGCACACGACCGCTTTCGCACGCCGATACCACGCATCACCCGCGTTGAATGCGCTGCCGCCGTGCGTGCGCACCGCTCGTCAAACCCGCTC Predicted Protein Sequences: >PredictedProphage1 -Hit 1 IRLLDAADAAQFQTVRLRAVDTAPTSFLPTLDEESQVPVDEFAKRLTPTQAQAVFGAFDGDTLVGITGVRRDARTKIAHKATIWGVYVDAAYRGQRIAQALLDSATGHAANAWGCKQLMLCVNDVNRTAERLYASQGFVRFGTEPRSLFVDGRFYDEHYMV >PredictedProphage1 -Hit 2 RPLFDIDLLRALVMVADCGSFTTASARLHSTQSTVSQKVRRLEEIAGHRLLDRGARDVRPTDAGVTVLSYARRMLALNDEMLEALSGATVALTIRLGVPDDFAAGRTTHALAAFKREHPQVKLEV >PredictedProphage1 -Hit 3 MQLYEIGQAVAKRRAELDLTQAQLAKLAGLSRLTVNQLESGKVKDLGINKLIPLLSVLGI >PredictedProphage1 -Hit 4 VESGDWRPGDRIPSELDLAAQFGVARMTVNRALRELTEEGVLK >PredictedProphage1 -Hit 5 RLKLLRKQKGWTLDVLADETGLTKSYLSKVERGLSVPSIAVALKLSKALNVDVEQLFSESRNRELITVTRAGERTAMGAAADSHAHRFESIAAGVAPKKMLPFV >PredictedProphage1 -Hit 6 SRTGEPYDSSRRTARRRLAQQHADLPQRVFVRRSGARDSVRRIAAMRVRGTAASSFARAGRLRDAHAGATIDVHPDISGAAHDRFRTPIPRITRVECAAAVRAHRSSNPL Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig365 Genome size: 114479 Host's GC content: 65.37 Predicted Codon Position GC: 1st: 67.11 2nd: 44.35 3rd: 78.31 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig366 Genome size: 124563 Host's GC content: 68.14 Predicted Codon Position GC: 1st: 68.81 2nd: 45.10 3rd: 82.99 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig367 Genome size: 132496 Host's GC content: 66.67 Predicted Codon Position GC: 1st: 67.90 2nd: 44.70 3rd: 80.50 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig368 Genome size: 157256 Host's GC content: 67.75 Predicted Codon Position GC: 1st: 68.56 2nd: 44.99 3rd: 82.33 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig369 Genome size: 93539 Host's GC content: 61.32 Predicted Codon Position GC: 1st: 64.61 2nd: 43.26 3rd: 71.45 >PredictedProphage1 Length: 27409 Number of hits = 10 GC Coding First Second Third 64.80 65.96 68.33 49.69 79.85 Codon Usage: AA Codon Total Percent Leu TTG 18 0.0909090909090909 Leu TTA 2 0.0101010101010101 Leu CTG 92 0.464646464646465 Leu CTA 6 0.0303030303030303 Leu CTT 13 0.0656565656565657 Leu CTC 67 0.338383838383838 Lys AAG 29 0.725 Lys AAA 11 0.275 Glu GAG 61 0.580952380952381 Glu GAA 44 0.419047619047619 Gln CAG 54 0.782608695652174 Gln CAA 15 0.217391304347826 End TGA 0 0 End TAG 0 0 End TAA 0 0 His CAT 13 0.295454545454545 His CAC 31 0.704545454545455 Asn AAT 14 0.269230769230769 Asn AAC 38 0.730769230769231 Ser AGT 11 0.0982142857142857 Ser AGC 30 0.267857142857143 Ser TCG 48 0.428571428571429 Ser TCA 6 0.0535714285714286 Ser TCT 2 0.0178571428571429 Ser TCC 15 0.133928571428571 Trp TGG 32 1 Arg AGG 4 0.025974025974026 Arg AGA 3 0.0194805194805195 Arg CGG 31 0.201298701298701 Arg CGA 18 0.116883116883117 Arg CGT 17 0.11038961038961 Arg CGC 81 0.525974025974026 Ala GCG 117 0.427007299270073 Ala GCA 38 0.138686131386861 Ala GCT 22 0.0802919708029197 Ala GCC 97 0.354014598540146 Cys TGT 2 0.105263157894737 Cys TGC 17 0.894736842105263 Asp GAT 27 0.257142857142857 Asp GAC 78 0.742857142857143 Gly GGG 13 0.0878378378378378 Gly GGA 18 0.121621621621622 Gly GGT 22 0.148648648648649 Gly GGC 95 0.641891891891892 Phe TTT 8 0.137931034482759 Phe TTC 50 0.862068965517241 Tyr TAT 9 0.219512195121951 Tyr TAC 32 0.780487804878049 Met ATG 41 1 Val GTG 53 0.395522388059701 Val GTA 8 0.0597014925373134 Val GTT 11 0.082089552238806 Val GTC 62 0.462686567164179 Thr ACG 54 0.509433962264151 Thr ACA 10 0.0943396226415094 Thr ACT 4 0.0377358490566038 Thr ACC 38 0.358490566037736 Pro CCG 75 0.669642857142857 Pro CCA 9 0.0803571428571429 Pro CCT 10 0.0892857142857143 Pro CCC 18 0.160714285714286 Ile ATA 3 0.0365853658536585 Ile ATT 12 0.146341463414634 Ile ATC 67 0.817073170731707 Left Right Strand Best Blast Hit Score Evalue 33236 33400 1 ref|NP_695029.1|Integrase 38.5bits(88) 0.11 35464 36213 1 ref|NP_040602.1|Tail fiber protein 41.2bits(95) 0.018 39695 40090 1 ref|NP_046670.1|similar to Escherichia coli YedG 42.0bits(97) 0.010 40293 40601 1 ref|NP_817564.1|gp117 37.4bits(85) 0.25 41818 42114 1 ref|NP_958266.1|hypothetical protein 38.1bits(87) 0.15 42366 44870 1 ref|NP_818250.1|gp199 231bits(590) 7e-60 50216 50815 1 ref|NP_046669.1|similar to part of DNA ligases 65.9bits(159) 7e-10 54019 54165 1 ref|YP_024883.1|Hypothetical protein 38.1bits(87) 0.15 57643 58122 1 ref|NP_052286.1|hypothetical protein 120bits(300) 3e-26 60516 60644 1 ref|NP_795660.1|putative integrase 39.7bits(91) 0.051 DNA sequence: ATCCAGGATGAACGGCCCGCAACGGCCGAGAAGCTTCGGCGCGCAAGCCCACACTGGATGCGGCACACACACGCGACGCACGCGCTGGCCCGTGGCTCCGAGCTGATCATGGTGCGCGACAATCTCCGTCATGCGTCGATCTCGACGACGTCGACCTACCTGCACGGCGATGAGATCCGGCGGGCGCGGCAGTTCGATCAGGCATTTGAGGCACGCAAAGTCTAGCGTACGGCCGACTCGATCGAGGGGCGAAATTCCCCTTATAGATCAGTTGGATAAGGCAATTTTGGCGAAAATTTCACGAATCCCGGCCGACCCTCAGTACCGCGTCGAATTCGGTGCAGTACGACAACGCTGGCCACACGTCGGTGACGCTCGGCGGCACGGCAGCTGCAGCGCCGGTCGCGCTGACGAACGTGGCGGCCGGCACGCTGTCCGCGTCGAGCACGGACGCCGTCAACGGTGCGCAACTGAACACGACCAACCAGGCCGTTGCGAACACTTCGACGTCGGTGACGAATTTGTCGGCAAGCATCAATGCGGGCACGGTCGGTCTGGTGCAACAGGCCGGCGGTGCGCCGGGCCGCGGCACGATTACGGTCGGTGTGCAGACCGGCGGCACAACGGTCGATTTCGCCGGCACGAACGGCGCACGTACGCTGTCCGGCGTCGCGGCCGGCATCGCAGCGACCGACGTCGTGAACGTCGGGCAGCTCGATGCCGTCGCCGGCACCGCGTCGAACTCGGTCCAGTACGACAAGGCGGACCATACCGTCGTCACACTCGGCGGCACCGTGGCAGGAGCGCCCGTCGCGCTGAGGAACGTGGCGGCCGGCACGCTGTCGGCCGCGAGCGCGGACGCGGTCAACGGCGCTCAACTGTTCGCGACGAACCAGGCCGTCGCGAGCACGTCGACGTCGGTGACGAATCTGTCGGCCAGCATCGATGCGGGCACGGTCGGCCTGGTGCGGCAGGCCGGCGGTGCGCCGGGAAGTGGCCCGATCACGGTTGGCGCGCAAACCGGCGGCCCGTCCGTTGACTTCGCCGGGACGACCGGTCCGCGCACGCTGGCCGGCGTCGCGGCTGGCACCGCTGCGACCGATGCGGTCAACGTTGGTCAGCTGAGCACGGTGGCCGGTACCGCGTCGAACTCGGTCCAGTACGACAACGCGGGCCATACGTCGATCACGCTCGGCGGTACCGCGGCGGCAGCGCCGGTCGCGCTCACAAACGTGGCGGCCGGCACGCTGTCGGCCGCGAGCACGGACGCGGTCAACGGGGCACAGCTGAACACGACCAATCAGGCCGTCGCGAGCACGTCGAGATCTCTGATGAATCTGTCGGCAAGCATCGACGCCGGCACGGTCGGTGTGGTGCAGCAAGTCGGCGGCGCCCCGGGCAGAGGCGCGATCACGGTCGGCGCGCAGACCGGCGGCACGTCTGTCGATTTCTCCGGGGCGAGCGGCGCACGCACGCTCTCGGGCGTCGCGGCCGGCACCGCCGCAACGGATGCCGTCAATGTCGGCCAGCTCGGCGCAGTTGCCGGCGTCGCGGCGAACGCGGTGCAGTACGACAACGCGGGCCATACGTCGGTCACGCTCGGCGGTGCGGCAGCTGCAGCGTCGGTGGCGCTCACGAACGTGGCGGCCGGCACGCTGTCGGCATCGAGCGTCGATGCCGTCAACGGTGGCCAGCTGTTCGCAACGAATCAGGCGGTCGCCAACACGTCGACGGTCGTCACGAACCTGTCGAACGGCATTGCGGCAGGCACGGTCGGTCTGGTGCAACAGGCCGGCGGTGCACCCGGCACCGGGCAGATCACGGTCGGCGGGCAAACCGGCGGCACGTCGGTCGACTTCTCCGGCACGGACGGGACGCGCAAGCTGTCTGGCGTCGCCGCCGGCACGGCCGCAACCGATGCCGTCAACGTCAGCCAGCTCAATGCTGTTGCTGGCGTCGCAACCAACGCGGTGCAGTACGACAACGCGGGCCGCACGTCGGTCACGCTCGGCGGCGCAGGTGCTGCAGCGCCGGTTGCTTTGACGAACGTGGCCGCCGGAGCGCTATCGGCCTCGAGTACGGACGCCGTCAACGGCGCACAACTGTATGCGACGAATCAAGCGTTGTCCGGCACAACGTCGACCGTCAACGCCCTGTCGACAGGAATCGCGGCCGGTACGATCGGTCTCGTGCAGCAGGCAGGCGGTGCACCCGGCACTGGGATGATCACAATCGCCGCGAAAACAGGCGGCACCGCTATCGACGTCTCCGGCACCAGCGGTGCGCGGCAACTGAAGGGGGTTGCCGCCGGGACTGACGCGACCGATGCAGTCAACGTCAGCCAGCTCAATGCCACCATCAGTAGCGCGACCGCGAATGCTGTCGTCTACGACAGCGCGGCGCGATCGATCGTGACCCTCGGCGGACTCGGCGCATCGTTGCCGGTGACGTTGCGCAATGTGGCGGCTGGCGTTTTGTCCGGCAATAGCACCGACGCCGTCAACGGCTCCCAGCTCTACATGACGAACCAGGCTGTCGCAGCTAACACGGGTGCGATTGACGCTCTCACGAACAGCCTGACCGACGTCCAGCGCTCCATGGCCAGGAACGCAGCGCAACTGCAGCCGATCGTCAGTGCCGATGCGTTGAAGTACTTCGCGGCATCGTCGACCGGTGCACCTGCGAGCGCGAGCGGCACAGAGACAGTTGCAGCTGGAGGCAATGCACTTGCCGCCGGTGCCCACAGTGTCGCAATCGGTACCGGCGCACAGGCAATCGGCAGTGGCGCTCTCGCGCTCGGTGCGAATACATCGGCCAAGGGAAGCAACTCAATCGCCCTCGGTCAGGGTTCCGCCGCGTCGGCCGACAACACCGTATCAATTGGCAACAGTGCGACGGGGCTCACGCGCACGCTGACGAACGTCTCTGTCGGTGTCGCACCGACCGACGCCGTCAATGTCCGGCAGCTCAGCGACGCGGTCGGAGGGCTGCGCTCGCAGATCGAGCACGACCGGGCCGATGCGAACGGTGGCTCGGCCAGTGCCGTTGCGATCGCATCGCTGCCGCAGGCGCCCGCGCCTGGTCACAGCGTCGTGTCGATCGGCGGGGGCACGTATGCGGGTCAATCCGCAGTGGCGGTCGGCATGTCCACCTACGCCGGCCGCTGGATCCTGAAGGCATCCGGTTCCACCAACACACGCGGCACGGTCGCTGCCGGTGCTGGTGCCGCGTACGTCTGGTAACGCCCCGTCGACCCTTTCATTTACCTGGAGACTCAGATGAAACGACCCAACTATCGCTCTGCTCTGCTCGCCGCGTGCGTTGCCGTTGCGGCGTTCCTCGTTACCGCCTGCTTTGGCCACCGCGCCTGGCCGATCGTGGCAGCAACGCTGCTGGCAATTCCGCTGGCATCACTGTTCGTCAAAGCGACAAATCGATGGCGCCGGCAGCAGGCGGTCGACCGACCCTCCGTGACGATAACCGAGGCCACTGTTTGGGAGTTACGGCTCAATGATGTGCCGGCGGCTGAAGTGCCCGAGCACGTCGTCCGTCGCATCGAGCACGAACTCGCGCAGGAGCGGCAATGGGATCTGCGTGTCGCGTCGATCCTCAGCTATGCCGGCGCCGTGCTGTGCCAGCTCGCGTACACCGCACTGTGCATACCGCTCGCGATCTTCGCCTTCGCGGGCCTGTCATGGGCAACCAATCCGGCCGGGTTCGCGCATCTCGCGCATCAAATCCTGAACGCCAGCGAAACCGAACTGCGTGCTGTGGTCGACGGCCTTGCTTGGACCGCGATCGGCTTCAGCGGCATGGTGCTGGTGATGTGGCACGCCTTCGGGGGGCGGACGCGGATCCCGAACCACTACAACGAAGCGTGGCACGAGGAGATTCGTCTCGCTGCGCGCATCGCCCCCCGCGGTGAGTTCACGCTGCACCTCTCGGGCCAGGTAGTGCCGGCTGGATTTCGCGTGACGCGAGGTCCGCGCCTTACCGTGCACTACTGGCCGAACAGTCGACGCAGCTCGCCTAATCGGCACGACGTCGCTTAACGGAAATCGTCCGCACAAATGAAAAACCCCCGTTGACGGACGGGGGCTCTTCAAGATGAAGCGCGACGGAGAAAGAGCAATCGGCAACACCACAACGAAGCCGATTCTATCGAAGCTCTTTTCGCTGTCAAGCGACATCTGTGTGACCACAACCATCATAAATTGAGCGCCAGATGAATCGAAAGACCGAGGGCGGGAAATACTCCCGAGACGCGCAGCGCACTGCGCCAGCAGGGGCCGTCGACGACTGTCGTTGCCGACACCGGACAACACATTCACGAACATCCGATCGATCGACGTCGATCGACAGGGAGCGCGGCTGCCGATAGGTTCGCGCGTGAATTTCCCTTTCCTCGATCCGCTTCTGCCCGACCGGTCCAATCCTGTCGGCGTGGGCGCGCCTGATCAGCCGACGGCTGCGGCCGCGCCGATCGGCGCGCACCGCATGCGCGTCGCCAAGACGGTGCTGCCCGAGCGCGTGTGGCCCGACGACATCCCGTCGCCGGCGCCGGCGAACGCACCGCGGATTCTGCGCGAGCTCAAGACTCGCCTGTCGCGCTACCTTGACAAGCCCGCGCAGTGGCTCGCGCAGCTGAACGCGGCGAACGGCAGCCATCGGCAGCAGCGCAGCGAGCGACGTCTCGCGTGCGTGCAGCTCGCGCGCGCGATGATCAAGTATTGCGACTTGCGCACGATGCGCATCGGTGTGCCGGGCGCGGCTGGCTGGATCGATTTCACGCTGCCGTACCTGGCGGCCCAGGCTGGCCTGTCGGAGCGCCGTGCCGAGCGCGCGCTGCGCGACCTGCAGAAGGCTCGGCTGGTGAAGGTGCGGCGCCAGTGCGAACTCGAGGAAACCGAGCAAGGGGTGCGGTACAAGGGCGTCGCGTCGATCAAGTATCTGACGTCGACGCTCTTCGAGGCGTTCGGGCTCGGCAAATGGCTGCGGCACGAACGCACGCGCGCGCACCTGCGTGCACAGCGCCGCGCGAACCAGCAGCGCAAGCGAACGCAGCAGGGTTCGGCGCTGGGCGCGCAGCTCGTCGAGCAACTCGCCGGCATCGAGGCACGCGCCCGGCGCCAGGCTGCAGCAGCGGATGCCGCACAGCGCGATGCGGCCGACCTTGACCGTGCGATCAAGCTGCGTGTCGGCGAACTGCTGCACGCGCACCCGGACTGGGATCGGGACACCCTCTATGCCGCCGCTCGGCGGCAGCTCGCCCCACCCGGCGATTCCGTTTAGCCGGCGCGCTGCGGCCGGTTCTGTAACCTGACCACCTTCCCCCTATCGCGCAAGCGAGGCACCCGCACGTCCGGATGGCCGATTTGCCGGCATTTCCCGCTCGCGCGCGGGGCCCTGCAGGCGGAAAAAGCGCCGGCGATTGCACGATTTTGCGATCGCCGCGTGCAGCGCTGTGGATAAAAGCATTTAAATGTCGGGTCCGATCGTATTTAAGTGTCGGCTCTTATTCAGGACACAGATCCTACCTACCCCTCCAAATCCAGCCGCGGCTATGCCGCGGTATCACGCGGGCTCCGCCCGCTTGGCAGGAAACCCCCACGGGCTGCACGCGCTTTCCACCGGCAGGCCGTAAGCGCTACGGCGGCCGCTGGCCGCCGCACCGCTAACGGCGCGACAAAAGATTTCGGGGCGCGTCAGAGCCGCACCCCGAAATCAGCGCGCGCGCGTGCGCGCCCGGCTGCCCGCAAGCACCGTCGACTATCCCCGGCAGCTTAGCTTTCAGAGAGGGGGGACAATCTGATTACGCAACTAACGGTCAAGCGGATCGCCCCCGCCGAAATTTTCCCCTGCCACTCCATGCCCCCATGTCTACAAGAACGGGGCCGCCCTCAACCCTCGTGGAATCCGCACAATTCTGTTCAGCCCGTGGCTGAGCGCGATACTCTGTTGGAAGAGCAATGGTTATGGGAGACGACGATGTGCTACTCGGCCAAGATCCAGGCGAACTATCGAGAGTACGTCCGACGTTACGGCGCCGACATGGACATCGAGACGTTCCGGCGCATCTTTTTCGCGCGCGCATCCGGCGCCGACATCAAGATCCCGAAAGCGGTCGACGCAGCATTCGCTGGTGTCGATGATGAAATCTCGGCCGCGATCGCTGCGTATCGAAGCCAGCGAACACGGAAGCTGGAGACCGAACTGTTCGAGCAGCGAGCGCGGCTCGCCGCGGCCGAGAAGAAGCTCGCCGTGAAGATCACGAAGAAGGCGAGCGAGGACGTTCGGATCGCCACGGACAAGATCGATGCGGCGACGCGCGGGCTCGACGATCTCCGCCGGCAGGACCTGCAGGAGCGTGATTCGCGAATCTTCCCCGGCTGGTATGCACCCGTGCTGATCGAGGTCGACGGCAAGCGCATGGTCGTGCCGATGCGGTATCGATGCCGTATACCGGGCTGGAGCGAAGCGGACGAGAAGCAAAAGAACGGAAGCTATAACGCGAGGGCCGATTCGCTCAGTACCGCCTGGCGCAAGGTCTTCGGTTTCACGCATGGCCTCTTGCTCGTCGACGCTTTTTTCGAAAACGTGAAGCGCGACGGCCAGAATGTCGTGCTTCGCTTCGACCCGACGCCGCCGCAATACATGCAGGTCGCCTGCCTGTGGACGCGCACCGAGATCCCGGGCGGCGGCGACTTATGGTCGTTCGCGGCGATCACCGACGACCCACCGCCGGAAGTGGCTGCAGCTGGCCACGACCGATGCATCGTGCCGATCAAGTCCTCGAACGTCGACGCCTGGCTCGCACCGGACCCGTCCCGGCGTGCGCAGCTACGCGAGATCCTGGCCGACCGCGAGCGGCCGTACTACGAGCACCAGCTCGCAGCGTAAACGCGGGGGTTGGAGGGGCGGTTATCTCTGTCATATACTGTACAAACATACAGTATTTTGCGTAACCGACCCCATGCACCCCGCCCTCGCCCATCCTGAAGCCATACATCCGGCCCTTTGGCGCGCCAGTCAGCTGGCACGCTCGAGCGTGCGCGGCGTCGACACGGGCCATCCGGAACTGACGGCCGAACTGCCCGGCGGCGGCTGGCCAGCCGGCGCGCTGATCGAATTGCTCGCGCCACAGCCTGGCATCGGCGAGCTGCGGCTGCTGGCGCCGGTGCTCTCGCGCGCGGCCGGCAAGCCGGTCATGCTGATCCAGCCGCCGCACGCTCTGCAACCGCTGGCGCTCGCGTATTGGGGCATCGACCCGTCCGGGTTCGTGACGCTGCCGGCACCGCGCACGGCCGACGCGCTGTGGGCTGCCGAACAGGCGCTGCGCGCCGGCACCTGCGCTGCCGTGCTGCTCTGGCAGCCGCATGTCCGTGCGGACGCATTGCGGCGACTCAACCTCGCGGCGCAGAGCTGCCAGGCGCTGTTCTACCTCTTCCGGCCGACGGCCGCCGCGCGCGACGCGTCGCCGGCGCCTTTGAGGCTCGCGCTGGCGCCCAAGCGTGACGGCATCGACATAACGTTCGTGAAGCGCCGCGGGCCGGCACGCGACACGCCGCTGTTCGTTCCCCTGTCCCCCTCGCCGATTTTGTTGAACCGCCATGGCAGTCTTTCTCGGCGTGCATTTATGCCATCTGACCCTAGAAGTGTTCCGGCCGCGATCGCCGGTGCCGTCGCCTGACGATGCGCGCGGACTCGTCGTGCTCGAGGGCGGCCGCGTCGTGGCGCTCGATCGCGCCGCGCGTGCGCTCGGCGTGGTCGCCGGCATGCGCCGCGGTGGCGTGCTGTCCCTCGCGCCGGACGCGCAGATCCGCGAGCGCGACGCCGCGCGCGAGCGCGAGCTCGTGCTCGGGGTTGCATATGCGCTCCTCCAATTTACGCCAAACGTCGTCGACGCCGACGAAGCCGTGGTGTTGCTCGACGTGACGGCGAGCCTGCGCCTCTTCCACGGCATCCGCGCGCTGCGCCAGCGCGTGCGCGACGTCGTCGCGTCGTTCGGCGTCACCGCGGCGATATCCGTCGCGTCGTCGGGCCCGGCCGCGTGGGTCGTTGCCCGCGGCCTGCGCGGCGGCCTCGCGCTGTCCGCCCGATCGCTGCGCCGCGCGCTCGCGCGCGCGCCGCTCGTCGTGGCGCCGGACGCGCGGCGCTACGCGAACTGGTTTGAGGATCTCGGCTGCGAAACGCTGGCCGATCTGCAGCGCTTGCCACGCGCCGGACTGAAAAAGCGCTGCGGCACGCATCTGCTCGACTGGCTCGATCACGTCGCCGGCACCGCGCCGGCCGCCTACGACTGGCTCGAAATGCCGCCGTCGTTCGACACGCGTGTTGAACTGATGGATCGCGTCGAACACGCCGAGGCGCTGCTGTTCGTCGCGCGCCGGCTGATCCTGCAGCTGACCGGCTGGCTCACCGCGAAGCAACTGGACGTCGCCGCGTTCGCGCTGCTGCTCGAGCACGAGCGCGGGCGGGACGCGATCGCGCCGACCGAGATCGAGATCGCATTGGGCGCCCCTACCCGCTTCGAGGAACACCTGACGCGACTGGTCAAGGAGCGGCTCGGCCACGTCGAGCTCGCCGGGCCCGTGATTGCGGTGCGCCTGGTCGCCCGCAGCGTGCAGGAAGCGGCCGCGCCGAGCGACTCGCTGTTCCCGGAGCCCGGCGGCACGCCGCAGGATCACGCGCGGTTGCTCGAACTGCTGACCGCACGGCTCGGCGCCGAGAACGTGCTCGTCCCGGCTCCCATGGCCGACTACCGTCCGGAGCCGGCCGCGCGATGGGTGCCGATGCGCGACGCGCCGAAGCCGTCGCCGCTGCCGGCGGATCTGCCGCGCCCGGCCTGGTTGCTTGCCAAGCCTGTACCGCTGCTCACGCGCCAGCATCGGCCGTTCTACGGCACGCCGCTGCGCATGGTATCGCCCGGCGAGCGCATCGAAGGCGGCTGGCAGGACGGGCAGACCGTGACGCGCGACTACTTCGTTGCCGAGGACGACCACGGCGTCTGCTATTGGATCTACAAGGAGCGGCCGACGGCCAGTGACGAAAGCGAATCCCGCTTTTTCCTTCACGGCCTCTTCGGCTGATCGTCATGGACGCCGGCAGTTTCGGCGCCCTGCCCGCATACGCGGAACTTCAGGTCGCCTCCGATTTCTCGTTCCTGCACGGTGCATCGCGCGCGGAGGAATACGTCGCGCGCGCGGCGCAGCTCGGGTACAGCGCGATCGCAATCACCGACGAGTGCTCGCTCGCCGGCGTCGTGCGCGCCCACGTCGAAGCGAAGGCGGCGAACATGCCGCTGATCATCGGCTCGCACTTCCGGCTGACGGCCGCCGACGGCTCGCCCGCGCTCGCCTTCACCGCGCTGGCGATGAATCGCGACGGTTACGGCAACCTCTGCGAATTCATTTCGCTTGGCCGGATGCGCAGCAAGAAAGGCACGTACCGCCTAGCGCCGCTTGATCTCGAGCATCCGGAAACGCCGTACACCCACCTCCGGAACCTGCCCGACTGCATCGCGATCCTGTCGCCCGACTTCCCGGCCAACGAGCAGCGCCTGGACGCGCAAGTCGAATGGTTCGCGCGCGTGTTCGGCGATCGCGCATGGGTCGCGCTCACGCTGCATGCGCGTGCGATGGACGATATCCATCGCGGTGTCATTGAACGCGTCGCCGCACGCCACGGCGTGCCTGTGGTGGCCACCAGCTGGCCGCTGATGCACGTTCGGTCGCGCAAGCCGCTGCAAGACGTGCTGACGGGAATTCGCGTCGGCCGACCGGTAACGGAGTGCGGGTACGAGCTCGCACCGAACGCGGAGCGTCACCTGCGATCGCGCCTGCGGCTCGCCAACCTCTATCCCGCCGGCGCGCTCGAGGAAACCGTACGCGTCGCGCGGCGCTGCACGTTCTCGCTCGACGACCTCAAATACGAGTATCCCGACGAACTGGTACCGGCCGGCACTGACCCGGCGACGTACCTGCGCGAGCAGACCTACATCGGCGCGCGGCGGCGCTTCCCCGCCGGCATCCCGGTCGACGTCCAGGCGCAGATCGAGCACGAACTGCAGCTGATCGCGGACATGCATTACGAGGCGTATTTCCTGACCGTTTACGACATCGTGCAGTTCGCGCGCGAGCAAGGAATCTTGTGCCAGGGACGCGGCTCGGCGGCCAACTCGGCGGTCTGCTATTGCCTTGGCGTGACCGAAGTTGACCCGTCACGACAATCGATGCTGTTCGAGCGCTTCATCAGCAAAGAACGCAATAGTCCACCGGACATAGATGTCGACTTCGAGCATCAAAAACGCGAAATCGTTATGCAGTATATCTACCGTAAGTACGGCCGCGATCGCGCAGCGCTGACGGCCGCCGTCACGACGTACCGGCCGCGCAGCGCGTTGCGGGAAGCCGGCAAGGCGCTCGGCGTGGATCCGGCGATCGTCGAGCGAGTGGCAAAGCAGCATCACTGGTTCGACTCGCGCGCCGATCTGCTGCAGCGGTTTGCCGAGGCCGGCCTAGATCCCGGAGCGCCGCTGAACCAGCAGTGGGCCGGATTTGCCGCGCAGCTGCTCGGCTACCCACGGCACCTGTCGCAACACTCGGGCGGCTTCGTGATCAGCCGCGGCAAGCTCACCCGACTCGTACCGGTCGAGAATGCAGCGATGGAGGACCGCTCGATCATCCAGTGGGACAAGGACGACATCGAGGCCCTCGGCATCTTGAAGGTCGATTGCTTAGCCCTCGGAATGCTGTCGATGGTGCGCCGCGCGCTCGACATGATTTCCGAAAAACGAGGCGAGACGTTCGAACTGCAGGACATCCCGGCCGAGGACAAGGCGACCTACGACATGCTGTGCGACGGCGACAGCATGGGCGTGTTCCAGGTGGAATCGCGCGCGCAGATGTCGATGCTGCCGCGCCTGCGGCCGCAGTGCTTCTACGATCTGGTGATCGAAGTCGCGATCGTGCGGCCGGGCCCGGTGCAGGGTGGGATGGTGCATCCGTTTCTGCGCCGGCGCCAAGGATTGGAGCCCGTCACGTTTCCGTCGGAAAGCATGGAGAAGGCACTGGCGCGCACGCTCGGCGTGCCGATCTTCCAGGAGCAGGTGATGCAGGTCGCGATGCTGGCGGCCGGCTTCTCCGCCGGCGAAGCCGACCAGCTGCGCCGCGCGATGGCGGCATGGAAGCGCAAGGGTGGACTGGAGCCGTACCACGAGCGTCTCGTGAGCGGCATGCTCGAGCGCGGCTACGACCGCGAGTTCGCGGAATCCATCTTTGCGCAGATCAAAGGCTTCGGCGAGTACGGCTTCCCGGAAAGCCACGCGGCCAGTTTCGCGCTGCTCGTCTACTCGAGCGCCTGGCTGCGTCGACACGAACCTGCTGTGTTCCTGGCCGCCCTGCTCAACAGCCAGCCGATGGGCTTCTACACGCCCTCGCAGCTGCTGCAGGACGCGCGACGCCGCGGCGTTGAGGTGCTGCCTGTCGACGTCAACGTGAGCACATGGGATTCAACGATCGAAGGGCCGACGACTTCGGCACCCGTGCGCCTCGGTTTCTCGCTGTTGCGCGGCATGCGCGAGGACGTCGCCGGCCGCATCGAGCTCGCACGCGCAGCGCGGCCATTCGTCGACGTCGCGGACCTCGCGCGCCGCGCGCGGCTCGATCGGCACGACCTGCAGGTGCTCGCACGCGCGAACGCCCTTCGCTCGCTCGCCGGCGGCAACCGACGCGCGGCGCTTTGGCTCGCGGCCGCTGCCGTGCCTGATCGAGATCTGCTGCGCGGTACCGAACGCGATGACGCGGTGCCGGCGCTGCCTCAAGCATCGGAGGGCCACGAGATCGTGACGGACTATCGAGCGATGGGCTTCACGCTCGGCCGGCATCCCCTGGCGCTACTGCGCGATCGCCTCGCGCTCGATCGCCTGCAGTCGGCCGAGCAGCTGGCGACATTGCGCAGCGGCCAGCTCGCGCGCGCGTGCGGATTGGTCACCGTTCGGCAACGTCCGGGCACGGCGAACGGCGTCCTGTTCATGACGCTCGAGGACGAGACGGGCCAAGTCAACGTGATCCTCTGGCCCGGCCTGCTGGAGAAGTTTCGGAAGGAGGCGCTCGGCGCCGCGTTGCTCGCGGTCTACGGCGTCTGGCAGGCTGAAGGGAAAGTGCGACACCTGATCGCGAGCAAACTCGTCGACAGGACCGAGTTGCTCGGTGCACTGCCGACCACGGCGCGGGAGTTCTGTTGATCGACGAACGGAAGCTCAATCAAATGCGACTTGACGAAGCTAGTCCGGTCATTTTTCGGACTTAAGCAACTGATATGTCCCGCTGTATTGAAGATGTGCGCCTTCAACGGGTGGCTGTACCCACACCGCATTTCCTTCGACTGCGGTACAGGTAGAGGACGCGGTCATCTGCCCACTTTGATGACGTCCAAAAGGATCGCTCGAGACAGATATAACAAGTCGAGGGAAATTCGAACATACGAGCAGCCGCTGAGACTTCACTGATGACAGCAAAAACGTCCGCTCAATTCGACCTCGATCAATAAGGAATCGACCCGAGCCTCTAACGAACACGGTCGCGTCATCGGCTGATGCCGATTCAACATAGTACATCCCTCGATTTGAGAGATTGCCCTGAAATCCTATGTACGACGGCTTCCCGTCCTCGTAACACCAATTCTCCCAATGAATCGACGAGCAATTCGGAGCCCCCTCGCATCCGCTTGAAATCTCGGCCCTAGGAACGAACGTATCCAGGCATGACCCAGATGCAACGTCAATGACGCCAGTTTCTCCGTGGGCTTCGACGTTCAGATAGATGGGCTTTGATGCGCCGTCAATACAAGTCCTCGCGCGTAAAGGCGACAACCCGTCGTTCAATTTAAACGGAGTTGGCTTCATATGCGGCGGATCGCCGATGTGAAAAGCCTTAAAGGGTGCCTCAATCCGAGGCGCCCACGGCGGACGAGCACTATTAGGACCCAATCGACACACGGAAGCCGCTGATACCGAGAAGCTTGCCATGCATGCCAGTATTACCACCAACCTTTGGTCGTATCGGCCACCGCCCATTTGTCTGGCGCTCCCTTGGACGAGCAAAAAAGCAAAAAACCGGGCTTGCAAGCAAGATTACTTCTTGATCTTAATCCATCACGAATACAGCAGACCACCAACACCAGCGATCCTCGTCGGACTACGATTGCAGCCGTTTACCTTTGCCACTCGCACTTCAGGCCGCTATAGCACCGCGTGACGATGCTCGTACAACATGCACAAGGTCAGACTTATCAATGGTCCAACTGACCAAGAAGCCTTCTTTCACGAGCTCGTCGAGTGCCTTCTTCAAGTTCGCGCGAAAGTGGAACAACTCTTTCGTCTGCGAACCGCACTGACGATGAAGGAAACGGACGGAATGCGCGAAAGGCACTGCATGCGTGTGGTAGTACGTATGCAACCACTTCGACAACTCATATCGCAGTCGCTGACGCTGCTCGCGGGCCAGCCGCGTGTAGTCGTCGTCAGAGAATAGCGCAACGATTTCGGGTTCCACGTACGCGACCCATCGCGTCTTCCCGTCAGTTCCCGTTTCGGTGCCTTCCTTCCACAGGAATTTACGGATCAGCGACCCGACAAACCCCTTTTTATTGCCCGTGAAGCGAACCTTGACTTGCCCCGCCTGCAGCCGCTCCAGCGTCGTCACGAGCCTGTCGTAACACTTTACCGACGTGCCCCAGCCAAGCGACTTCAACACACTGTAGCCAGTGAATTCCACCTTCTCGTTCAGCTGAGTATCCCGGGCCAAGTGAAGTACTTCAAGAAAGACGTCCGCGTCGTCCTGTCTAAGCTCTTCCCCGCTAAACGAAATTTCGACGCCATCAACGCTTGCGATCAGCGCCTTCTCCATTCGGCTACGCGGCGCATTCGATTTGTTCACGTTGAACAGAGCCGAGCGCGCGAGGGCGTTTGGCATCCCACGAACGTTCGCCGGCCACAGTGGAATCTGTGTCGGATGAGATTGCGTTTCCACACCCGCGCTGCTAGCGCGTGCTGCGATCGCTTTCACCTGGTCGACGATGGAATTTGCCATGCGAGAAGTATAAGTACGTGAATTGCGCCATCAAGACCCTTGTCTCGTCTCTCCAGCGATGGTTCAGCAAAAAAACTACGGGACTATCGTGCCTCCAGCGATGTACCACGGCGCATTCGTCACTGCAGCGATGTTCCTCGTTCCTCCAGCGTGATGTCCCTATCGTGCTTCCAGCGTGGTCAATCGTGCCTCCAGCGAGGCAACACTCGTATCGCCAGCGATGCCACTATCGTTCTTCCAGCGAGCGGCCCTTGCAAAAAACGCCTTTACAATCAATCCGCTACCACTGTTGTCCACAGCGCCTAATCTTCTTTTAATCTTTTTCTAATCGACCTATCCATCGTTGTAAGCACGATACCCATGCGCCAACAGAGCAGCGTCGGCATGGCAAATCATCGCTGGAAGAACGACAGTACAGGACAGAGAGGGCATCTCGACCATCGCTGGAGGAACGACCGCGCCCTATCAGCATCGCTGGAAGAACGACACGACACCGTCAAGCTGCCCCCCGAGCAAGGTGAGTACACACTCTCACGCTCATGCCCGTCCCATATAGAGCATCGCTGGAAGAACGCCACCCTCCATCGCTCCAGAGACGAGTCCAAAATACGAGGTGACGCTGGCTCCCATCGCTGCATAACCGATAGTCGTGTGTCCTACCCGGTCACGTGAGCGATGTCCTCCAGCGTCATCCAGGAGACACTCTTCACGGTCTAACAGTCGCCCTATTCCTTTGGAAAAAGGGCCAAGATTTTTTCGCTGATCTCTGCCGCGACGTCCGGAGCCAAACCCTTCAGCTTCAACTCGATCCGGCCATCCTCCTCGAACGACTTGAACTCTCCCTTTGCCCCACGGAACGACAGTTGCTCGCGCGTAGACCGCGGCCGCTTAACCGTCCCTTTTGCCGCAGCCTTTCTGCGAGCGGCGACGTCGCGGTACCCGATCCCGGTCTTAGCAGCATCGAAGACGAGTTCGAGGGTCTCCTCTTCCCCTTTCACTTCCCAGAACTCCCGAATTGCGTTCAGCATTTTGAGAGAGAGAAGTTCCGGATACTCGGCGGCGGCTTGAACAATCCTGCTTGGCAGTTGAGCGAGCGACAGAGTCCGACTTACATGGTCTTCCCCGAGATTGAGCGCTTTGGCCAAAGCCACTTGTGTCGGATAAATCTTCCGCGAAAGCAGCTCTTTCCACTTGAGCGCGTCATCGAGCGGGCTTTGATCCTTACGCTCCACGTTGGCAGCGCGCGCTTCCTCATACAGTTCCCGCTCACTTGCTGGTTTAGGACGAATCTCTACCCGCAACGTCGGCAGCCCGGCCGCTCGAGCACCACGAAGGCGCCTCTCTCCGTCAATGAGCACGATGTCGCCTGCTTCATCGACATACGCGCTCGCCGATTGGCCTTGCCCGCGGGCCGTTAGGGACTCTGCCATCTCGGATACAGCAGAAGCTGTATAGATGGCTCTCGGATTGACAGAATTTGATTTAATTTTGCCAATTTGAACTTCATATGTCTGCCCAATTTCGTACTTCGTGGCACCTTGGCTCGAGCCAACCTCTCCGCCCCTAAGCTGCGAGATAGTCGCCAACGACGGCGCCATGCGCGGATCGCCGACGATCGGAGCCGACGAAGCTGCATCCTCCACTGCGGCAACCCTCTCGACCGCTACCGCTTTTTTCCGAAATGTAGCCATTATTCGACCTCCGCCCCGTTGATCCGCTCAATGATTTCCCGATAGACCGCCTCCATCTCATCGATCGCCTTCTTCGACCGATCACGGCCCTTCAGCTCATGAACGGCCCTGCCGGTCTTGCCGGTCGCACGCCAAGCTTCTCTCTGCGGAATCTGGGAATCGAAAAGTCGAATGTCTTCGCTTTTCAAATATGCCCGCAATTCCGCAGTCGCCTTCGATCCTTCTACCGGCGACACCCGAGTGAGCACCACGTATGCTGGAATCTCACCGCTTTCGTGCCGCGGCCCCATGTCTTTAAGGGTCGCGAAGACATTCAGGGTCGACTCCACTTCTTGTTGATCAGGCCCGCAGGGGACCAGCACGAGATCGGATAACAGTGCGCATTCGAGCATCGTCCGATAGTTCTGCGCGCCGATGTCAACCACGACGAGGGTGTACTTGTTGGCAAGGTTTGCCAGTTCCCGGGCCGGATTAGCCGGGAGAGCGAGCACTGGAATGGCAGGTGTAACGCCCTCCTCGTTTCGAATTCGCGACCAACTCATCGCAGACCCCTGCTTATCAGTATCCAGAAGAACGACATCCACGTCTTCCGCGGCAGCCAGGGCTGCAATGTGCGTTGCTAACCGCGTCTTAGCAACACCTCCTTTTTCCGCCCCAATCGTGATGACCATTTCATCCTCCACTGGAAAGTGTTTGTTTCAACGATCGGAGTTTTATTCTTCAGTCAAAATAAGTCAATCAAATAGCTATATTTTTTTGTGACCTTTACAAAATGTGGTCAAGGAACAACGATTCGGAGCAAAAATGCCACCGACTTGGCCCGAGCCAAGATCGCAGATCCGATGTTGGATGATTAGCAATGAACCGCACTTCTAAACAGTCTTGGCTCGAGCCAAGACGGGTTTCTATAGGGAGTCTCACAAGATGTCCAAGGGTTGGCTCGAGCCAAGATCCCACGGAAGCAGTTCATTGAGATTGGGGTGGTTACGCTTGCCACCGACCCTGAAGAGTGCATTCACCCTCTGTACGGCCGATCTTGGATCGAGCCAAGACCGGCCTGGCCTAGTCAAATGCCCCATGCAACGGGCATATAGATTGCCCACATACCTGCAAAGCGAGGAGGGCATATGGGGCGGTGGACAAGTGAGCGCGGCATCCGTGCCCGGACGCCAGTAGCCAGAAATGGACGCATGCCGGAATTCATCGAGCCGTCGCTTGCTGTGCTTGCTGCAGAACCCCCAACGTCGGGAGAGTGGGGATATGAGATCAAATTCGACGGCTACCGGATGCTCGCGCGTATCGACGCTGGTGACGTTCGAATCTTCACCAGGAACGGCCACGACTGGACCGCCCGACTACCGCACCTGAGGTCCGTCCTTGAACGATTGCCGGTCAACCGTGCATGGATTGACGCGGAGGCCGTCTGGTTCGATACAGAAGGGCGCCCAAACTTCAACGGCCTGCAGAATGCGTTTGATAGACGTCGAACTGCGGGGATTTCGCTTGTCGTCTTCGACCTGATGTGGCTTAACAACAATGATCTCCGGCCGTGGACGTGGCGTGAACGCCGCGCCACGCTGACGAAGCTCGTTGCCGAAATTCTCGGGGACGAGGTGCGCTTCTCTGAGGCGATCGATGCCGACCCTGACGCCATGCTGGCCTCGGCGTGTGCCCTCGGCCTAGAGGGAATCATGGGCAAGCGGGTGGACGCGCCGTATCGCTCAGGAAGATCGGACCGCTGGATCAAACTCAAATGCAGTAGACGCCAGGAGTTCGTCATTGGCGGATTTTCGCGCCGTAAGGGCGCCACCGGGGGCGTGCGAGCGGTTCTGCTCGGTGTGTACGAGGAGGGCGGACAGCTGCGTTACGTCGGACACGTCGCGCCGCGCTTCGCGCCCCGCCAGGCACGGGAATTCGAAGACCGCCTTTCATCCTTGGGCCGCCAGCGCTCGCCGTTCGTCCGCGCGCCGGAACCCGAAGCCGATCGCGAGTTCCACTGGCTGAAGCCGGAGCTCGTTGCCGAAGTAGCGTTTCTCGAGTGGACGCCGACCGGACAGTTGCGTCATCCGTCGTTTCGCGGGCTGCGCGCCGACAAGCCTGCACGGACCGTGACCCGCGAAGACCCACTTGAAGTGAAACGGGCCCGCAACAGCAAGTGATTTACTCCAAGCAGACAGACCGATCGATCGATGCGCCGACATCGACATGAGCGCATTGCGAATTCGCGTCGGCTTGTATATGCTGTGGCATATGCCATCCCGTTTGAATTGGAGGTACCCCATGCCAACCCATGACGCCCGCCACGCGCGCTTGTTTCGCAACGGGCGCAGCCAGGCCGTGCGGATCCCGCGCGAATTCGAGCTGCCGGTCTCGGAGGTCACCATCCACCGGGAAGGCCGCCGCTTGATCATTGAACCCGTGGAAGCGGCACCCTTGCGCGAGCTGTTCGCCCAATGGGCCCCGCTGGACGAAACCTTTCCGGACATCGAGGACCTTCCGCCTGAGCCGGTGGACATCGAATGACGCTGTATTTGCTCGACACCAACATACTGTCGAACGTGATCCGCGACCCGCGCGGCGCATGCGCCACGCGGATTGGAGAGACCCCGCCGGAGCAAGTGTGCACCTCGATCGTCGTCGCTGCGGAACTGCGATTCGGCGTCTGGAAGCGCGGCTCGTCAACGCTCGCGCAGCGCGTCGAGCAACTGCTCGCGAGCTTGACCGTGTTGCCGCTGCAGCCCGACGCGGACCGCTGCTACGGGCGGCTGCGGGCCGAGCTCGAAAAGCAAGGGCAGCTGATCGGCGCCAACGACATGCTGATCGCCGCTCACGCGCTGGCCGTCGACGCCGTGCTGGTCACCGACAACACGGCTGAATTTACCCGTGTCGCCGGGCTGCCGGTCGAAAACTGGCTGCGATCGGCAACGTAACGCGGCATGGCGGCCACCGGGGGGCGCGATGGGCGCCACCGACGCACGGCAGTGCGCCTGAGAACAGAATAGGAGCGGGGGATGAACGGATTCAGCGGTGCGGCGGTTTTTGCCTTCGCGTTGACTGTCGGGTGCCTCGCACTCGGCTGGAGCCAACCTGCGGTGGCCACGTTCGCCGCGTGCATTGCATGCACGGTCTACGCGTCCCGGGGCAAGCACTGAGCGCCGGCCGACAGGGGGGCGCATTCGAGATCCCGATGGACGTCCTGCGATACGCAGGCGCGGCGAAGGAGATGGCGAAGTGACACACCCGATGACGGCCGTCCAGCAGATGTTCCTCGAGTGGTGCATCGGCTACATGAAATTCCGGATCGCCGAGGAGATGTCGGTCGGTCTGATGTCCCTCGAGGCCGAGCGCTACGATGCGCTGTGGACCATGCTGCAAAAGGGACGGTACGGCTTCCTCGATGACGACATGATCGAGATTGGCCGGCGCCTGTTTCCGGACGCGCCGAACGCACCGGAGGGTTCCGGGCTCGACGCGGCCTACGAGCGCGTGTGTACGGCGCTCGACGACTGGTTGCCGAGCTTCGTCATCCCGCCCGGACAGGTGTCGTTCCTGCCGGACCCCGAACTGCCGGACGGCGAGCCCGCTGCGTGAGCGGCCGCAGGATAGAATCCATCGTGTGAATCCAGAGGATCTCGACAATGAATCTGACAGCACGGCAGTTCAAGGAAAGCGGGTGGGGCAGGGCGTCGCGGCCGGCGTGGCGCTGATCGCGCTGGCGTGCGTTGACCGCGGGCTCTCCGCCGCGTGGCCGGCGAGTTACGGGCTGGTTCGCCCGCTGGCGGCGATCGCCGCGGCGAACCTGCCGTTCGTGGCCGCGTACCTGTTCATGCGGTCTTGAGCGACGGGCGAACCCGGCTGCGGCCGGGTTTTTGTGGCGCGCCGTCAATGCCGATAACTCCTCTTATCGGCATTGCGTTTAATGCTTGAAAACCCCGACAGGCGCTTTATAAGAGTGCTTGACACGACAGAATGTCGTGCTATGCTGACCTGCACGACATTTTGTCGGCTTTAACGGAGCCCCTGATGCAACAAGACACGACCGGCGTGCGGTATGCGATCCGCTGCGGCGCGTGCGGGTACCGCGGCGACACGCGCCGGCCGGACGGCACCTATCACGGCGAAGCCGTGCTGTGCCCGCGCTGCGGCGAGGCTACCGGACTCGAATGGGATGAGAGCGAGGCGCTCGCCGGCCTGACGCCGGGGTTCGCCGGCGACCCGCTCGGCCCCGGCGCGACGCGTCCGGCCGACAAGGGGCCGGCGCCGACTGCCGAGGCGCTGCGCCAGCTGCGCCTGAGGCACGGTCGCACGCAGGTCGACGTGGCCGCATGTGTGGGCGTCACCGAGCGCCAGGTGCAGCGCTGGGAGGCCGGGCAGGGCAGCATGCCGATCGCTTCATGGCAGCTGCTGCGACGCGTGTGGGGCGCCCGCTTTACGGAGGACTTCGCGCCGGCCCCGGCGCTCACGCGGGACTGGGATTACCGGCGCGACGCGCCGCGCGACACGATCGAACGCGGCGACGTGGTCGAGTTGCAGCCGCGCACCGGGCCGCGCCTGCGCGCGATCGTGACTACCGTGTCGAGCGACGCGAGCCGCGCAGAACGCGAGAGCGACGGCTACGGGGCGATCGTCGTCGAGTTTGTCGACGCGCCCGGCGCGGAGGAATTCGCCGGGTTCTGCCTCGGCGAGCGCGTGAGCTTTGCGCGCGCGAACGTGATTCACCTCGAGCAGCGCGCGCCGCGCGGCTGACCGAAACGCATTCACCAGGAGCGACGATGAAAACCGCTTACGACCTGCTGCTGGACGCCCCCGACGACCAGGTGACGCGCTGCCGGCTCGCGTGGAAAGCCGTGGCCGCCGGCGACTGGCAGGACGCCGCGCACTTCCTGCGCAACGCGGCCGACGAGGCCGGCGCGACCGCGTGGGCGTCCGACGCACGCGCCGTGGCCGAAGCATGTGCCGCGAAAGTCGCTGCCGCCTGAATGCCCCGATACCGGAGACCATGATGACCACCCGAACCGAAGCAATCGCCAACGCAGACGCTCAACTGAGCCGCGCGGGTCTCTACACCCATAGTGGCGTGCTCAACGAGCTGCGCAACGTGCTCGAGGCCGTGAAAGCAGGCGTGCCGGAAACGGTAGGCTACGGCGAGATCGGAAAGCCCGCCTTCGCGCATGGCTGGACCGCTGCGATGGAACACGTCTACGGCGAGCTGGCCGGCGCCCGTGCATTGCTGCGCGAAGTTGACGGCGCCGATCACGCAGCGGGCGGACCGAGCACCGATGTTGCCGCGGGCGTGCCGCGCGACGCTCGCCCCGTATCGGCGGCGACTTCGGGCGAAGCGCTCTATACCCGATTGCGGGCGGCGCTGCCGGCCGACTATCCGGACAGCTGGGATGTGCTGGCGCCCAGATATCAGGCCGCGTTCGAAGCGGTATGGAAGGGCGAGATCGCGCAGCGACACGGTATGCAGAACCCGCAGGATTAGAGGAACGATTCGGTTTTGCCGAAATAACGCGCCGGCACCGCAGGCATCCTCTTCTTGAACGCCTATACGGGGCACATCAACTGGAAAAGGGTGTGCCCCGATGAAACTCGAAACGGTGACTCTCTGGCTGAACTGCGCAGCCGCCGGCGTCGAACTGCTGTACTGGAGCATCAAGCTGGGCCTGCTGTACGGACCGATGCTCCACTGATAAGCCCGCCCGCCCCGAGAGGGGCGGGCATTGGGCAGACTTACCGCGCGCGCGACTGCTCCCACGAGCACCTGCCCGCCGACAAGGAATCGAGAGAGCGAGACCATGACCGAGATCACCAAGACCTACGACGAGTTGTCCGATTCGCAGCTGGCCGACGCGCAGCGGTTGTTCCCCGGCACGAGCCGCGATGACCCGTTTCGCTACGTGATCGTGGCCGGCAAGGTCCATCACCGGATCGGCGCGACCAAGCCGATCGCCGTTCGGATCGTCGACGACAGCGGGCCGCACTTCTTGCGCACCGATCAAGTTGTCGGCATCACGCCCCGCACGAAGTGGGGGAAAAAGGGCGTCGAGGTTCTGTTGCGTGCCGGCGCCGAGCACGAGCCCCATGCGCTCTGGCTCGCCGTCGATCCCGATTACCTGGCCCGGCAGATTGGCTGGTAACCCGACTCACTCTGACAGGAGCGCGCAATGCGCAAAGAATACGAACTGCAGACCGACGTGCTCGCGACGGTCGTCGCGGCGACCCCGGTCACGTCGAAGCACGCCGCGTTGCTGACCACGTTTGCGACGCGCACCGACTATCGCGGCGCGCGCTACGCGGTCACACGCGACGAGTTCTCTGAACGGCCGGCCCGCGTGATCGATGCAGACGGCCGCGAGATCGCAGCCGACTATCACGCGTGGATCGGCGCCCAGCTCGACGCGCACGGCGGCTCGGTGGAGGACGTGTTGCTCGCGCACCGGGATTCCGGTTACCAGTTGGTCGAGGTCCAGCCGCTGTTGCACTGCTTCGTATTTGACCGTGGCGGTGACCAGGACAATTTCGTGCAGCTCGAAATCTGGGAAGAACAGGAATTCGTCGAGCGCGAAGTGTTTCCGCGCAGCACGCCGCGGCGCTTGCCGGATCTGCATGAATTGCGCTCCGGCTGGCACGACATGCCGGTCGAACGGTTCGAGCGGCGCACGCTCGGATCGCCGCGCTATCGGCTCGAGGCGGTGATCGACATGAAGCACTTTGCGGCGCTCGCCGAGACGACTTATAACGAGCGCCGGCAGCGCGATGGCGATCGGGAATTGGTCGAGCGGAACCTCGACACGGGCGAATCGCGGGTGGTCAGTGTGCGCGAGCTCACGCCGGGCTACGACAACCAACAATGGCGCGGCCGCCGCTTCTTCGACGACTGGGCTGCGTCAAGCGCCGGCCAGGCCGGCGAGCGCATCTGTCAGCGGTGGGTTTTCAGCACCCAGGACAACACCGATCCGCGTACCGGCCGGGAGATGGACTTCATACCGCGCTGGACCCACACGCGCAAGATCGCGGCGCTGAAGAACACCGCGAAGCTGGACGTGTACAGCCTGTACGGGAAGCTGACGCAGTTCGACGAGCGCATCGGCCATCGCTTCGCCTGGTACTTCTACGGTCTGCACGGCAACCTGATCCTGAGCGGGCAGATGGAGCGCGTGCTCGAGGCGGCCGAGGCGGGCCTGATCGTGCTGCCCGAGCACGACTACCGGGTGCTGCGCCGCTGGGGCGACGATCAATACGGGTTTTGAGAACAATGCCAATGAGCGCCGCCCTCGACAACTATTTCAAGCTGCGTCGCCCGTGCGAGAACTGCCCGTTCCGCAAGCACGACGCGATCATGCTCGCGCCGGGTCGCCTGGAGGGAATCATCGAACGACTGGTGCGCAACGATCACAGCACATTTCACTGCCACAAGACTGTCCACAACGCACGTACAGGCGGTGAGTGGGATGACGACGGCCACTACGTCGCAAGCGGTCAGGAAAGTATGTGCGCCGGCGCGATGATCTACCTGGAAAAGATCGGTCGATCGACCGTGGGCATGCGCTTAGGTCGCGTGTTGGGCAAGTACGATGTGGAACGCCTGTCGCCGGCATTCGGCGACGTCATTGACCCGAGAACTGACGAGGAAACTCAACGATGAAAACGTATGACGAGCAGCAGATCCTTGCGCGCCAGGTTGGTCAATGGACCGCCGAGCTGAAGCGGCTGGCCGGGCAGATCGCCGCGGCGAAAGGTGTGCCGAGCGCGATCGTGATGATCACGCCGCAGGATGAGGACTACCACGACGTTGTCCCGGAATTGATCGCCGAGGACGTGTTGCAGGTCCGTACCCATGGTTGGCCGGTCGGCTTCGACGTCGAAATTCTCAATCAGGTCGATTAGGAGTGTGCTGATGGCTCGCACTAACGAAAAGAAGCCGCCGGCGAGGCCGGCGCCACAATATGTCAACGGCGTGGTGTTCACGCTCGCCATGCGCGCGGGCGATGTCGATGTGATCGGCATACCGTTCGAGCACCGCGGACGGACTTGGGCCGTCCACGCGATTATCGGGCGCGATGATCTCCCGTGCTATGCGGTTTCCGACGTGCTGACAGGCATGCATGTGCCGAAGAGCGAGGCGTCGACCATCGATGCGTCGCGCGCGGCGGCGATTGCCACGCTCGACAACGTCACGGACGAGAGCTGGGCCAAAGCCTTCGGGTCGGCTCACACCGAGACGGTCCAGTGACACCCGGCAAGGCACCCTGAGAGCGACCCGATGCGCTACCCGAACCGAGCCACAGCGCCGCTCGAGCTGCAGACGAAAACCGAGCTGAAGCAGGCGCGGCGCAATCTGGCCGATGGCCAGGCACCGGTTGCGCACTACTGGCAGGGCCATACTTGGATCGCGCTTTACGAGCCTGCGTCGACGGTGCCGATGCGCGCGGCTCGCGCGCCGAGTCCCGCTCAAGCGGCCGCGCTCGCAGCCGGCCGGGCACTGGCGGGTACCCGGCCATGCACGATCTGCGGCACGCGCACCCTAATCGAATGGCTGGATCGACACGGATGCTGCGACGCCTGCCTTGAGGATGTCGCGCGCGAGAAGCGTGACGAAGCGGCCCGCGGCCTCCACATCACCGCGAACGAGTGGCTGGCAGCTGATCCGCTGTTCATCGACACCGAAACGACCGGCCTGGATCACCAGGCGGCGATCGTCGAGATCGCGATTCTCGATCGCGCCGGCGCCGTGCTGATCGACACGCTCGTGAAGCCTGCCATGCCGATACCTGCGGCTGCGACGGAGATCCACGGAATCACCGACGCGGACGTCGCCGGCGCGCCCGCCTGGAACACGATCGGTCCGCAGGTGGCCGAGCTGCTCGCCGGCCGACTGTTGATCGCCCACAACGGTGCGTTCGATGAGCGTTTGCTATACCAAACATCGCGATCCCACGGCGTGACGTTGCCTGCGCTGCGCGTTGAATGCACGATGGAATTGCTGAACGGCTGGGCCGGTCGCTGGCTCAGTCTGGCCGACGCCGCGCTGATGCTCGGCGCCGGGACATTCGCGGCCCGTCATCGGGCCTGTGCAGATGCCGAGCAATGCCGCCAGATCGTGCTCGCCGCGGCCCGCGCAGCACCCGTTGACGCTCGGCCCTGAAATCGATCGGCCACTGCAATAGGATCCTCAATCATGATGTCGTATCTACAGTTCACGGAACTCGCCGAGTGGCAGATTCGCGACTACCGCGCATTGTCGAATCCGGTGTATGGAAATGCGGCAGTCGCGCCAGACGTCGCGCGAACCATTGCGCGGGGCGCGTTCAACCTGTGGCGCGAGGTCGCCCGGCAGGGATTTGCGGCGGGCGAGCGGCCGACCTATGAGGCGGATGTGGTGCGCCTGGCCGCCGTGGTCGACGCTTCCCTTTCCCACCCATCTTGATCATGCGAAAAGCCACCTCCCGTAACCGCCGGCCGCTCACTCGGGCGCAGCTGCTGCCGATCCCGGCCGCCGAACTGCGTCGGATCCAGCTGACGCACCACGTTGCGCTGGCTGCACTGCGCAACGCGAGCGACGACGTCGCGCAGCTGGCCACGCTCTTGAATGCGATCTACCTCGCGTACTTCCTCGACCCGAACGAGGCGGCACCCTATCGACGGGCCGAGGCGGTGCTCCACGACTGCGCCGACCGCGCCGAGCGTGGCGAGTCGGGCTCGCTGACCGACCTCGAGCGCGCCGCGGTAGAGCATGTGCTCGCGCGGCTGGACGCGCAGCTGGCCGCGGTACCGATGCATCGCTATGTCGCCGCGTTCGAGCGGCTACAGCGCGTCACCACGGCCGACACGGTCGTATCCCCCATTCCTGCGGGCTGAACCATGGCGAACCGCCCCCAGCAACTGGCCCAGATGCCGTTGCGCAGCTACAGCCGTACCGAATTCACGGCGCTGCGCGCGCGCGTGAAAGGCCTGCCGATCGAGACGATCGAGCGGCTGTACTTCGACCGCGATGCGGACGAGCCGGTCGACGTCGCGCAGTTGCTGCGCACGATGCGCGACGACCTGGTCGCGGCCGCGCTGCGCGATGGTTCGCCCGTATTGAAATCCCACCTGCAGGCGGCGATCGAGAAATACGGCGAGCCGCGCCTGACGCCCGTGTCGCTGCAGCTGATCGAGCAGGTGGCCGGGCAGTGGGCGATAGCGCTGCCGCAGTGCGATCACCCAGTAGGCCGCTGGTTCCGGCCGCTCATCGCCGCGCGCCTGGAAGGCGAGGGGATCCGCACGCTCGGCGACCTCGTCGCGTTCGTGAACCGCCGCGGCGGCCAGTGGTGGCGATCGGTGCCCCGTATCGGCGTCGGTCGCGCCCGCGTGCTGGCCGCCTGGTTGCGGCGTCACGCGTCGTCGATCGGCGCGGCCGTCGAGGTCGGCGTCGACGCCGGCGACGCGCTCGCGCCGACGGCTACAAGCGTCACCGCCGGCGCCGGGCAGCTGGCCCCGCTCGAGCGCCTGACACTTCCGGTCGAGCTGTCCGGCGCCCACGGTGCCAACCGGGCACCCGTGTTCGCGTATTTGGGCGCTTTGCACGATCTGGATGCGATACGCGCGTACCTGCACCGATACGACGATCGGCCCGCGACGCAACGGGTCTACAAGAAGGAGCTCGAGCGCCTCGTGCTGTGGTGCGTGGCGGAACGCGGCGTCGCGCTGTCGTCAATGCGGGTCGAGGATTGCGAAGCGTACAAGGCGTTTCTCGCTGCGCCGGGCGAACGCTTTACCGGACCGCCGGTCGCGCGCACGAGCCGCCAGTGGCGGCCGTTCGCGCCGGGCGGCCTGTCACCGGAAAGCCAACGCTACGCGGTGCGCACGATCCGCGCAGCCTTCACATGGCTGGTGGCAGTCCGGTACCTGGCCGGAAATCCTTGGGAGGCGGTCTCGGATCCGAGTGTGGTCAGGCGCGTGCGCAAGCTGCAGGTCGAGCGGGCGCTACCGCTCGAGCTCTGGACGCGCGTGCGCGCAACACTGGCCGAACGGAGCGAGTTGCAGGGCCCGAGTGGGCCGCGCTGGCGCGCCGCGCGGGCGCTGCTGTTGCTCATGGGGGATGGCGGCCTGCGGATCGCCGAGGCGGCCGCGGCGACGCGAGGGGCACTCGTCTGGATGCCGGCGGAGGACGACACGCCGGCCAGTTGGTTGCTCGAGGTGATTGGCAAGGGCAACAAGCAACGCTACGTGCCGATCAGCGACGAATGTGTCGACGCCCTCCGCGGGCATTGGCGCGATCGCGGTGAGGATTTCGACGCGGCAGCCGCGGCGAAGGTGCCGGACCTGCCGCTGGTGGCGCCGCTGGTCATCCCGCCGACGCCGCGGGCGCGAGAGAAATTCGGGGAATCTGTCGACAATGAGGAAGAGGGCGCAAGCGGCGTATCCGGAGGGGGATACTCGGTGCGTGGCGCGCGCGGGCTCACGAAATGGGCGGTCGCGCAGCTGCTCGACGTGATGCCGGACCTGACTGAATCGCAGCGGCGTAAGCTGGCCAGCACCTCACCCCATGCGTTCCGGCACACGGTCGGCACGCAGATGCTGGCCGCCGGTGTCGCGCTCGAGGTCGTACAGCGCACGCTCGGCCACGCGTCGCTCGGCACGACG Predicted Gene Sequences: >PredictedProphage1 -Hit 1 ATCCAGGATGAACGGCCCGCAACGGCCGAGAAGCTTCGGCGCGCAAGCCCACACTGGATGCGGCACACACACGCGACGCACGCGCTGGCCCGTGGCTCCGAGCTGATCATGGTGCGCGACAATCTCCGTCATGCGTCGATCTCGACGACGTCGACCTACCTGCAC >PredictedProphage1 -Hit 2 ACAATCGCCGCGAAAACAGGCGGCACCGCTATCGACGTCTCCGGCACCAGCGGTGCGCGGCAACTGAAGGGGGTTGCCGCCGGGACTGACGCGACCGATGCAGTCAACGTCAGCCAGCTCAATGCCACCATCAGTAGCGCGACCGCGAATGCTGTCGTCTACGACAGCGCGGCGCGATCGATCGTGACCCTCGGCGGACTCGGCGCATCGTTGCCGGTGACGTTGCGCAATGTGGCGGCTGGCGTTTTGTCCGGCAATAGCACCGACGCCGTCAACGGCTCCCAGCTCTACATGACGAACCAGGCTGTCGCAGCTAACACGGGTGCGATTGACGCTCTCACGAACAGCCTGACCGACGTCCAGCGCTCCATGGCCAGGAACGCAGCGCAACTGCAGCCGATCGTCAGTGCCGATGCGTTGAAGTACTTCGCGGCATCGTCGACCGGTGCACCTGCGAGCGCGAGCGGCACAGAGACAGTTGCAGCTGGAGGCAATGCACTTGCCGCCGGTGCCCACAGTGTCGCAATCGGTACCGGCGCACAGGCAATCGGCAGTGGCGCTCTCGCGCTCGGTGCGAATACATCGGCCAAGGGAAGCAACTCAATCGCCCTCGGTCAGGGTTCCGCCGCGTCGGCCGACAACACCGTATCAATTGGCAACAGTGCGACGGGGCTCACGCGCACGCTGACGAACGTCTCTGTCGGTGTCGCACCGACCGACGCCGTCAATGTCCGGCAGCTCAGCGACGCG >PredictedProphage1 -Hit 3 ATACCGGGCTGGAGCGAAGCGGACGAGAAGCAAAAGAACGGAAGCTATAACGCGAGGGCCGATTCGCTCAGTACCGCCTGGCGCAAGGTCTTCGGTTTCACGCATGGCCTCTTGCTCGTCGACGCTTTTTTCGAAAACGTGAAGCGCGACGGCCAGAATGTCGTGCTTCGCTTCGACCCGACGCCGCCGCAATACATGCAGGTCGCCTGCCTGTGGACGCGCACCGAGATCCCGGGCGGCGGCGACTTATGGTCGTTCGCGGCGATCACCGACGACCCACCGCCGGAAGTGGCTGCAGCTGGCCACGACCGATGCATCGTGCCGATCAAGTCCTCGAACGTCGACGCCTGGCTCGCACCGGACCCGTCCCGGCGTGCGCAGCTACGCGAGATCCTG >PredictedProphage1 -Hit 4 GTCGACACGGGCCATCCGGAACTGACGGCCGAACTGCCCGGCGGCGGCTGGCCAGCCGGCGCGCTGATCGAATTGCTCGCGCCACAGCCTGGCATCGGCGAGCTGCGGCTGCTGGCGCCGGTGCTCTCGCGCGCGGCCGGCAAGCCGGTCATGCTGATCCAGCCGCCGCACGCTCTGCAACCGCTGGCGCTCGCGTATTGGGGCATCGACCCGTCCGGGTTCGTGACGCTGCCGGCACCGCGCACGGCCGACGCGCTGTGGGCTGCCGAACAGGCGCTGCGCGCCGGCACCTGCGCTGCCGTGCTGCTC >PredictedProphage1 -Hit 5 GCCGGGCCCGTGATTGCGGTGCGCCTGGTCGCCCGCAGCGTGCAGGAAGCGGCCGCGCCGAGCGACTCGCTGTTCCCGGAGCCCGGCGGCACGCCGCAGGATCACGCGCGGTTGCTCGAACTGCTGACCGCACGGCTCGGCGCCGAGAACGTGCTCGTCCCGGCTCCCATGGCCGACTACCGTCCGGAGCCGGCCGCGCGATGGGTGCCGATGCGCGACGCGCCGAAGCCGTCGCCGCTGCCGGCGGATCTGCCGCGCCCGGCCTGGTTGCTTGCCAAGCCTGTACCGCTGCTCACG >PredictedProphage1 -Hit 6 GCGGAACTTCAGGTCGCCTCCGATTTCTCGTTCCTGCACGGTGCATCGCGCGCGGAGGAATACGTCGCGCGCGCGGCGCAGCTCGGGTACAGCGCGATCGCAATCACCGACGAGTGCTCGCTCGCCGGCGTCGTGCGCGCCCACGTCGAAGCGAAGGCGGCGAACATGCCGCTGATCATCGGCTCGCACTTCCGGCTGACGGCCGCCGACGGCTCGCCCGCGCTCGCCTTCACCGCGCTGGCGATGAATCGCGACGGTTACGGCAACCTCTGCGAATTCATTTCGCTTGGCCGGATGCGCAGCAAGAAAGGCACGTACCGCCTAGCGCCGCTTGATCTCGAGCATCCGGAAACGCCGTACACCCACCTCCGGAACCTGCCCGACTGCATCGCGATCCTGTCGCCCGACTTCCCGGCCAACGAGCAGCGCCTGGACGCGCAAGTCGAATGGTTCGCGCGCGTGTTCGGCGATCGCGCATGGGTCGCGCTCACGCTGCATGCGCGTGCGATGGACGATATCCATCGCGGTGTCATTGAACGCGTCGCCGCACGCCACGGCGTGCCTGTGGTGGCCACCAGCTGGCCGCTGATGCACGTTCGGTCGCGCAAGCCGCTGCAAGACGTGCTGACGGGAATTCGCGTCGGCCGACCGGTAACGGAGTGCGGGTACGAGCTCGCACCGAACGCGGAGCGTCACCTGCGATCGCGCCTGCGGCTCGCCAACCTCTATCCCGCCGGCGCGCTCGAGGAAACCGTACGCGTCGCGCGGCGCTGCACGTTCTCGCTCGACGACCTCAAATACGAGTATCCCGACGAACTGGTACCGGCCGGCACTGACCCGGCGACGTACCTGCGCGAGCAGACCTACATCGGCGCGCGGCGGCGCTTCCCCGCCGGCATCCCGGTCGACGTCCAGGCGCAGATCGAGCACGAACTGCAGCTGATCGCGGACATGCATTACGAGGCGTATTTCCTGACCGTTTACGACATCGTGCAGTTCGCGCGCGAGCAAGGAATCTTGTGCCAGGGACGCGGCTCGGCGGCCAACTCGGCGGTCTGCTATTGCCTTGGCGTGACCGAAGTTGACCCGTCACGACAATCGATGCTGTTCGAGCGCTTCATCAGCAAAGAACGCAATAGTCCACCGGACATAGATGTCGACTTCGAGCATCAAAAACGCGAAATCGTTATGCAGTATATCTACCGTAAGTACGGCCGCGATCGCGCAGCGCTGACGGCCGCCGTCACGACGTACCGGCCGCGCAGCGCGTTGCGGGAAGCCGGCAAGGCGCTCGGCGTGGATCCGGCGATCGTCGAGCGAGTGGCAAAGCAGCATCACTGGTTCGACTCGCGCGCCGATCTGCTGCAGCGGTTTGCCGAGGCCGGCCTAGATCCCGGAGCGCCGCTGAACCAGCAGTGGGCCGGATTTGCCGCGCAGCTGCTCGGCTACCCACGGCACCTGTCGCAACACTCGGGCGGCTTCGTGATCAGCCGCGGCAAGCTCACCCGACTCGTACCGGTCGAGAATGCAGCGATGGAGGACCGCTCGATCATCCAGTGGGACAAGGACGACATCGAGGCCCTCGGCATCTTGAAGGTCGATTGCTTAGCCCTCGGAATGCTGTCGATGGTGCGCCGCGCGCTCGACATGATTTCCGAAAAACGAGGCGAGACGTTCGAACTGCAGGACATCCCGGCCGAGGACAAGGCGACCTACGACATGCTGTGCGACGGCGACAGCATGGGCGTGTTCCAGGTGGAATCGCGCGCGCAGATGTCGATGCTGCCGCGCCTGCGGCCGCAGTGCTTCTACGATCTGGTGATCGAAGTCGCGATCGTGCGGCCGGGCCCGGTGCAGGGTGGGATGGTGCATCCGTTTCTGCGCCGGCGCCAAGGATTGGAGCCCGTCACGTTTCCGTCGGAAAGCATGGAGAAGGCACTGGCGCGCACGCTCGGCGTGCCGATCTTCCAGGAGCAGGTGATGCAGGTCGCGATGCTGGCGGCCGGCTTCTCCGCCGGCGAAGCCGACCAGCTGCGCCGCGCGATGGCGGCATGGAAGCGCAAGGGTGGACTGGAGCCGTACCACGAGCGTCTCGTGAGCGGCATGCTCGAGCGCGGCTACGACCGCGAGTTCGCGGAATCCATCTTTGCGCAGATCAAAGGCTTCGGCGAGTACGGCTTCCCGGAAAGCCACGCGGCCAGTTTCGCGCTGCTCGTCTACTCGAGCGCCTGGCTGCGTCGACACGAACCTGCTGTGTTCCTGGCCGCCCTGCTCAACAGCCAGCCGATGGGCTTCTACACGCCCTCGCAGCTGCTGCAGGACGCGCGACGCCGCGGCGTTGAGGTGCTGCCTGTCGACGTCAACGTGAGCACATGGGATTCAACGATCGAAGGGCCGACGACTTCGGCACCCGTGCGCCTCGGTTTCTCGCTGTTGCGCGGCATGCGCGAGGACGTCGCCGGCCGCATCGAGCTCGCACGCGCAGCGCGGCCATTCGTCGACGTC >PredictedProphage1 -Hit 7 TTCATCGAGCCGTCGCTTGCTGTGCTTGCTGCAGAACCCCCAACGTCGGGAGAGTGGGGATATGAGATCAAATTCGACGGCTACCGGATGCTCGCGCGTATCGACGCTGGTGACGTTCGAATCTTCACCAGGAACGGCCACGACTGGACCGCCCGACTACCGCACCTGAGGTCCGTCCTTGAACGATTGCCGGTCAACCGTGCATGGATTGACGCGGAGGCCGTCTGGTTCGATACAGAAGGGCGCCCAAACTTCAACGGCCTGCAGAATGCGTTTGATAGACGTCGAACTGCGGGGATTTCGCTTGTCGTCTTCGACCTGATGTGGCTTAACAACAATGATCTCCGGCCGTGGACGTGGCGTGAACGCCGCGCCACGCTGACGAAGCTCGTTGCCGAAATTCTCGGGGACGAGGTGCGCTTCTCTGAGGCGATCGATGCCGACCCTGACGCCATGCTGGCCTCGGCGTGTGCCCTCGGCCTAGAGGGAATCATGGGCAAGCGGGTGGACGCGCCGTATCGCTCAGGAAGATCGGACCGCTGGATCAAACTCAAATGCAGTAGACGCCAGGAGTTCGTCATTGGCGGATTTTCGCGCCGT >PredictedProphage1 -Hit 8 ATGACCACCCGAACCGAAGCAATCGCCAACGCAGACGCTCAACTGAGCCGCGCGGGTCTCTACACCCATAGTGGCGTGCTCAACGAGCTGCGCAACGTGCTCGAGGCCGTGAAAGCAGGCGTGCCGGAAACGGTAGGCTACGGCGAG >PredictedProphage1 -Hit 9 GCGAACGAGTGGCTGGCAGCTGATCCGCTGTTCATCGACACCGAAACGACCGGCCTGGATCACCAGGCGGCGATCGTCGAGATCGCGATTCTCGATCGCGCCGGCGCCGTGCTGATCGACACGCTCGTGAAGCCTGCCATGCCGATACCTGCGGCTGCGACGGAGATCCACGGAATCACCGACGCGGACGTCGCCGGCGCGCCCGCCTGGAACACGATCGGTCCGCAGGTGGCCGAGCTGCTCGCCGGCCGACTGTTGATCGCCCACAACGGTGCGTTCGATGAGCGTTTGCTATACCAAACATCGCGATCCCACGGCGTGACGTTGCCTGCGCTGCGCGTTGAATGCACGATGGAATTGCTGAACGGCTGGGCCGGTCGCTGGCTCAGTCTGGCCGACGCCGCGCTGATGCTCGGCGCCGGGACATTCGCGGCCCGTCATCGGGCCTGTGCAGATGCCGAGCAATGCCGCCAGATCGTG >PredictedProphage1 -Hit 10 CAGCGGCGTAAGCTGGCCAGCACCTCACCCCATGCGTTCCGGCACACGGTCGGCACGCAGATGCTGGCCGCCGGTGTCGCGCTCGAGGTCGTACAGCGCACGCTCGGCCACGCGTCGCTCGGCACGACG Predicted Protein Sequences: >PredictedProphage1 -Hit 1 IQDERPATAEKLRRASPHWMRHTHATHALARGSELIMVRDNLRHASISTTSTYLH >PredictedProphage1 -Hit 2 TIAAKTGGTAIDVSGTSGARQLKGVAAGTDATDAVNVSQLNATISSATANAVVYDSAARSIVTLGGLGASLPVTLRNVAAGVLSGNSTDAVNGSQLYMTNQAVAANTGAIDALTNSLTDVQRSMARNAAQLQPIVSADALKYFAASSTGAPASASGTETVAAGGNALAAGAHSVAIGTGAQAIGSGALALGANTSAKGSNSIALGQGSAASADNTVSIGNSATGLTRTLTNVSVGVAPTDAVNVRQLSDA >PredictedProphage1 -Hit 3 IPGWSEADEKQKNGSYNARADSLSTAWRKVFGFTHGLLLVDAFFENVKRDGQNVVLRFDPTPPQYMQVACLWTRTEIPGGGDLWSFAAITDDPPPEVAAAGHDRCIVPIKSSNVDAWLAPDPSRRAQLREIL >PredictedProphage1 -Hit 4 VDTGHPELTAELPGGGWPAGALIELLAPQPGIGELRLLAPVLSRAAGKPVMLIQPPHALQPLALAYWGIDPSGFVTLPAPRTADALWAAEQALRAGTCAAVLL >PredictedProphage1 -Hit 5 AGPVIAVRLVARSVQEAAAPSDSLFPEPGGTPQDHARLLELLTARLGAENVLVPAPMADYRPEPAARWVPMRDAPKPSPLPADLPRPAWLLAKPVPLLT >PredictedProphage1 -Hit 6 AELQVASDFSFLHGASRAEEYVARAAQLGYSAIAITDECSLAGVVRAHVEAKAANMPLIIGSHFRLTAADGSPALAFTALAMNRDGYGNLCEFISLGRMRSKKGTYRLAPLDLEHPETPYTHLRNLPDCIAILSPDFPANEQRLDAQVEWFARVFGDRAWVALTLHARAMDDIHRGVIERVAARHGVPVVATSWPLMHVRSRKPLQDVLTGIRVGRPVTECGYELAPNAERHLRSRLRLANLYPAGALEETVRVARRCTFSLDDLKYEYPDELVPAGTDPATYLREQTYIGARRRFPAGIPVDVQAQIEHELQLIADMHYEAYFLTVYDIVQFAREQGILCQGRGSAANSAVCYCLGVTEVDPSRQSMLFERFISKERNSPPDIDVDFEHQKREIVMQYIYRKYGRDRAALTAAVTTYRPRSALREAGKALGVDPAIVERVAKQHHWFDSRADLLQRFAEAGLDPGAPLNQQWAGFAAQLLGYPRHLSQHSGGFVISRGKLTRLVPVENAAMEDRSIIQWDKDDIEALGILKVDCLALGMLSMVRRALDMISEKRGETFELQDIPAEDKATYDMLCDGDSMGVFQVESRAQMSMLPRLRPQCFYDLVIEVAIVRPGPVQGGMVHPFLRRRQGLEPVTFPSESMEKALARTLGVPIFQEQVMQVAMLAAGFSAGEADQLRRAMAAWKRKGGLEPYHERLVSGMLERGYDREFAESIFAQIKGFGEYGFPESHAASFALLVYSSAWLRRHEPAVFLAALLNSQPMGFYTPSQLLQDARRRGVEVLPVDVNVSTWDSTIEGPTTSAPVRLGFSLLRGMREDVAGRIELARAARPFVDV >PredictedProphage1 -Hit 7 FIEPSLAVLAAEPPTSGEWGYEIKFDGYRMLARIDAGDVRIFTRNGHDWTARLPHLRSVLERLPVNRAWIDAEAVWFDTEGRPNFNGLQNAFDRRRTAGISLVVFDLMWLNNNDLRPWTWRERRATLTKLVAEILGDEVRFSEAIDADPDAMLASACALGLEGIMGKRVDAPYRSGRSDRWIKLKCSRRQEFVIGGFSRR >PredictedProphage1 -Hit 8 MTTRTEAIANADAQLSRAGLYTHSGVLNELRNVLEAVKAGVPETVGYGE >PredictedProphage1 -Hit 9 ANEWLAADPLFIDTETTGLDHQAAIVEIAILDRAGAVLIDTLVKPAMPIPAAATEIHGITDADVAGAPAWNTIGPQVAELLAGRLLIAHNGAFDERLLYQTSRSHGVTLPALRVECTMELLNGWAGRWLSLADAALMLGAGTFAARHRACADAEQCRQIV >PredictedProphage1 -Hit 10 QRRKLASTSPHAFRHTVGTQMLAAGVALEVVQRTLGHASLGTT Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig370 Genome size: 138710 Host's GC content: 67.90 Predicted Codon Position GC: 1st: 68.66 2nd: 45.03 3rd: 82.59 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig371 Genome size: 135366 Host's GC content: 67.31 Predicted Codon Position GC: 1st: 68.30 2nd: 44.87 3rd: 81.59 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig372 Genome size: 125921 Host's GC content: 67.05 Predicted Codon Position GC: 1st: 68.14 2nd: 44.80 3rd: 81.15 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig373 Genome size: 138849 Host's GC content: 67.77 Predicted Codon Position GC: 1st: 68.58 2nd: 45.00 3rd: 82.37 >PredictedProphage1 Length: 15599 Number of hits = 7 GC Coding First Second Third 66.15 65.34 59.36 45.92 90.74 Codon Usage: AA Codon Total Percent Leu TTG 6 0.0382165605095541 Leu TTA 1 0.00636942675159236 Leu CTG 87 0.554140127388535 Leu CTA 3 0.0191082802547771 Leu CTT 4 0.0254777070063694 Leu CTC 56 0.356687898089172 Lys AAG 51 0.910714285714286 Lys AAA 5 0.0892857142857143 Glu GAG 38 0.584615384615385 Glu GAA 27 0.415384615384615 Gln CAG 37 0.902439024390244 Gln CAA 4 0.0975609756097561 End TGA 0 0 End TAG 1 0.5 End TAA 1 0.5 His CAT 7 0.194444444444444 His CAC 29 0.805555555555556 Asn AAT 10 0.227272727272727 Asn AAC 34 0.772727272727273 Ser AGT 4 0.0327868852459016 Ser AGC 34 0.278688524590164 Ser TCG 72 0.590163934426229 Ser TCA 1 0.00819672131147541 Ser TCT 1 0.00819672131147541 Ser TCC 10 0.0819672131147541 Trp TGG 13 1 Arg AGG 5 0.0549450549450549 Arg AGA 0 0 Arg CGG 31 0.340659340659341 Arg CGA 3 0.032967032967033 Arg CGT 7 0.0769230769230769 Arg CGC 45 0.494505494505495 Ala GCG 91 0.56875 Ala GCA 13 0.08125 Ala GCT 2 0.0125 Ala GCC 54 0.3375 Cys TGT 0 0 Cys TGC 18 1 Asp GAT 17 0.278688524590164 Asp GAC 44 0.721311475409836 Gly GGG 18 0.137404580152672 Gly GGA 2 0.0152671755725191 Gly GGT 6 0.0458015267175573 Gly GGC 105 0.801526717557252 Phe TTT 5 0.0684931506849315 Phe TTC 68 0.931506849315068 Tyr TAT 8 0.242424242424242 Tyr TAC 25 0.757575757575758 Met ATG 44 1 Val GTG 57 0.513513513513513 Val GTA 2 0.018018018018018 Val GTT 1 0.00900900900900901 Val GTC 51 0.459459459459459 Thr ACG 62 0.639175257731959 Thr ACA 1 0.0103092783505155 Thr ACT 2 0.0206185567010309 Thr ACC 32 0.329896907216495 Pro CCG 71 0.865853658536585 Pro CCA 0 0 Pro CCT 0 0 Pro CCC 11 0.134146341463415 Ile ATA 1 0.00847457627118644 Ile ATT 6 0.0508474576271186 Ile ATC 111 0.940677966101695 Left Right Strand Best Blast Hit Score Evalue 49500 50066 1 ref|YP_024939.1|gp19 38.1bits(87) 0.21 54315 55199 -1 ref|NP_817564.1|gp117 332bits(850) 7e-90 57985 58983 1 ref|NP_945090.1|gp59 140bits(352) 4e-32 59389 59583 1 ref|NP_945090.1|gp59 38.9bits(89) 0.13 60092 60952 -1 ref|NP_945089.1|gp58 51.2bits(121) 2e-05 63360 63638 -1 ref|NP_536385.1|conserved hypothetical protein 48.9bits(115) 1e-04 64220 65098 1 ref|NP_945089.1|gp58 60.8bits(146) 3e-08 DNA sequence: AGTCAGTGCGCGTGCGGCACGCTGCGGCGTTTCCTGAGCGCATAACCGATCGCGACGACGAACAACGCGCCGACGATGCTCGCGCCGTAGACCACTTCCGGCGCATCAAGCACCGGCCAGCGGTCGCCGACCGGGTCGTTCACGATCAAGCCGCCCGCGATCCAGCCGAGCAGCCCGGCGCCGAATGCCACGACGACCGGGAAACGGTCGAGCAGCTTCAGCACCAGCGTGCTGCCCCACACGATGATCGGCACGCTGACGATGAGCCCGAAGATCACGAGCGCGATCCGGTGCGACGGATCGGCCTGCTCGGCCGCGCCGGCGATCGCGATCACGTTGTCGAGGCTCATGACCGCGTCGGCGATCACGATCGTCTTCACGGCGTCCCACAGCCGGTCGGCCGGCTTGATGTTGTCGTGCGCGTCGGCGGCCGGCGCCATCAGCTTGATGCCGATCCACAGCAGCAGCAGGCCGCCGCCGAGCTTCAGGAACGGCACGTCGAGCAGCGCGACCGCGAACGTGATCAGCGCGACACGCAGCAGGATCGCCCCCGCAGTGCCCCAGACGACGCCGCGCAGCCGCTGGTTCGCCGGCAGGTTGCGGCACGCAAGCGCGATCACGACCGCGTTGTCGCCGCCGAGCAGGATATCAATGATGACAATCTGGAGAATGGCGCCCCAGTGCAGCGAGGTCAGGAATTCGAGCATAGCGGAGAGGAAAGGACAACGGCCGCCTCGCGGGCGGCCCGGTTCATCGTAGGCGCATGCAGAACGCATGCCCGGTGCTTACGAATTCATTGCGGGAGCATAACAAAAAACGCCGGCAAAGCCGGCGTTTTTTGCAGGACGAGCCCAATGGAAATGATTACAGCGCCTTCTTCAGCAGACGGCCCATTTCCGACGGGTTGCGCGTGACGGTGATGCCGCACGCTTCCATGATTTCCAGTTTCGCTTCGGCCGTATCCGCACCGCCCGAGATCAGCGCGCCGGCGTGGCCCATGCGCTTGCCCGGAGGCGCCGTGACGCCCGCGATGAAGCCGACCACCGGCTTCTTCATGTTGTCCTTGATCCACTCGGCGGCGTTGGCTTCGTCCGGACCGCCGATTTCGCCGATCATCACGACCGCATCCGTATCCGGATCGTCGTTGAACATCTTCATCACGTCGATGTGCTTCAGACCGTTGATCGGGTCGCCGCCGATACCGACTGCCGACGACTGGCCGAGGCCGAGTGCCGTCAGCTGGGCAACCGCTTCATACGTCAGCGTGCCCGAACGCGACACGACGCCGATGCGGCCCTTGCGGTGGATGTGACCCGGCATGATGCCGATCTTCAGTTCGTCCGGCGTGATCGTGCCCGGGCAGTTCGGCCCGAGCAGCAGCGTCTTGCGGCCTTCGCGACGCATGCGGTCCTTCACTTCGATCATGTCACGGACGGGGATGCCTTCCGTGATGCAGATCGCGAGATCCAGGTCGGCTTCGACCGCTTCCCAGATCGCAGCGGCCGCGCCTGCCGGCGGAACGTAGATGACCGACACGGTCGCGCCGGTTTCCGCCTTCGCTTCCTTGACGCTCGCGTAGATCGGAATGCCTTCGAAGTCTTCGCCGGCCTTCTTCGGGTTCACGCCCGCGACGAATGCTTCGCGGCCGTTTGCGTATTCACGGCAGGCGCGCGTATGGAACTGACCGGTTTTGCCGGTAATGCCCTGCGTGATGACCTTCGTGTCCTTGTTGATCAGAATCGACATGTATTTTGACCTCTGTTCGATGGGCGTCGCGTGCAAACCGCGCCGCCCTACGTGTTCATTAGCGCGTGCTTACTTGCCTGCGGCAGCCGCGACGACCTTCTGCGCAGCCTCTTCCATGCTGTCCGCCGAGATGATCGGCAGGCCCGAATCGGCCAGCATCTTCTTGCCGAGGTCCTCGTTCGTGCCCTTCATGCGCACGACCAGCGGCACGTTCAGGTTCACGGCCTTCGAACCGGCGATCACGCCTTCCGCGATCACGTCGCAGCGCATGATGCCGCCGAAGATGTTCACGAGGATCGCCTTCAGGTCCGGGTTCTTCAGCATCAGCTTGAACGCTTCCGTGACCTTCTCGGTCGTCGCGCCTCCGCCGACGTCCAGGAAGTTCGCCGGTTCGCCGCCGAACAGCTTGATCGTGTCCATCGTCGCCATCGCGAGGCCCGCGCCGTTCACGAGACAGCCGATGTTGCCGTCGAGCGAGATGTACGCGAGGTCGAACTTCGACGCTTCGATTTCAGCCGGATCTTCTTCGTCCAGATCGCGGTACGCGACGATTTCCGGGTGACGGAACAGCGCGTTCGAGTCGAAGTTGAACTTCGCGTCGAGTGCGGTGACCTTGCCGTCGCCGGAGACGTTCAGCGGGTTGATTTCGGCCAGCGATGCGTCGGTTTCCCAGAATGCCTTGTACAGGCCTTGCAGGATCGCGCGCGCTTGCGGAATCGACGCAGCCGGCACGCCGATCTTCGCGGCGAGGTCGTCGGCCTGCGCGTCCAGCAGGCCCGTCGACGGCTCGACGATGACCTTGTGGATCAGTTCCGGGTGCTTCTCGGCGACTTCTTCGATGTCCATGCCGCCTTCGCTCGAGCCCATCAGCACGATCTTCTGCGAGATGCGGTCGACGACGAGGCTGACATACAGTTCCTGCTTGATGTCGGCGCCTTCCTCGATCATCAGACGGTTGACCTTCTGGCCTTCCGGACCGGTCTGGTGCGTGACGAGCTGCATGCCGAGGATCTGGTTCGCGTATTCGCGGACCTGCTCGATCGACTTCGCCACCTTCACGCCGCCGCCCTTGCCACGGCCACCCGCGTGAATCTGAGCCTTCACGACCCATACCGGGCCGCCGAGCTCTTCCGCCACCTTGACGGCCTCGTCAACCGAGAACGCCGGCTTGCCGCGCGGTACCGCGACTCCGAATTTCCGCAGGATTTCCTTACCCTGGTACTCGTGAATCTTCATGCGTGATTCCCTTCAGTCTGAGAGTTGGATGAAAAGTCGCTTAAGACGCTTCTTCGAATGATTTCCGTTCATTCCTTCGTGCTGCCTTCACCGGGCAGATCCGGCCGAATCGGGCCGTACCAGCGCGGGTAGTACTGCCGCACGACCTCACCGTCGAATCGCAGCGCGCGGCAGCGGCCGAGCTGGAAAGGCGGTTCGGCGTGCGCGCCGTCGTGATCCGGCCCTTCGCCGCCCTCCTCGCGCACGTTCCACACGTCACCGGCGAACGCCTGGATCGCGGCCGTCGGCAGCACGGCGCACAGTTCGGTGAGATGGGAACAGCCTGCGACGCCGGCGAGCAGCCGGTTCGCGTTGCGGCGGAAATTGCGGAAGAGATTGAGCCCGATGAGGGCCCGATAGGTGGGCGGGGCGGATTGACAATGACCAGGATAGGGCACCCATTCCGAAGACGCTTCGGCGTCGACGACATTGAGGTCACGATCGATGGTCACGCGCAGCCAGAGTTCGTGGATCGGCAGACCCTGGGGCCGGATGCCCGACGCAAGCGCGACATCGCGCGGCTTGTGGTCGGTCAGGCAGGCTTCGATGTCCCACAAGCCGTCGCCGCGCTCGTAGGCTTCCGCTCGGATTGCGCGTCGATGTCGCAACTGACGGGGCACGGGCTCGGATAGCGGCATGCTGGAGGTTGAGGCCGAAGAGGAAAACCCGTGGATTTTAGCATATTGGGTATTTGAGACAGTTTGCCGCGACGGCGGGTATTCCCGCCTGTCCGGAAGCGGTTGCAATGCAGCAAAATCGCGCGCCACGCGCGCGACCGGGCGGCTCAGTCGTCGATCGGGAAATCGTCGCCGACCTTCAGCAACTTCACGATGGTCGCGCTCGAGAAGCCGCGCGCGGCCAGGAAGCGCGCCTGCTTCGCGCGTTCGGCGGGCGTTTGCGGCAGTGCACCGAATTTCTTGCGCCAGACAGCCTGCGCGCGCGTCAATTCGGTCTCGCGCAATTGGGCATTCACCTCTTCGACGAGACTGTCGCCGACCGCATGGCGCTTCAGCTCGCTGACGATGCGCGCGACGCCGACACGCGACGCGCGACGATGCACGAGGCTCTCGGCGAAGCGCGCGTCGGACAGCCAGCCTTCCTGTTCCAGCGCATCGAGCACCGGTTCGATGGACTCGCCTTCGTCGACGTAGGGTGCGAGCTTGCGCGCGAGCTCCGCGCGGCTGTATTCACGCCTCGACAGATAGCCGAGCGCGCGGCCCTTCAACGACCGCGGCGGCTTCGACGACTTGCGCTCGCTGGCGCCCGGCGCGTCGCTCGAAGCAGCGCCGCTGGAAGATGCGCCGAAAGACGCACCGGCTGCGCGGCGTGTGCGGCGCGGATGCTGGCTGCTGCGCGTATAGACATCTTCCGTCGCGGGCGCATCGGCTGTGCGATTGCTCGGGGCGCGATCGCCCGGGAAGCGGACACCGGACACGCGACGGCGGGAGCGATCATGCGCGTCGAACGACTCGTCGTCGTCGAACGGATCGTCCGGTGCGGCAATCTCAAATGAAACGAGGGCATCGTCGGATGCCCTCGTCGCAGTGCGGTTCGCGGCGTTGCCGCCTGCGCCCCGCCGGTCGGCGCCCGAGGAACCGGCTCGCCGGCCGGAGCGACCCGCCGTTTCGGGCACGTCGCTCTCCTCCGGCTCGCCAGCCTGACCTCGGCGCACAACCATTACTCTTCTTCGTCCAACGCCTCGGCTTCGTTGGCTACGCCATCGGGCATGCTGACGACACCGAGCGATTCGCGGATGCGGTTTTCGATCTCGCGTGCGATTTCCGGATTCTCGCGCAGGAATTCACGCGCATTGTCCTTGCCCTGGCCGATCTTCTCGCCGTTGTAGCTGTACCAGGCGCCGGCCTTGTCGACGATCTTCGCCTGCACGCCGAGATCGATGATCTCGCCCTGACGCGAAATACCTTCGCCGTACAGGATGTCAAAGATCGCTTCGCGGAACGGCGGCGACACCTTGTTCTTGACGACCTTCACGCGGGTTTCGTTGCCGATCACCTCGTCATTCTTCTTGATCGAACCGATCCGGCGAATGTCGAGACGCACCGACGAATAGAACTTCAGCGCGTTGCCGCCCGTGGTGGTTTCCGGGTTGCCGAACATCACGCCGATCTTCATCCGGATCTGGTTGATGAAGATCACCAGGCAGTTCGTGCGCTTGATCGTGCCGGTCAGCTTGCGCAGCGCCTGCGACATCAGGCGAGCCTGCAGACCCGGCAGCGAATCGCCCATCTCGCCTTCGATTTCGGCCTTCGGCACGAGCGCCGCGACCGAGTCGATGACGATCATGTCGATCGAGCCCGAGCGCACCAGCGCATCGGTGATTTCGAGCGCCTGCTCGCCGGTGTCCGGCTGCGAGATCAGCAGTTCCGGCACGTTCACGCCGAGCTTCGACGCGTACTGGACGTCGAGCGCGTGCTCGGCGTCGATGAACGCCGCGGTGCCGCCGATCTTCTGCAGTTCAGCGATGACTTGCAGCGTGAGGGTGGTCTTACCGGACGATTCCGGACCGTAGATCTCGACCACCCGGCCGCGCGGCAGGCCGCCGACGCCCAGCGCGATGTCGAGACCCAGCGACCCCGTGGAGACGACCTGGATATTCTCGGCCGCCTCGCCGTCGCCCATGCGCATGATCGAGCCCTTGCCGAACTGCTTCTCGATCTGTGCGAGTGCGGCCGCCAGCGCCTTGCTCTTCTCGGCGGTCATCCCGGAGCCCTTCTTGCTATCTTCCATGAATCGTCCTTTGCTATGATGAGCAGCGTCTGTTGGAGGCGCGCCCGCTTCAAGCGCTGCCCACGAATGCAGACACTGTATAAAAAAACAGTGTTTTGTGCAAGCCCGCAATGCAAAGCGTTGTGCACGAATAACTTCGGAGACAGCCGCGCCGGCGCGAACGCCCTGCCGGCACCGGTCAGCAACATGCGAATTCTCATCGCCGAAGACGACAGCATACTCGCGGACGGCCTCACCCGGTCACTCCGCCAATCGGGCTATGCCGTCGATCACGTGAAGAGCGGCGTCGACGCCGACACCGCGCTGTCGATGCAGACTTTCGACCTGCTGATCCTCGATCTCGGGCTGCCGAAAATGTCCGGGCTCGACGTGCTCAAGCGCCTGCGCGCGCGCAATTCCAATCTCCCCGTGCTGATCCTGACCGCCGCCGACAGCGTCGACGAACGCGTGAAGGGGCTCGACCTCGGCGCCGACGACTACATGGCCAAGCCGTTCGCGCTCAACGAGCTCGAGGCGCGCGTGCGCGCGCTGACCCGGCGCGGCGCCGGCGGCGGCCCGACCGTCGTGCGCCACGGCTCGCTCGCGTTCGACCAGGTCGGTCGCATCGCGTACGCGAACGATCACGTGCTCGATCTCTCCGCGCGCGAGCTCGGCCTGCTCGAGGTGCTGCTGCAGCGGATCGGCCGGCTCGTGTCGAAGGAACAGCTCGTCGATCACCTGTGCGAATGGGGCGAGGAAGTCAGCAACAACGCGATCGAAGTCTACGTGCACCGGCTGCGCAAGAAGATCGAACCGAGCGGCGTGCGGATCTCGACCGTGCGCGGCCTCGGCTATTGCCTCGAGAAGGTCGCGCCCGCGACGCCGGCCGACACGGCGGCGCCCCAGCCCGCGGCGGCCGGCACGCCGCTGCGCTGACGCCGGGCGGCGCCGCGATGGCCACGCCGGCCCATTCCCCTTCCCGCCACCCGACCGGCGCGCCGTCGTCGGCTGCCGACGAGGCGCGCGACGCGCGCTACGAGAACCCGTTCGCGCCGCCCGACGAGACCGAATCGCCCGAAACGCCGCGCCCGCGCTCGCTGTTCGGCGAAATCCTCGACTGGATGCTCGCGCCGCTGCTGCTGCTGTGGCCGATGAGCATCGCCGTCACCTATCTCGTCGCGAAGACGATCGCGAACAGCCCGTTCGATCGCGCGCTCGAGACCAACGCCTACGTGCTCGCGCGCCAGATCCATCCGGTCAACGGCGTCGCCGAGCTGACGCTGCCGGAGCAGACGCGCGACTTCCTGCGCGCGGACAACATCGACAGCGTCTACTTCCAGGTGCTCGGCACGCGCGGCGAGCTGGTCGCGGGCGAGGCCGACATGCCGCTGCCGCGTGACGAGGACCGCCCGCCGCCGGGCGTCGTCGTGTTCCGCGACGACCTGCTGCGCGGCAACGACGTGCGCGTCGCGTATACGACCGTCGCGCTGCCGCAGACGAGCGGCGCGCAGCCCGTGCTCGTGCAGGTCGGCGAGACGCTCGACAAGCGCAATGCGCTCGCCAACGACATCATCAAGGGCGTGATCCTGCCGCAATTCGTGATCCTGCCGCTCGCGATCCTGCTCGTCTGGTTCGGGCTGTCGCGCGGGCTCGCGCCGCTCAACGCGCTGCAGGCGCACATCCGCGCGCGGCGGCCCGACGACCTGTCGCCCGTCGAGGCGCAGCGCGCGCCGCCCGAGATCGAGCCGCTCGTCACGTCGTTCAACGACCTGCTCGCGCGCCTCGAACAAAACATGGCGCTGCAGAAACGCTTCATCGCCGATGCCGCGCACCAGATGAAGACGCCGCTCGCGGGCCTGCGCACGCAGGCCGAGTTCGCGCTGCGCCACCCGGTGCCGCCCGACGTGCAGCGCTCGCTCGAGCAGATCGCGACGAGCTCCGAGCAGGCCGCGCGGCTCGTCACGCAACTGCTGGCGCTCGCGCGCGCCGAGAACCGCGCGAGCGGGCTGACGTTCGAGCCGGTCGAGATCGGTTCGCTCGCGCGGCGCACCGTGCGCGACTGGGTGCAGGCCGCGCTCGCGAAACGCATGGACCTCGGGTACGAAGGCCCGGACGACGATGCGCCGCTCGAGGTCGACGGCAACCCGGTGATGCTGCGCGAGATGCTCGGCAACCTGGTCGACAACGCGATCCGCTATACGCCCGAAGGCGGCCGCATCACGGTGCGCGTGCGGGCCGAGCGCGCGGCGCGGCGCGTGCATCTCGAAGTCGAGGATACCGGCCCCGGCATCCCGGCCGGCGAGCGCGAGCGCGTCGTCGAGCGTTTCTACCGGATCCTCGGCCGCGAAGGCGACGGCAGCGGCCTCGGGCTCGCGATCGTGCGCGAGATCGCCACGCAGCACGGCGGCACGCTGACGCTCGACGATCACGTCTACCAGCACGCGCCGCGCCTCGCCGGCACGCTGGTGCGCATCAGCCTGCCGCTCACCGATACCGCCCCGGATTAACCCTGACGCGCGCCGCCACGGCACGGCGCCAATACGCAGAAACCGGCGCTTTACCGGACGTTCACGCCACGATCGACACGCGAAGCGACCGATTCGACACGGGTTAACGCGCAGTCGTTTTGTACGCGCAAGTCAGTGCGCCGTAAGTTTCCGTGCCAATAATCGTCGACAGGCCCGCCCCTCCCAAGGCGGCCGCACATCTATATCAAGGGACTTGGAGACGATTCATGGCAACGTTAGGCGGGCAAATTTCGCACTCGCCGATGACGGGCGAAGAGAAGAAGGTGATCTTCGCGTCGTCGCTCGGCACCGTGTTCGAGTGGTACGACTTTTACCTGGCCGGCTCGCTCGCGGCCTACATCAGCAAGAGCTTCTTCTCCGGCGTCAATCCGACCGCCGCGTTCATCTTCACGCTGCTCGGCTTCGCCGCCGGCTTCGCGGTGCGGCCGTTCGGCGCGATCGTCTTCGGCCGGCTCGGCGACCTCGTCGGCCGCAAGCACACGTTCCTCGTGACGATCGTGATCATGGGCGTCTCGACGTTCGTGGTCGGCTTCCTCCCGGGCTACGCGTCGATCGGCATCGCCGCCCCCGTGATCTTCATCGCGATGCGGCTGTTGCAGGGCCTCGCGCTCGGCGGCGAGTACGGCGGCGCGGCGACCTACGTCGCCGAGCATGCGCCGGCCAACCGGCGCGGCTTCTACACCGCCTGGATCCAGACGACGGCCACGCTCGGCCTGTTCCTGTCGCTGCTCGTGATCCTGGGCGTGCGCACGTTCATCGGCGAGGAAGCGTTCGGCAACTGGGGCTGGCGCGTGCCGTTCGTCGCATCGATCCTGCTGCTCGGGGTGTCGGTGTGGATCCGGCTGCAACTGAACGAATCGCCGGTGTTCCTGCGCATCAAGGCGGAAGGCAAGACGTCGAAGGCGCCGCTGACCGAAGCGTTCGGCCAGTGGAAGAACCTGAAGATCGTGATCCTCGCGCTGATCGGCCTGACGGCCGGCCAGGCGGTCGTGTGGTACACGGGCCAGTTCTACGCGCTGTTCTTCCTCACGCAGACGCTGAAGGTCGACGGCGCCAGCGCGAACATCCTGATCGCGATCGCGCTCCTGATCGGCACGCCGTTCTTCCTGTTCTTCGGCTCGCTGTCGGACAAGATCGGCCGCAAGCCGATCATCCTTGCCGGCTGCCTGATCGCCGCGCTGACCTACTTCCCGCTGTTCAAGGCGCTCACGCACTACGCGAACCCGCAGCTCGAACTCGCGACGCAGAAGGCGCCGATCACGGTCGTCGCCGATCCGGCTACCTGCTCGTTCCAGTTCAACCCGGTGGGCACGTCGAAGTTCACCACCTCGTGCGACATCGCGAAGAGCGCGCTCGCGAAGGCCGGCCTGAACTACGAGAACGTCGCGGCGCCGGCCGGCACGCTGGCCGAAATCAAGGTCGGCGACACGGTGATCCAGACCTACGACGGCAAGGCGGCCGACGCGAAGGCGCAGGGCGCGGCGTTCGACAAGACCCTCGCGTCGACGCTGAAGGGGGCCGGCTACCCGGCGAAGGCCGACCCGGCGCAACTCAACTGGCCGATGACGATCGTGATCCTGACGATCCTCGTGATCTTCGTGACGATGGTCTACGGCCCGATCGCCGCGATGCTGGTCGAGATGTTCCCGACGCGAATCCGCTACACGTCGATGTCGCTGCCCTATCACATCGGCAACGGCTGGTTCGGCGGCTTCCTGCCGGCAACTGCGTTCGCGATCGTCGCGGCGAAGGGCAACATCTACTCGGGGCTCTGGTATCCGATCGTGATCGCGCTGGCCACGTTCGTGATCGGCCTGCTGTTCGTCAAGGAGACGAAGGACTCGGACATCTACGCGCAGGATTGATGTCGGGTCCGCGGCGGGGGAGGGCCGACGGAGGATCGCCTTCCGGCGCCCGGCTCCCGCCCGCGATGGAGGCCGGCACGGACCGTCGGCAACTTTTTTCGGGAAAGATGGAAAAAGGTATTGACAGCTGACCGGCCGATCGACATAATTCAAGTCTTCACGGCGAATTAGCTCAGTCGGTTAGAGCGACGGAATCATAATCCGCAGGTCCGGGGTTCGAATCCCTGATTCGCCACCAAATGCGAAAAGCCGCTGTTTCTTTCGAAACAGCGGCTTTTTTCATTGCTTCATCGGGCGCACGCGGCGGCGCGCGTTGCCCGCCTTCAGGCCGCGCGCTGCGCCCAGACTACGCCACCACCGCTCCGCGCTGCGTATCCGGCGTCTCCGCCCGCAGCTTCCCCCGCCAGTTCTCCCCGCCCTCCAGCGCCGGCGTCGACTCGAACACCTCCGCGATCCAGTCGGCGAACACGCGCACCTTCTGCGACAGATGCCGGTTGTGCGGGTAGACGATCGAGATCGGCTTCGGCTTCGGATTGCTGTCCGGCAGCACCTCGACCAGCGAGCCGTCGAGCAGGTGCGGCAGCACCATGAACAGCGTCGGCTGGATCATCCCGAAGCCTTCGAGCCCGCACGTCACGTAGGCATCCGAGTCGTTGACCGTGACGCTGCCGTTCATCCGCACCTCGAACGGCTTGCCGTCGATCATGAACACCCACGGAATCGCCCGCGCGCCGTGGCTCGAGCGAAAATTCACCGCGTGATGCTCGACGAGATCGGCAATCTCGTTCGGCTCGCCGTGACGGGCGAGGTAATCGGGAGACGCGCACGTCACGCGCTTGAGCATCCCGATGCGCCGCGCGACCATCGACGAATCCTCGAGCGGCCCGACCCGGATCATGCAGTCGATGCCCTCCTCGACCGGATCGACGTAGCGGTCGGACAGCCCCAGCTCGAGCGTGATGTCCGGATAGCGCTGCCGGAAGATCGACAGCGACGGCAGCACGACGCGCCGCCCGAGCGAACTCGGCATGTGGACGCGCAGCACGCCGCTCGGCTTGCGGTTGCCGGCCTGGAAACTCGCGTCGGCCTCGGCGATCTCCGCGATGATCTTCATGCAATGCTCGTAGTACGCGGCGCCCTCCGGCGTCAGCGACAACCGGCGCGTCGTCCGGTGCATCAGGCGCACGCCGAGCAGCGCCTCGAGATTCTGGATGATGGTCGTCACCGATGCGCGCGGCATCGCGAGCGTGTCGGCCGCCCGCGTGAAGCTGTTCGCGTCGACCACGCGGGTAAAAACCTCCATTGCCTGGATGCGGTCCATGCTGCTTCCCCCTTCGAATCGCCAACGGGACAGAATAGAGCGCGCGGCGGGCACGGCACAAGCCCCCGCCTATTGTTCTCCGATCCTGAATAGTTTCGACACTTCGGACTGGAAACCGACCGGTTTCCGTTCAGTTCCGGGTAGCGGCCGCCGCGGCTCCGCTCATTCGTCGCACGTCACCGCACGAACCGCTCGCGATATCCCTGCGGCGATACGCCCAGCACGCGCACGAAGCTGCGCCGCAGCGTCTCCTCCGAACCGAAGCCGCAACGCCCGGCGATCCGCTTGACGGGCCATGTCGTTTCGCCGAGCAGGCGTTGCGCGGCCTCGACACGGATCTGCTCGACCGCACGCGCGGGCGTTCGGCCGGTTTCCGCGCGATAGTGGCGCACGAAGCTGCGCTCGCTCATGCTCACGCGCTCGGCGAGCGCGGGCACCGACAGGTCGGCCGTCAGGTGCTCGGCCATCCACGCGTGCAGCTCGCCGAACCGGTCGGCGGTGCGCTGCATCGACAGCATCGTGCTGAACTGCGCCTGCCCGCCCGGGCGCTTCAGGAATACGACGAGTTCGCGCGCGACGTCGAGCGCGGTCGCCCGCCCGAGGTCCTCCTCGACCAGCGCGAGCGCGAGATCGATGCCGGCCGTCACGCCGGCCGACGTCCACAGCGCGCCTTCGCGGATGAAGATCGGATCGGGCTCGACACGCACGTTCGGGTAGCGCGCCGCGAATTCGTCGCAGCGCGCCCAGTGCGTGACCGCGCGCCGCCCGTCGAGCAGGCCGGCCTCGGCGAGCAGGAACGCGCCGGTGCAGACCGACGCCACGCGCCGCGCGCGCCCGGCCTGCTGCCGCACCCAGCGCACCACCCGCGCGTCCTTCGACGCCGCGTGCACGCCCTTGCCGCCGGCGACGATCAGCGTGTCGGGACGGCGCGCGGCCGCGCGCAGCGACTCGGCCATCACGACGAGGCCCGACGACGTCTCGACGGGCCCCGCTTCGACGGCCACGACGCGCGGCGCATACGGCGCCGGCTGCCCGCGCTCCAGCGCGAGCTCGTTGACGGACGCGAACACCTGCAACGGGCCCGTCACATCGAGCAATTGGGCACGGGGAAACGCGAGGACCAGGATCGAACGCGGGGCGGCGGCAGGCATGGCGATTGGCTGAAAACGTGGGTGATATGGCAATTTCGCCAAACACTACGCGCCTAGAATCGACCTGTCCATCCCGTGCCGAACGGCGCGCCCCTTCCCTCTCGGAGCCTTCGCATGACCCTGCATATCGGCCTTCTCGTCTTTCCGGGCGTCCAGCAACTCGACCTCACCGGCCCGCACGACGTGCTCGCGTCGCTGCCGGACGCAACCGTCCATCTGGTGTGGAAGTCCCGCGACGCGGTCGCGTCGAGCAGCGGCCTCGCGCTCGCGCCGACCTGTACGTTCGACGACTGCCCGCCGCTCGACGTGATCTGCATCCCGGGCGGCATCGGTATCAACGAACTGCTGCTCGATGCCGAAACGATCGCGTTCGTGCAGCAGCGCGCGGCCACCGCGCGCTACGTGACGTCGGTCTGCACGGGCTCGCTGCTGCTGGGCGTGGCGGGCCTGCTGCGCGGGCGGCGCGCGACGACGCACTGGGCGTTCCACGCGCTGCTCGAACCGCTGGGTGCGATACCCGTGCGCGAGCGCGTCGTGCGTGACGGCAACCTCGTCACGGGCGGCGGCGTGACGGCCGGCATCGACTTCGCGCTGACGATCGCCGCGGAGCTGGTCGGCGACGAAGCCGCGCAGGCGATCCAGCTGCAACTCGAATATGCGCCCGCGCCGCCGTTCGACGCGGGCTCGCCCGATACCGCGCCGGCCGCGGTCGTGAAGCGCGTCACCGAACGTTCGGCCGCCGGCTTCGCGAAGCGCAAGCAGATCATCGAGCAGGCGCTGCGCGCCACGTCGCGCTGAATGCGGAACGGGAGATGCGGATGCCGGAAAAATCACTGGAAAGCAGCGCACGCGCGTGCCGGAGAACACCTCGATGAACATCATCCGGAGTGCCGCATTCACGGCGGACCGCGCGTGGGGCGCCCTCGACATCGCGACCCTGAACGGCATCACGGTGCGGCTGCACTGGACCGACGAGCCGTATCGCTGGCATGTGAACGACGGCGAGGAGGTGTTCGCGGTGCTCGACGGCCGCGTCGAGATGCGCTACCGCGAAGCGGGCGTCGAGCACGCGACGGTGCTCGAAACGGGCGACGTCTTCCATGCGACGGTCGGCACCGAGCACGTCGCGCATCCGCTCGGCGCCGCGCGCATCCTCGTGATCGAAACCGAAGGCAGCGTCTGACGGCGGGCGTCGGGGTCTCGATGTCGCGCGGCTGACGAGCGCCGTCGCGCGGCGAAGGTCACCCCGAGATCGTCCCGGTTGCCTGCGAGGGGATCAGTTTCGGTAGCGGCGTGCACTGGCACTGGCACAGGTCGTGTTCGAGCGCGACGACCTTGCCCATCACGGTCATCGTGCGCTCGCCGCCGTCCGATACGATCACGCCCGGCGACTTGCACGCCGCGCAGAACACGGCTGCGCCGAGATACGCGAGTTCGCGCCCGTCGAACGACGAATTGGCGATCCCTTCGAGCACGACGCCGCCGTGATCGGTCGTGTCGCCCTTCAGAATGAATTTGCGGCTCATGATGTCGGTTCTTCCCTCGGAAACGCCGCGCAACGCAACCGCGCACGGGCATCGTGAAACCGCCCGTCGGTCGCGGGCGTCCCGCGAGCATATCACCGCTCGCCGCGGCCGCGACACGTGCCTTCCGCATCGGCCGGTCGCTCCATCAGGTATTCGCCGCGCATGGCGATTCGGCGCCACGGCGTGTTCACGCGCCGCGATGCGCCGAACCCGATCGCCTGCGGCTACCCGATCCACTGTTCCGTCGAGGCTCGTGCCGGCACGATCGCGCGACGTTGCCATGGCGACAGGGACGCATCCGGTTCGGCATGCCGTCGCATCGATAATGTCTGATGCTTTAACCCAAAAATTAGCCTAGATTTTCGTACAATTACTAAATACAAATACATCAAAAAGTTTTAATGGCAATTCGCCTCGAATCATTCATTCGACGCCCCTCACATCTCAAAGCCCATCATTCTCCGGCCGTTCGCATACCCGATAAATACGCGGCTCCACAATAAACATTCATGAAAACAGGCCGTTAAAATCAAGCAAGCCGATAGATAGAATTCAATCAACGCTTTCTGTTTATCGATAAAAAAATGGATGAACTCCTACCGATGCGACTATTCGTCAAGGTCGCCGAACTTCGCAGTTTCGCGCGCGCCGCCACGGAACTGAACATCTCCAACTCGTCGGCCACCCGCCTCGTCATGAGCATCGAGGACCGGCTCGGCGCACGCCTGCTGAATCGCACCACCCGCAGCCTGTCGCTGACCGACGCAGGCCACCTCTATCTGGCGCAGATACGTCACGTGATCGACGAAATCGACCGGGTGGAGGACACGATCGCCTCGATGCACCACGAACCGATCGGATCGCTGAAAATCGCCGCGCCGGTCATGTTCGGGATGCACGTGCTCGCGCCGGCCATCGATGCGTTCAAGATGCGCCACCCGGCCATCGTGCCGGAAGTCACGATCGTGGACCGTCACGTCGATCTCGTGTCGGAGGGCTTCGACGTCGGGCTGCTGCTGTCCCAGCACATCAGCAACAACACGCTGGTGAAGCGCCCGCTCACGCGGCTTAGGCAGCTCGTCTGCGCCGCACCGCAATATGCCGAGCGGCACGGCACGCCCGCGCATCCGCAGGATCTCGCGTCGCACGCCTGCCTGGCGTTCCATGCCGATTTCATGGGCGAATACCTGTCGTTCGATCACGACCAGACGCGCATCACCGTACGCCCGAACAAGTCCGCGTCGTCGAACAACGTCGGGCTGATCCGGAACTGGGCGCTGTCCGGCATGGGCATCGCGGTCCTGCCCGACTTCCTCGTCAAGTCGGATCTCGACGACGGCCGGCTGCTCGCGCTGCTGCCCGGCTATCGGCTCGAGGCCCTCGAGATGAACGTCGCGTACCCGAGCCGCCGGCACTTTCCGCGCAAGGCCCGACTTTTCGTCGATCACCTGATCGACCAT Predicted Gene Sequences: >PredictedProphage1 -Hit 1 AGTCAGTGCGCGTGCGGCACGCTGCGGCGTTTCCTGAGCGCATAACCGATCGCGACGACGAACAACGCGCCGACGATGCTCGCGCCGTAGACCACTTCCGGCGCATCAAGCACCGGCCAGCGGTCGCCGACCGGGTCGTTCACGATCAAGCCGCCCGCGATCCAGCCGAGCAGCCCGGCGCCGAATGCCACGACGACCGGGAAACGGTCGAGCAGCTTCAGCACCAGCGTGCTGCCCCACACGATGATCGGCACGCTGACGATGAGCCCGAAGATCACGAGCGCGATCCGGTGCGACGGATCGGCCTGCTCGGCCGCGCCGGCGATCGCGATCACGTTGTCGAGGCTCATGACCGCGTCGGCGATCACGATCGTCTTCACGGCGTCCCACAGCCGGTCGGCCGGCTTGATGTTGTCGTGCGCGTCGGCGGCCGGCGCCATCAGCTTGATGCCGATCCACAGCAGCAGCAGGCCGCCGCCGAGCTTCAGGAACGGCACGTCGAGCAGCGCGACCGCGAACGTGATCAGCGCGACACGCAGCAGGATCGCCCCCGCAGTGCCCCAGACG >PredictedProphage1 -Hit 2 CAGATCGAGAAGCAGTTCGGCAAGGGCTCGATCATGCGCATGGGCGACGGCGAGGCGGCCGAGAATATCCAGGTCGTCTCCACGGGGTCGCTGGGTCTCGACATCGCGCTGGGCGTCGGCGGCCTGCCGCGCGGCCGGGTGGTCGAGATCTACGGTCCGGAATCGTCCGGTAAGACCACCCTCACGCTGCAAGTCATCGCTGAACTGCAGAAGATCGGCGGCACCGCGGCGTTCATCGACGCCGAGCACGCGCTCGACGTCCAGTACGCGTCGAAGCTCGGCGTGAACGTGCCGGAACTGCTGATCTCGCAGCCGGACACCGGCGAGCAGGCGCTCGAAATCACCGATGCGCTGGTGCGCTCGGGCTCGATCGACATGATCGTCATCGACTCGGTCGCGGCGCTCGTGCCGAAGGCCGAAATCGAAGGCGAGATGGGCGATTCGCTGCCGGGTCTGCAGGCTCGCCTGATGTCGCAGGCGCTGCGCAAGCTGACCGGCACGATCAAGCGCACGAACTGCCTGGTGATCTTCATCAACCAGATCCGGATGAAGATCGGCGTGATGTTCGGCAACCCGGAAACCACCACGGGCGGCAACGCGCTGAAGTTCTATTCGTCGGTGCGTCTCGACATTCGCCGGATCGGTTCGATCAAGAAGAATGACGAGGTGATCGGCAACGAAACCCGCGTGAAGGTCGTCAAGAACAAGGTGTCGCCGCCGTTCCGCGAAGCGATCTTTGACATCCTGTACGGCGAAGGTATTTCGCGTCAGGGCGAGATCATCGATCTCGGCGTGCAGGCGAAGATCGTCGACAAGGCCGGCGCCTGGTACAGCTACAACGGCGAGAAGATCGGCCAGGGCAAGGACAATGCGCGTGAATTCCTG >PredictedProphage1 -Hit 3 GCAACGTTAGGCGGGCAAATTTCGCACTCGCCGATGACGGGCGAAGAGAAGAAGGTGATCTTCGCGTCGTCGCTCGGCACCGTGTTCGAGTGGTACGACTTTTACCTGGCCGGCTCGCTCGCGGCCTACATCAGCAAGAGCTTCTTCTCCGGCGTCAATCCGACCGCCGCGTTCATCTTCACGCTGCTCGGCTTCGCCGCCGGCTTCGCGGTGCGGCCGTTCGGCGCGATCGTCTTCGGCCGGCTCGGCGACCTCGTCGGCCGCAAGCACACGTTCCTCGTGACGATCGTGATCATGGGCGTCTCGACGTTCGTGGTCGGCTTCCTCCCGGGCTACGCGTCGATCGGCATCGCCGCCCCCGTGATCTTCATCGCGATGCGGCTGTTGCAGGGCCTCGCGCTCGGCGGCGAGTACGGCGGCGCGGCGACCTACGTCGCCGAGCATGCGCCGGCCAACCGGCGCGGCTTCTACACCGCCTGGATCCAGACGACGGCCACGCTCGGCCTGTTCCTGTCGCTGCTCGTGATCCTGGGCGTGCGCACGTTCATCGGCGAGGAAGCGTTCGGCAACTGGGGCTGGCGCGTGCCGTTCGTCGCATCGATCCTGCTGCTCGGGGTGTCGGTGTGGATCCGGCTGCAACTGAACGAATCGCCGGTGTTCCTGCGCATCAAGGCGGAAGGCAAGACGTCGAAGGCGCCGCTGACCGAAGCGTTCGGCCAGTGGAAGAACCTGAAGATCGTGATCCTCGCGCTGATCGGCCTGACGGCCGGCCAGGCGGTCGTGTGGTACACGGGCCAGTTCTACGCGCTGTTCTTCCTCACGCAGACGCTGAAGGTCGACGGCGCCAGCGCGAACATCCTGATCGCGATCGCGCTCCTGATCGGCACGCCGTTCTTCCTGTTCTTCGGCTCGCTGTCGGACAAGATCGGCCGCAAGCCGATCATCCTTGCCGGCTGCCTGATCGCCGCGCTGACCTACTTCCCGCTGTTCAAGGCGCTC >PredictedProphage1 -Hit 4 GGCCCGATCGCCGCGATGCTGGTCGAGATGTTCCCGACGCGAATCCGCTACACGTCGATGTCGCTGCCCTATCACATCGGCAACGGCTGGTTCGGCGGCTTCCTGCCGGCAACTGCGTTCGCGATCGTCGCGGCGAAGGGCAACATCTACTCGGGGCTCTGGTATCCGATCGTGATCGCGCTGGCCACGTTCGTG >PredictedProphage1 -Hit 5 ATCCAGGCAATGGAGGTTTTTACCCGCGTGGTCGACGCGAACAGCTTCACGCGGGCGGCCGACACGCTCGCGATGCCGCGCGCATCGGTGACGACCATCATCCAGAATCTCGAGGCGCTGCTCGGCGTGCGCCTGATGCACCGGACGACGCGCCGGTTGTCGCTGACGCCGGAGGGCGCCGCGTACTACGAGCATTGCATGAAGATCATCGCGGAGATCGCCGAGGCCGACGCGAGTTTCCAGGCCGGCAACCGCAAGCCGAGCGGCGTGCTGCGCGTCCACATGCCGAGTTCGCTCGGGCGGCGCGTCGTGCTGCCGTCGCTGTCGATCTTCCGGCAGCGCTATCCGGACATCACGCTCGAGCTGGGGCTGTCCGACCGCTACGTCGATCCGGTCGAGGAGGGCATCGACTGCATGATCCGGGTCGGGCCGCTCGAGGATTCGTCGATGGTCGCGCGGCGCATCGGGATGCTCAAGCGCGTGACGTGCGCGTCTCCCGATTACCTCGCCCGTCACGGCGAGCCGAACGAGATTGCCGATCTCGTCGAGCATCACGCGGTGAATTTTCGCTCGAGCCACGGCGCGCGGGCGATTCCGTGGGTGTTCATGATCGACGGCAAGCCGTTCGAGGTGCGGATGAACGGCAGCGTCACGGTCAACGACTCGGATGCCTACGTGACGTGCGGGCTCGAAGGCTTCGGGATGATCCAGCCGACGCTGTTCATGGTGCTGCCGCACCTGCTCGACGGCTCGCTGGTCGAGGTGCTGCCGGACAGCAATCCGAAGCCGAAGCCGATCTCGATCGTCTACCCGCACAACCGGCATCTGTCGCAGAAGGTGCGCGTGTTCGCCGACTGGATC >PredictedProphage1 -Hit 6 ATGAGCCGCAAATTCATTCTGAAGGGCGACACGACCGATCACGGCGGCGTCGTGCTCGAAGGGATCGCCAATTCGTCGTTCGACGGGCGCGAACTCGCGTATCTCGGCGCAGCCGTGTTCTGCGCGGCGTGCAAGTCGCCGGGCGTGATCGTATCGGACGGCGGCGAGCGCACGATGACCGTGATGGGCAAGGTCGTCGCGCTCGAACACGACCTGTGCCAGTGCCAGTGCACGCCGCTACCGAAACTGATCCCCTCGCAGGCAACCGGGACGATCTCG >PredictedProphage1 -Hit 7 AAAATGGATGAACTCCTACCGATGCGACTATTCGTCAAGGTCGCCGAACTTCGCAGTTTCGCGCGCGCCGCCACGGAACTGAACATCTCCAACTCGTCGGCCACCCGCCTCGTCATGAGCATCGAGGACCGGCTCGGCGCACGCCTGCTGAATCGCACCACCCGCAGCCTGTCGCTGACCGACGCAGGCCACCTCTATCTGGCGCAGATACGTCACGTGATCGACGAAATCGACCGGGTGGAGGACACGATCGCCTCGATGCACCACGAACCGATCGGATCGCTGAAAATCGCCGCGCCGGTCATGTTCGGGATGCACGTGCTCGCGCCGGCCATCGATGCGTTCAAGATGCGCCACCCGGCCATCGTGCCGGAAGTCACGATCGTGGACCGTCACGTCGATCTCGTGTCGGAGGGCTTCGACGTCGGGCTGCTGCTGTCCCAGCACATCAGCAACAACACGCTGGTGAAGCGCCCGCTCACGCGGCTTAGGCAGCTCGTCTGCGCCGCACCGCAATATGCCGAGCGGCACGGCACGCCCGCGCATCCGCAGGATCTCGCGTCGCACGCCTGCCTGGCGTTCCATGCCGATTTCATGGGCGAATACCTGTCGTTCGATCACGACCAGACGCGCATCACCGTACGCCCGAACAAGTCCGCGTCGTCGAACAACGTCGGGCTGATCCGGAACTGGGCGCTGTCCGGCATGGGCATCGCGGTCCTGCCCGACTTCCTCGTCAAGTCGGATCTCGACGACGGCCGGCTGCTCGCGCTGCTGCCCGGCTATCGGCTCGAGGCCCTCGAGATGAACGTCGCGTACCCGAGCCGCCGGCACTTTCCGCGCAAGGCCCGACTTTTCGTCGATCACCTGATCGACCAT Predicted Protein Sequences: >PredictedProphage1 -Hit 1 SQCACGTLRRFLSA_PIATTNNAPTMLAP_TTSGASSTGQRSPTGSFTIKPPAIQPSSPAPNATTTGKRSSSFSTSVLPHTMIGTLTMSPKITSAIRCDGSACSAAPAIAITLSRLMTASAITIVFTASHSRSAGLMLSCASAAGAISLMPIHSSSRPPPSFRNGTSSSATANVISATRSRIAPAVPQT >PredictedProphage1 -Hit 2 QIEKQFGKGSIMRMGDGEAAENIQVVSTGSLGLDIALGVGGLPRGRVVEIYGPESSGKTTLTLQVIAELQKIGGTAAFIDAEHALDVQYASKLGVNVPELLISQPDTGEQALEITDALVRSGSIDMIVIDSVAALVPKAEIEGEMGDSLPGLQARLMSQALRKLTGTIKRTNCLVIFINQIRMKIGVMFGNPETTTGGNALKFYSSVRLDIRRIGSIKKNDEVIGNETRVKVVKNKVSPPFREAIFDILYGEGISRQGEIIDLGVQAKIVDKAGAWYSYNGEKIGQGKDNAREFL >PredictedProphage1 -Hit 3 ATLGGQISHSPMTGEEKKVIFASSLGTVFEWYDFYLAGSLAAYISKSFFSGVNPTAAFIFTLLGFAAGFAVRPFGAIVFGRLGDLVGRKHTFLVTIVIMGVSTFVVGFLPGYASIGIAAPVIFIAMRLLQGLALGGEYGGAATYVAEHAPANRRGFYTAWIQTTATLGLFLSLLVILGVRTFIGEEAFGNWGWRVPFVASILLLGVSVWIRLQLNESPVFLRIKAEGKTSKAPLTEAFGQWKNLKIVILALIGLTAGQAVVWYTGQFYALFFLTQTLKVDGASANILIAIALLIGTPFFLFFGSLSDKIGRKPIILAGCLIAALTYFPLFKAL >PredictedProphage1 -Hit 4 GPIAAMLVEMFPTRIRYTSMSLPYHIGNGWFGGFLPATAFAIVAAKGNIYSGLWYPIVIALATFV >PredictedProphage1 -Hit 5 IQAMEVFTRVVDANSFTRAADTLAMPRASVTTIIQNLEALLGVRLMHRTTRRLSLTPEGAAYYEHCMKIIAEIAEADASFQAGNRKPSGVLRVHMPSSLGRRVVLPSLSIFRQRYPDITLELGLSDRYVDPVEEGIDCMIRVGPLEDSSMVARRIGMLKRVTCASPDYLARHGEPNEIADLVEHHAVNFRSSHGARAIPWVFMIDGKPFEVRMNGSVTVNDSDAYVTCGLEGFGMIQPTLFMVLPHLLDGSLVEVLPDSNPKPKPISIVYPHNRHLSQKVRVFADWI >PredictedProphage1 -Hit 6 MSRKFILKGDTTDHGGVVLEGIANSSFDGRELAYLGAAVFCAACKSPGVIVSDGGERTMTVMGKVVALEHDLCQCQCTPLPKLIPSQATGTIS >PredictedProphage1 -Hit 7 KMDELLPMRLFVKVAELRSFARAATELNISNSSATRLVMSIEDRLGARLLNRTTRSLSLTDAGHLYLAQIRHVIDEIDRVEDTIASMHHEPIGSLKIAAPVMFGMHVLAPAIDAFKMRHPAIVPEVTIVDRHVDLVSEGFDVGLLLSQHISNNTLVKRPLTRLRQLVCAAPQYAERHGTPAHPQDLASHACLAFHADFMGEYLSFDHDQTRITVRPNKSASSNNVGLIRNWALSGMGIAVLPDFLVKSDLDDGRLLALLPGYRLEALEMNVAYPSRRHFPRKARLFVDHLIDH Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig374 Genome size: 138627 Host's GC content: 68.02 Predicted Codon Position GC: 1st: 68.73 2nd: 45.06 3rd: 82.78 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig375 Genome size: 156973 Host's GC content: 63.88 Predicted Codon Position GC: 1st: 66.19 2nd: 43.95 3rd: 75.78 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig376 Genome size: 151562 Host's GC content: 67.85 Predicted Codon Position GC: 1st: 68.63 2nd: 45.02 3rd: 82.50 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig377 Genome size: 152295 Host's GC content: 67.83 Predicted Codon Position GC: 1st: 68.62 2nd: 45.01 3rd: 82.47 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig378 Genome size: 145687 Host's GC content: 67.06 Predicted Codon Position GC: 1st: 68.14 2nd: 44.81 3rd: 81.17 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig379 Genome size: 162819 Host's GC content: 68.58 Predicted Codon Position GC: 1st: 69.08 2nd: 45.22 3rd: 83.74 >PredictedProphage1 Length: 17178 Number of hits = 5 GC Coding First Second Third 66.52 66.63 68.40 45.32 86.17 Codon Usage: AA Codon Total Percent Leu TTG 5 0.0505050505050505 Leu TTA 0 0 Leu CTG 54 0.545454545454545 Leu CTA 3 0.0303030303030303 Leu CTT 0 0 Leu CTC 37 0.373737373737374 Lys AAG 23 0.884615384615385 Lys AAA 3 0.115384615384615 Glu GAG 18 0.382978723404255 Glu GAA 29 0.617021276595745 Gln CAG 35 0.853658536585366 Gln CAA 6 0.146341463414634 End TGA 1 1 End TAG 0 0 End TAA 0 0 His CAT 10 0.555555555555556 His CAC 8 0.444444444444444 Asn AAT 1 0.04 Asn AAC 24 0.96 Ser AGT 0 0 Ser AGC 17 0.404761904761905 Ser TCG 23 0.547619047619048 Ser TCA 0 0 Ser TCT 0 0 Ser TCC 2 0.0476190476190476 Trp TGG 8 1 Arg AGG 2 0.0217391304347826 Arg AGA 0 0 Arg CGG 21 0.228260869565217 Arg CGA 6 0.0652173913043478 Arg CGT 8 0.0869565217391304 Arg CGC 55 0.597826086956522 Ala GCG 59 0.621052631578947 Ala GCA 6 0.0631578947368421 Ala GCT 6 0.0631578947368421 Ala GCC 24 0.252631578947368 Cys TGT 0 0 Cys TGC 8 1 Asp GAT 10 0.181818181818182 Asp GAC 45 0.818181818181818 Gly GGG 5 0.0641025641025641 Gly GGA 2 0.0256410256410256 Gly GGT 5 0.0641025641025641 Gly GGC 66 0.846153846153846 Phe TTT 1 0.0285714285714286 Phe TTC 34 0.971428571428571 Tyr TAT 7 0.28 Tyr TAC 18 0.72 Met ATG 16 1 Val GTG 40 0.481927710843373 Val GTA 8 0.0963855421686747 Val GTT 3 0.036144578313253 Val GTC 32 0.385542168674699 Thr ACG 38 0.690909090909091 Thr ACA 1 0.0181818181818182 Thr ACT 2 0.0363636363636364 Thr ACC 14 0.254545454545455 Pro CCG 26 0.456140350877193 Pro CCA 5 0.087719298245614 Pro CCT 7 0.12280701754386 Pro CCC 19 0.333333333333333 Ile ATA 0 0 Ile ATT 3 0.0535714285714286 Ile ATC 53 0.946428571428571 Left Right Strand Best Blast Hit Score Evalue 24659 24973 -1 ref|NP_958267.1|hypothetical protein 37.7bits(86) 0.32 29953 30855 1 ref|NP_059582.1|O-antigen conversion protein 150bits(378) 4e-35 35958 36476 1 ref|NP_899539.1|PhoH domain protein 99.8bits(247) 7e-20 36977 37264 1 ref|NP_050160.1|hypothetical protein 60.1bits(144) 6e-08 40976 41836 1 ref|NP_945089.1|gp58 60.8bits(146) 4e-08 DNA sequence: ATGAACTGCTGGTCGTTCTGGATCGGGTAGAGCTTCGGGTCGAGGCGCGGGAACATGTACAGCGCGGCCTGCGGCTTCACGCAGGTCACGCCCGGGATCGACGTCAGCATGTCATACGCGAGTTCGCGCTGCTTGTACAGGCGCCCGTTCGGCACGATCAGCTCGTTGATGCTCTGGTAGCCGCCGAGCGCCGTCTGGATCGCGAACTGGCCGGGCACGTTCGCGCACAGGCGCATCGACGACAGGATGCCGAGCCCTTCGAGGTAGTCCTTCGCGCGCCGGCGGTTGTCGCCGCCGAGGCCCGACACGGCCATCCAGCCCGCGCGATAGCCGCACGAGCGATAGCTCTTCGACAGGCTGTTGAACGTGACGGTGATCACGTCCTCGGACAGCGAACCCAGCGCCGTGTGCTCGAGGCCGTCGTAGACGATCTTGTCGTAGACCTCGTCGGCGAACACGATCAGCCCGTGCTCGCGCGCGATCTCGAGCAGTTCGAGCAGCAATTCGTCAGAATAAAGCGCGCCGGTCGGATTGTTCGGGTTGATCACGACGATCGCCTTCGTGTTCGGCGTGATCTTGCTGCGGATGTCGTCGAGATCGGGCATCCACGCGTTCTGCTCGTCGCACACGTAGTGCACGGGCGTGCCGCCCGACAGGCTCACGGCCGCCGTCCACAGCGGGTAGTCGGGCGCGGGCAGCAGCACTTCGTCGCCGTCGTTCAGCAGCGCCTGGGTCGCCATCACGATCAGCTCGGACGCGCCGTTGCCGATGTAGATGTCGTCGAGGCCGACGCCGACGACGCCCTTTTCCTGCGTGTAGTGCATCACCGCCTTGCGCGCCGAGAACACGCCCTTCGAATCCGAATAGCCGGACGACGCCGGCAGGTTGCGGATCATGTCCTGGATGATCTCGTCGGGCGCGTCGAAACCGAACGGCGCGAGGTTGCCGATGTTCAGCTTGATGATGCGGTGGCCTTCTTCCTCGAGGCGCTTCGCGTGCTCGAGCACCGGGCCACGGATGTCGTAGCAGACGTTGAGCAGCTTGTTCGACTTCTGAATCGGTTTCACGACGACACGGTTCCTGGGTTGGCCTTGCGGCCGGGGGGACGGGATCAAAACTGGAAAGCGGCCGGTCTGTGCGCGCTGTCTAGACTGGGAAAAAGCGGCGGTCGGACGCGGCTTGTGGCGACGCACGACGCAAGTGGCGCCCGGGGGCGACCAAAAAGTTATAATTTAGCGGATTTTGGCCGACTTTCGCAATGCACCATAGCCGCGCCGGGCCCGCGCCGTCGGGCGTCCGCGCGTGCCCCGGCGCGCGAAACCGGCCAGCGGGGCCCCTGCGGCCCGGCCCATCCATTCCCCTACGGAACCGCGGAATACCGATTTGAAACTGCACCAGGACACGAGCGGCGCGCTCAACACCGTCACCGGCTACGGCCCCGATTATGTCGACGTCAATCTCGAACGCCATGAAACGAGCGTCATCGTGCTGCCCGGCGCGCCGGTCCAGGCCTGGCCCGTGTCGTCGTTCGACGCGCTCGCGCCCGAGCATTTCGCGATGCTGCTCGACCCGACGCCCGAACTCGTGATCTTCGGCAGCGGCGCGCGGCTGCGCTTTCCGCACCCGCGCCTCGTCGCGGCGCTCACCGCGAAGCGGATCGGCGTCGAGACGATGGATTTCCAGGCCGCCTGCCGCACCTACAACATCCTGATGGCCGAGGGCCGCAAAGTCGCCGCCGCGCTCTTAATTGAACGTTAATCCCCGATGCGGTAAAACTCGGGCCGGCGCAGCGGGTCGATCCCCCGATCGGCCCGGCCAGGCCGCCCGCCCCGGCGCTGCCCGCCGGCGGCCCCGTCACAACAACCAACAGGCTGAAAACCCATGAACGATACGCCGTCGAGGCTACCGCTCAATCGCATCACGCTCGTCCTCCTGCTCGTCGCGCTCGCGATCGTCTGGTTCGCGCCACTCGGGCTGCGCCACCTGATCCCGAGCGACGAAGGCCGCTACGCGGAAATGGCGCGCGAGATGTTCGTCACCGGCGACTGGATCACGCCGCGCTACAACGGTTACAAGTACTTCGAGAAGCCGCCGCTGCAGACCTGGCTGAACGCGCTGACGTTCGCGTGGTTCGGTATCGGCGAATGGCAGGCGCGCCTCTACACGGCCGTCGCGAGCTTCGCCGGCGTGCTGCTCGTCGGCTACACCGGCGCGCGCCTGTTCAACCCGCTGTCGGGCTTCCTCGCGGCCGTCGTGCTCGCCAGCGCGCCGTACTGGAACCTGATGGGCCACTTCAACGCGCTCGACATGGGGCTCGCGTTCTGGATGGCGCTGTCGCTCTGCTCGCTGCTGCTCGCGCAGCGGCCCGGGCTGCGCCCGGCGGCGGTACGCGGCTGGATGTGGGCGTGCTGGGCCGCGATGGCGTTCGCGGTGCTGTCCAAGGGCCTCGTCGGGCTGATCCTGCCCGGCGCCGTGCTCGTGCTGTATACGCTGATCGCGCGCGACTGGGCGCTGTGGAAGCGCCTGTATCTCGTCAGCGGCCTCGTGATCTTCTTCGCGATCGTCACGCCGTGGTTCGTACTGGTCCAGCAGCGCAACCCCGAGTTCTTCAACTTCTTCTTCGTCGTCCAGCAGTTCCGCCGGTACCTGACCCCGGAACAGAACCGCCCGGGCCCGCTGTACTACTTCGTGCCCGTGCTGCTGGTCGGCTTCCTGCCGTGGCTGTCGGTCGCGTGGCAGAGCATCCGCCATGCGCTGCGCATGCCGCGCCAGCCGAACGGCTTCTCGCCGATGCTCGTGCTGCTGATCTGGAGCGCGTTCATCTTCCTGTTTTTCAGCGCGTCGCATTCGAAGCTGATCTCGTACGTGCTGCCGGTCGCGCCGGCGCTCGCGCTGATCATCGGCGCTTACCTGCCGCTGATGACGGCCGAGCGCTTCCGCCGCCACCTGCTCGGCTACCTCGTGTTCTTCGTCGCCGCGGCGTTCGGGATCATCTTCCTCGCGTACCAGGGCGACGCCCGCACGCCGAACGCGTTGTACCGGGCGTTCCAGATGTGGCTGTACGCCGGCCTCGCGGTCTCGGCCGCGCTGACGCTCGCGGCCGCCTGGCTGAACCGCCGCGCGGGCGTGGCCGCCGCGCTCGCGGCGTTCGGCGCCGCGTGGCTCGCGTTCGGCACGATCGGCGGTACCGGACACGACGAGTTCGGCCGCTACAGCTCGGGCGCGCTGCTCGCACCGGCCGTGCGCGCCGAGCTGGCGAAGCTGCCGCCCGATACGCCGTTCTACTCGATCGAAATGCTCGATCACACGTTCCCGTTCTACATGGGCCACACGACGATCATGGTCCAGCGCCAGGACGAGCTCGCGTTCGGGATCTCGGTCGAGCCGAACAAGTGGGTCCCGACCGTCGGCGAATGGATCACGCGCTGGAAGCAGGACACCCATGCGCTCGCGATCATGCCGCCCGGCCAGTACGACGCGCTGGTCAAGGAAGGCGTGCCGATGCGCGTGATCGCGCGCGACAACCGCCGCGTGATCGTCGAGAAACCGCAATCGTAAGGACGTCCCCCGCATGAACCCCGTTTCGTTCGTCTGCATCGTCACCGGCGTGATGCTCAACGCCTGTGCGCAACTTCTGCTGAAAGCCGGCGTCAACGCCGTTGGACACTTCGAATTCAGCCGTGCGAACATCCTCCCGGTCGGCCTGAAGATCGCGACCCAGCTGCCGATCATCGGCGGCCTCGGCTGCTATGTACTGAGCGTCGTGGTGTGGATCGTCGGGTTGTCGCGGGTCGACGTGTCGATCGCGTATCCGATGCTGTCGCTCGGCTACGTCGTCAACGCGTTCGCGGCGTGGTACCTGTTCGGCGAGGTGCTGTCGGTCCAGAAGCTCGTCGGCATCGGCATCATCCTGATCGGTGTGCTCGTGCTGGCGCGCAGCTGAGCGCGGCCCGCGCCGTTAAGCGTCCGCCTACAAAAAATCACGGTACGAATCCGCCAACCGGTGTTTAATGCCGGTTTCGGGCGGATCGCCCGACCCTTTTATTACACGCCATTACAGGCCCAACGCGTTCATGAGCCAGACTACCGCTCCGTTTCTGCCGTTCACCCGCCCCGAGATCGATGAGGAAACCATCCAGGGCGTCGTCGACGTGTTGCGCTCGGGCTGGATCACCACCGGCCCGCAGTGCCAGAAATTCGAGGCCGCGCTGTCCGAGTACTGCGGCGGCCGTCCGGTTCGCGCCTTCAATTCGGGCACCTGTACGCTCGAGATCGGCCTGCGCATCGCCGGCGTCGGCCCCGGCGACGAGGTGATCACGACGCCGGCGTCGTGGGTCTCGACCAGCAACGTGATCATCGAGACGGGCGCGACGCCCGTGTTCGCGGACATCGACCCCGTCACGCGCAACATCGACCTCGACAAGCTCGAGCAGGCGATCACGCCGCGCACCAAGGCGATCATCCCCGTGTTCCTGTCCGGCCTGCCGGTCGACATGGACCGCCTGTACGCGATCGCCCGCGCGCACAAGCTGCGCGTGATCGAGGATGCCGCGCAGGCGTTCGGCTCGACGTGGAACGGCAAGCGCATCGGCGCGATCGGCGACATCGTGTCGTTCAGCTTCCACGCGAACAAGAACCTGACGACGATCGAAGGCGGCGCGCTCGTGCTGAACAACGAGGACGAAGCGGCGCTCGCGCAGAAGTATCGGCTGCAGGGCATCACGCGCACCGGCTTCGACGGGATGGACTGCGACGTGCTCGGCGGCAAGTACAACCTGACCGACGTCGCCGCGCGCGTCGGCCTCGGCCAGTTGCCGCACATCGAGCGCTTCACCGCGCAGCGCCGCGCGCTCGCCCGTGCGTATTTCGCCGCGTTCGACGGCGGCGCGGCCGTGAAGCTGGGCCTCGGCCTGCCGGTCGCCGAATTCGAGAACGGCAACTGGCACATGTTCCTGGTCACGCTGCCGCTCGAGCGGCTGACGATCACGCGCGCCGAATTCATGGCGCAAATGAAGGAACGCGGCATCGGCACCGGCATCCACTACCCGGCGATCCATCTTTTCACGCTGTATCGTGCGCGCGGCTTCAAGGAGGGCATGTTCCCCCACGCCGAACGGTACGGCGCGTCGACCGTCACGCTGCCGCTGTTTACGCAGATGACGGAAGGCGACGTGCGTCGCGTGGTCGACGCCGTCAATCAGATTTGCGAACAATACGGAAAATAAGCGTACATGAGTCACCTTGAAGCACGCGCCGGGCATCCGGGCGCCGCGCATCTGGACGCCGGCCGGCCGGAAGTGTCGGTCATCATCCCCGTGTACAACGAGGAAGACGGCCTCGCCGCGCTGTTCGCGCGGCTGTATCCGGCGCTCGACGCACTCGACACGTCGTACGAAGTGATCCTGATCAACGACGGCAGCCGCGACCGCTCGGCCGCGATGCTCGCCGATCAGTTCCACGTACGGCCCGACACGACGCGCATCGTGCTGCTCAACGGCAACTACGGCCAGCACATGGCGATCCTCGCGGGCTTCGCGCAGTCGCGCGGCGAGATCGTCATCACGCTCGACGCCGACCTGCAGAACCCGCCCGAGGAAATCGGCAAGCTGATCGCGAAGATGCGCGAGGGCTACGACTACGTCGGCTCGATCCGCAAGCAGCGCCAGGACAGCCTGTGGCGGCGCAAGGCGTCGCAGATGATGAACCGGCTGCGCGAGCGCATCACGCGCATCAAGATGACCGACCAGGGCTGCATGCTGCGCGCGTACAGCCGCCGCATCATCGACACGATCAACGTGTGCGGTGAAGTCAACACATTCATCCCCGCGCTCGCGTACACGTTCGCGCAGAGGCCGACCGAAATCGAGGTCGCGCACGAGGAACGCTTCGCGGGCGAATCGAAATATTCGCTGTACAGCCTGATCCGGTTGAACTTCGACCTCGTGACGGGCTTCTCGGTCGTGCCGCTGCAGTGGCTGTCGTTCATCGGCGTGATCCTGTCGCTCGGCTCCGCCGCGCTGTTCGTGCTGCTGCTCGTGCGCCGCTTCATCGTCGGCGCGGAAGTGCAAGGCGTGTTCACGCTGTTCGCGATCACGTTCTTCCTGCTCGGCGTGATCATCTTCGCGCTCGGCCTGCTCGGCGAATACGTCGGCCGCATCTACCAGCAGGTGCGCGCGCGTCCCCGCTACCTGATCCAGGCCGTGCTCGAGCAGCACGACGGCGTGCCGCCGGTGCCGGCCGCCGCGAACCGCCCGGGAGCCGCGCAATGAAGCCGCGCGCGGTCGTCTTCGCGTATCACAACGTCGGCGTGCGGTGCCTGCAGGTGCTGCTCGCACGCGGCGTCGACGTCGCGCTGGTCGTCACGCACGAGGACAATCCGAACGAGAACATCTGGTTCGGCAGCGTCGCATCCGTCGCGGCCGAGCACGGCATTTCGGTGCTCACGCCGGCCGATCCCGCCGATCCGGCGCTGCGCCGCGCGGTGTCCGACGCGCAGCCCGATTTCATCTTCTCGTTCTACTACCGCCACATGCTGCCGGTGGACCTGCTCGCGATCGCGCCGCGCGGCGCGTACAACATGCACGGTTCGCTGCTGCCGAAATACCGGGGTCGGGTACCGACCAACTGGGCCGTGCTGAACGGCGAGACCGAGACCGGCGCGACGCTGCACGAGATGGCCGCCAAGCCCGACGCGGGCGCGATCATCGCCCAGACCGCGGTGCCGATCCTGCCGGACGACACGGCTGCGCAGGTGTTCGACAAAGTCACGGTGGCTGCCGAGCAGACGCTGTGGCGCGTGCTGCCCGCGCTGCTCGCGGGCGAGGCGCCGCACCTGCCGAACGATCTCGCGACCGGCAGCTACTACGGCGGGCGCAAGCCCGAGGACGGCCGCGTCGACTGGTCGAAGCCGGCCGCGCAGGTCTACAACCTGGTGCGCGCGGTCGCGCCCCCGTATCCGGGCGCATTCACGGACGTCGACGGCGCGCGCTTCGTGATCGCGCGGGCGCGCCTCGCGGCGCCCGGCAGCGCGGCAGCGGCCGCCGCGGCGGATTTGCCGCCCGGCCTGCACGTAAGCGATAATGCGCTATTCGGCGTCTGCGGCGACAGCCGCGCCCTATCCATTCTCGAACTCCGGCAGCAGCGCGACGGCAGCGAAACCGTCGTGACGCCCGCGGAATTCGCGCAGTTCATTCATTCTTCCCGTCATTCATGAAAGCAAAAAAAGTCCTGATCCTGGGTGTGAACGGCTTCATCGGCCATCACCTGTCGAAACGCATTCTTGAAACCACCGATTGGGAAGTGTTCGGCATGGACATGCAGACCGACCGGCTGGGCGACCTCGTCAACCACGAGCGGATGCATTTCTTCGAAGGCGACATCACGATCAACAAGGAGTGGGTCGAGTATCACGTGAAGAAGTGCGACGTGATCCTGCCGCTCGTCGCGATCGCTACGCCGGCCACCTACGTCCAGCAGCCGCTGCGCGTGTTCGAGCTCGACTTCGAGGCAAACCTGCCGATCGTGCGCTCGGCCGTCAAGTACGGCAAGCACCTGGTGTTCCCGTCGACCTCCGAGGTCTACGGCATGTGCTCGGACGAGCAGTTCGACCCGGACGCGTCGGCGCTCACCTACGGCCCGATCAACAAGCCGCGCTGGATCTACGCGTGCTCGAAGCAGCTGATGGACCGCGTGATCTGGGGTTACGGGATGGAAGGCCTGAACTTCACGCTGTTCCGTCCGTTCAACTGGATCGGCCCGGGCCTCGACTCGATCTACACGCCGAAGGAAGGCAGCTCGCGCGTGGTCACGCAGTTCCTCGGCCACATCGTGCGCGGCGAGAACATCAGCCTCGTCGACGGCGGTTCGCAGAAGCGCGCGTTCACCGATATCGGCGACGGCATCAGCGCGCTGATGAAGATCATCGAGAACAAGGGCGGCGTCGCGTCGGGCAAGATCTACAACATCGGGAATCCGAAGAACAACTTCTCGGTTCGCGAGCTTGCGCACAAGATGCTCGAACTGGCCGCAGAATTCCCCGAGTACGCCGATTCGGCCAAGCAGGTGAAGCTCGTCGAAACGACGTCCGGCGCCTACTACGGCAACGGCTACCAGGACGTGCAGAACCGCGTGCCGAAGATCGACAATACGATGCAGGAGCTCGGCTGGGCGCCGCAGGCGACGTTCGACGACGCGCTGCGCAACATCTTCGAAGCGTATCGCGGCCACGTCGCCGACGCGCGCGCGCTCGTCGAACAGCAAGGCTGACCGGGACGTTCGCTTGGCTCGTATCGTCCTCAAGATCGACGTCGACACGCTGCGCGGCACGCGCGAAGGCGTGCCGAACCTCGCGCGCATCTTCGATCGCTTCAATGCGCGCGCGACCTTCCTCTTCAGCCTCGGCCCGGATCACACCGGCTGGGCACTGCGGCGCGTGTTCCGCCCGGGCTTCCTGAAGAAGGTGTCGCGCACGTCGGTGGTCGAACACTACGGCGTGAAGCAGCTGATGTACGGCGTGCTGCTGCCCGGTCCCGACATCGGCCGCCGCGCGATCGCCGACATGCGCGCGATTCACGAGGCCGGCTTCGAATGCGGGATCCACACGTGGGATCACGTGTATTGGCAAGACAACGTGCGCGTACGCGACCGCGACTGGACCGCGCGTGAAATGCAGAAGAGTCACGCGCGCTTCATCGAGATCTTCGGCGCGCCGCCCGTCACGCACGGCGCGGCCGGCTGGCAGATGAACGATGCCGCGTTCGAGCAGATCGACGCGTGGGGGATGCGCTACGCATCCGACGGCCGCGGCCACTCGCCGTACCTGCCCGTCGTCGGCGGCCGCACGCTGTCGCATGTGCAAATGCCGACCACGCTGCCGACGCTCGACGAAGTACTCGGCATCGACGGCGTCGACACGCACAACGTCGCCGCGCACATCCTCGCGTTCACCGCAACCAATCCGCACGACCAGGTGTTCACGCTGCATGCGGAGCTGGAAGGCCAGAAGCTCGCGCCCGTGTTCGAGCAACTGCTCGCCGGCTGGCGCGCGCAAGGCCACACGTTCGCGACGATGGGCGACTACCACGCGACGCTGGACCGCGACTCGCTGCCATCGTACCCTGTCACGTGGGGCGAAATCCCCGGCCGCTCCGGCGAACTGATCGTCCAGCCCGACTGAGTTCGCGCGCGAGCCGGCGTCGCCGCTCCGCCCTTGCGGCGCGCTGCCGCGACGCCCCGCCGAACCGCGCCGCCGCGGCGGCGCCCTTCCATAACAACAGGAGAAACACGTGTCTGTCGAAGTTGACCGTCAAGTTCCCGATTTCACCGCACCGGCCACGGGCGGCGACGTTTCGCTGTCCGACCTGAAGGGCAAGAAGCTCGTGCTGTACTTCTATCCGAAGGACAACACGCCGGGCTGCACGACCGAAGGGCTGCAGTTCCGCGATCTCTATCCGAAGTTCAAGAAGGCCGGTGCGGAAGTCATCGGCGTGTCGCGCGACAGCCTGCGCTCGCACGACAATTTCAAGGCCAAGCTCGAACTGCCGTTCCCGCTGATTTCCGATGCCGACGAAGCACTGTGCGCGCTGTTCGATGTCATCAAGATGAAGAAAATGTATGGCAAGGAAGTGCGCGGAATCGAGCGCTCGACGTTCCTGCTCGACGCCGACGGCGTGCTTCGCCAGGCATGGCGCGGCATCAAGGTACCGGGTCACGTGGACGACGTGCTAAAGGCTGTACAAGCGCTTTGAGGCGCGTTATATTGGGCCGCAATGAATGCCAGTTCGCCCCATATTTCTCGTAGCTGCGCCCGTGCCCGTTGCAATGCTTCCCGGCACCTGACGCGCACGACGGCATCAGCCGAGCCGCATGTCCCTGTCGACGGGGCAGCGGCTTTTTTTATGGAACGCGCGCCGGCCCTCCCCGGTCCGGCCCTTACCGCATCGAGGAGCTGATCGACACTTAGGCGAACCGGCTAGACGAAATTCCTGTGCGCCACCGCGCGCAAACTGCATGCGTCTACGTCACGCAGGATGCGATCAGCGGCGCACGCCATGCGACACGATTCCTCCCGAGGGACACCATGCCTTTGCCTACTCCCCCCAGCAAGCTCGGCAGCCTGCTGCCGCCCGACGAATACAAGGCGAAAGCGCGGCCCGCGAAAGCCGCGAAGAAATCCGCCGAAGGGGACGCATCCACAGCCGGTGACTATGGTCCGGCCAGCGTGGCCCAACCGATGATCGAAGCCGCGAACACGGCCGCGCCGCTGCGTGCCGTCGCGTCTTCGGCGCCCGATGCCGCGAGCGCGCCCGCGCGAGGCCGCAAGACCCGACAGACGGCCGCGCTGTTGCAGCCGCTGCAGGCGCCTGCGGCCCCCGCGGCACCGGTCGTTGCACGCAACGACAAGCCGGCCACCGGGAAACCGGCCGCCGCGCCCGCGCGCGATGCCGGCGCCGCGACGAAGTCGCGCAGCCGCAAGCCCGCCGAAGTCGAACAGCAGAAACTGTTCGTGCTCGACACCAACGTGCTGATGCACGACCCGAGCAGCCTCTTCCGCTTCGAGGAACACGACGTCTATCTGCCGATGATGACGCTCGAGGAACTCGACAACCACAAGAAGGGGATGTCCGAAGTCGCGCGTAACGCCCGTCAGGTCAGCCGCACGCTCGACGCGCTGGTCGCCGACGGCGGCCCGATCTCGGACGGCATCCCGCTGTCGCGCCTCGGCAGCCGCGAGGCGGTCGGCCGCCTGTACTTCCAGACGAAGCTCGCCGACATCGCGCCGGTCGAAGGCTTGCCCGCAGGCAAGGCCGACAACCAGATCCTCGGCGTCGTGCGCGCGCTGCAGCGCGACCGGCCCGACCGCCAGGTCGTGCTGGTGTCGAAAGACATCAACATGCGGATCAAGGCGCACGCGCTCGGCCTGCCCGCGGAAGACTACTTCAACGACCAGGTCCTCGAGGATTCGGATCTCCTGTACAACGGCGTGCGCGAACTGCCGCAGGACTTCTGGACCAAGCATGCGAAGGGCATGGAGAGCTGGCAGGACACGAAGACGGGCACCACGTACTACCGCGTGACCGGCCCGCTCGTCGCGTCGATGCTCGTCAACGAGTTCGTCTATCTCGAGCCGCAGAACGGCGAGCCGACGTTCCACGCGATCGTCCGCGAGCTGAACGGCAAGACGGCGCTGCTGCAGACGCTGCGCGACTACAGCCACCACAAGAACAACGTGTGGGGCATCACCGCGCGCAACCGCGAGCAGAACTTCGCGCTGAACCTGCTGATGAACCCCGAGATCGACTTCGTCACGCTGCTCGGTCAGGCCGGCACCGGCAAGACGCTCGTCGCGCTCGCGGCCGGCCTCGCGCAGGTGCTCGACGACAAGCGCTACAACGAGATCATCGTGACGCGCGCGACCGTGCCCGTCGGCGAGGACATCGGTTTCCTGCCCGGCACCGAGGAAGAGAAGATGCAGCCGTGGATGGGTGCATTCGACGACAACCTCGAAGTGCTGCAGAAGACCGACGACGCGGCCGGCGAATGGGGCCGTGCCGCGACGCAGGAGTTGATCCGCTCGCGCCTGAAGGTGAAGAGCATGAACTTCATGCGCGGCCGCACGTTCGTCGACAAGTATCTGATCATCGACGAGGCGCAGAACCTGACGCCGAAGCAGATGAAGACGCTCGTCACGCGCGCGGGCCCCGGCACGAAGATCGTGTGCCTCGGCAACATCGCGCAGATCGACACGCCTTACCTGACCGAAGGCAGCTCGGGCCTGACCTACGTCGTCGACCGCTTCAAGGGCTGGGGCCACAGCGGCCACGTGACCCTCGCACGCGGCGAACGCTCGCGGCTCGCCGACTACGCGTCGGACATTCTGTAACGCGCACGCCGGCCGACCGGCCGGCTTTCGACGCCACACGGCGCTCCGTTTCCGGAGCGCCGTTTTTATTTGGGGTCGAAAACGAAGGTAATGCCCCGTCACGCAACAACGCAGTTTACGCGCGAAACTTCAAGTAAATTCTCAAGAATGGTTGCCTAAGCCCCGCTGGAGCGTCTACCATCGGGCCTATCTGTTGTCATACGATTCGCGAGCGCGCCGCGCTCGCCCGCCTTGCCATGCTTCGAATCTGGGTTCCCGTCGCCGTCGTCTCCCTGCTTGCGGCCTGTTCCAGCGTGCCGCCGCAGTCGGCATCGCGTTCCGCTTCGGGGATGAAGATCACGACGCCGCGCGCATTCCCCGCGCCCGCCAATTTCCCGAAATTCGTCGACCACAGCGTCGGCCAGGAAGAAATCTCGATCCAGGCGATGAGCCTCGTCGGCGTCCCGTATCGCTGGGGCGGCAACACGCCGACGAGCGGCTTCGACTGCAGCGGGCTCGTGCGCTACGTGATCGGCCGCGCGGCCGACGTGAACCTGCCGCGCACGACTGCCGACATGAGCGGCCGCGGCGTATCGGTCGAACCCGACGAGATCGCGCCGGGCGACCTGATTTTCTTCAATACGACCGGACGGCCGCATTCGCACGTCGGCATCTATGTCGGCAAGCTGCGCTTCGTCAACGCGCCGTCGACGGGCGGCACCGTACGGCTCGACTACCTGACGAACCCGTACTGGGCCAAGCGATTCGACGGCATTCGCCGCGTCGCGCCGCCGCGCTCGGCCCCGACGCCGTTCGATGCGCCGACTTACGAGGCCAAGCGTGACGAGCCGCGTAATCCGCCGGTGGTCGCGGCCGCTCCGGTGGTCGTGACGGCTGCCGTCGCACAGCGGCAGCCCGCGTATGCGTCGTCGCAAGCAAGAGCAACGCAGACACAGGCACCGGCCATCCCGAGCACGCCGGTCGTGACGGCCGCCGCAGCTGCACCGGCAGCACCGGCCGCCGATCCGTATGAACCGCCGCCACCGAGGATGCAGGCGGCCCAGCAGCAAGCCACGTCGGTGAATGACGGCGCAACCGCGATGGCGGCCAATGCAGGACCGGCCGCGTCGGCGGAGGTCGGCACGCAGATTCCGACGACCGCGCTGACGGCCGCCCAGGCTGCCGCCTTCGATGCAGAGCCGCCGCCCGCCACCGCGTCGACGCCGGCACGCAGTATCGAGCCCGCGCCCGTGCAGGTATTGCGTGCGTCGACGCAATCTGCACCCGTCAGCCCGCGCACGAGTACGGCGGACGATCCGATAGCACGGTTTGCGACCGGCAGTTACTGATCGATTGTTGCTTGCCGGGCGACGGTGACGTCGACGGTATCCGCTGCCGCTTCGCCGCAACCTTCCGCCCCGTTACTATCTTCCTGTCCCAATAATGGGGCTTTGGCCAGCCAGGCCCGGTATGATTCCCGCCCCCAGTCGCAGTCATGATCCGGGGGGTGTTGTCGCCGGGTCTGGTGGGTGGCTGGTGATCGCTGATAGGGGTTTGGCCGGAATATTCCGACGCCGTCCGTAACGTGGATGCCGAGACTTGCCACCGTTGTTGCAGGCCAATCCGTTCACTTTGCACAAACTGCGATGCAAGACACTCAACAGCATGACGCCGTGGATGTTTTCGTCGGCGTCGACGTCGGTAAAGGCCAGCATCACGCCGTTGCACTCGATCGAAATGGCAAGCGTCTGTACAACAAGGCGCTACCCAACGACGAGGTCAAGCTGCGAGCCCTCATCGCCGAACTCAAGACTCACGGTCGACTGCTGTTCGTCGTCGATCAGCCTTCCACCATCGGTGCGCTTCCTGTAGCCGTCGCCCGCGCTGAAGGCGTACTCGTCGCCTATCTGCCCGGACTGGCCATGCGCCGCATCGCTGATTTGCACGCCGGCGAAGCCAAGACCGATGCCCGCGACGCCGCCATCATCGCCGAAGCCGCTCGCTCGATGCCGCATACGCTGCGCTCGCTTCGACTGGCCGACGAGCAGCTCGCCGAACTCACCATGCTGTGCGGCTTCGATGACGACCTCGCCGCTCAGGTCACACAGACCAGCAACCGCATTCGCGGCCTGCTTACTCAAATCCATCCGGCGCTCGAGCGCGTTCTCGGACCGCGCCTCGACCATCCGGCGGTGCTCGATCTGCTTGAGCGCTATCCGTCGCCCGCCGCACTTGCCAGCACCACCGAGAAGACGCTCGCCAATCGCCTGACCAAGCTCGCTCCTCGCATGGGCAAAGGCTTGGCGGCCGAGATCGTTCAGGCACTGAGTGAACAAGCCGTGACCGTGCCCGGCACGCAAGCCGCCACCATCGTCATGCCCCGTTTAGCCCAGCAGCTTGCGGCCTTGCGTAAGCAACGCGACGAGGTCGCCGCCGAAGTTGAGCGACTGGTGCTTGCTCACCCTCTTTGGCCGGTCCTGACCAGCATGCCGGGAGTCGGCGTCAGGACCGCCGCCAGACTCCTGACCGAAGTCGCCCATAAGGCCTTCGCTTCGGCTGCACACTTGGCGGCCTACGCTGGCCTTGCCCCGGTCACCCGGCGCTCAGGCTCGTCGATCCGTGGCGAGCATCCATCCAGACGGGGAAACAAGGTGCTCAAGCGCGCCTTGTTCCTATCCGCCTTCGCGGCCTTACGAGACCCAGTCTCACGGGCCTATTACTCCCGCAAGATCCAGCAAGGCAAGCGCCACAACCAAGCGCTGATCGCACTGGCACGGCGACGCTGCGACGTCCTGTTCGCCATGCTGCGCGACGGCACCATTTACCAACCCAAGTCAGCCCCTAACGCTTGACGAAAGACATAGGGGCACCCCGCTCGCGGCACCCGGCCAACAGGTCTACCATAGGCGCTCGTCGCCCGCGCGACCGCCGGCACGGCATGCGGCTTGCGCCTGCCCCTTTCCTCGTTGCCCCCGCACAGGAGGACGTCATGACGCAACACTTCGATGCAATCGTCATCGGCACCGGCCAGGCCGGGCCGCCGCTCGCCGCGCGGCTCGCCGGCGCCAGCATGAAAGTCGCGATCATCGAGCGCGGCCGCTTCGGCGGCACCTGCGTGAACACCGGCTGTATCCCCACCAAGACGCTGATCGCGAGCGCGTACGCCGCGCAGCTTGCACGGCGCGCCAGCGAATACGGCGTGTCGGTCGGCGGCCCCGTCACCGTCGACATGAAAGCCGTGAAGGCGCGCAAGGACCAGATTTCCGGCCGCTCGAACCACGGCGTCGAGCAATGGGTGCGCGGCCTCGACAACACCACCGTCTTTCAGGGTCACGCCCGGTTCGAACGCGCGAACGCGGTGCGCGTGGGCGATGACGTGCTCGAAGCCGAGCGCATCTTCATCAACGTCGGCGGACGCGCGCAGGTGCCCGCGATGCCGGGCCTCGACTCGGTGCCGTACCTGACCAACTCGACGATGATGGACGTCGACTTCCTGCCCGATCATCTGGTGATCGTCGGCGGCAGCTATGTCGGGCTCGAATTCGGTCAGATGTACCGCCGCTTCGGCTCGCAGGTCACGATCGTCGAGAAAGGCCCGCGCCTGATCCGCCGCGAGGACGAGGACGTGTCGCAGGCCGTGCGCGAGATCCTCGAAAACGAAGGGATCGACGTGCAGCTCGACGCGAACTGCCTGAACGCGCGCCGCGACGGCGACGGCATCGTGGTCGGCCTCGACTGCGCGGGCGGCGGCCGCGAGGTCGCGGGCTCGCACCTGCTGCTCGCGGTCGGGCGCGTGCCGAACACCGACGATCTCGGGCTCGACCGCGCGGGCATCGCTACCGATGCGCGCGGCTACATCACCGTCGACGAGCAGTTGCGCACCAACGTGCCCGGCATCTGGGCGCTCGGCGACTGCAACGGACGCGGCGCGTTCACGCACACCGCGTACAACGACTACGAGATCGTCGCGGCCAATCTGCTCGACGACGATCCGCGCAAGGTGTCCGACCGCATCATGGCCTACGCGATGTACATCGATCCGCCGCTCGGCCGCGTCGGCATGACGCTCGCGGAAGCGAAGCAGACGGGCCGCCGGCTGCTGGTCGGCACACGCCCGATGACGCGCGTCGGCCGGGCGGTCGAGAAAGGCGAGAGCCAGGGCTTCATGAAGGTGATCGTCGATGCGGACAGCCACGCGATCCTCGGCGCGTCGATCCTCGGCGTGACCGGCGACGAAGTCGTGCACGGGATGCTCGACGTGATGACCGCCGGCGCGCCGTACACGACCATCAGCCGCGCGATGCATATCCACCCGACCGTGTCCGAGCTGGTGCCGACGCTGCTGCAGGATCTGCATCCGGTCGAATGACGCACGGCAGGCGGGCGGCCGCGCATCCGGTTCCATCGGTGTGCGAAGATGGCCGCTCGCCACGCCATCCGGGAACGCCATGGACCGCCTGCAAACGATGCAGATCTACGTACAGATCGTCGAACGCGGCAACTTCACGCAGGCCGCCGACGCGCTGCAGCTGCATCGGCCGGCCGTCACGAAAGCCGTGCAGCAGCTCGAACAGGAGCTCGGCGTCCGGCTGCTGAACCGCAGCACGCGCCGCGTCAGCGTGACGGCCGAAGGCGAGGCGTTTCATGCGCGCTGCGTGCAACTGCTCGCCGGCATCGACGATGCGTTCGCGTCGTTCCCCAAGCAGCGCGCGGTACCGAAAGGCCGGCTGCGGATCGACATTGCGCTCGCGCTCGCGAAGACGATCGTGATTCCGGCGCTGCCCGACTTCCAGCAGCGCTATCCGCAGATCGAACTCGTGCTCGGCGCGAGCGACCAGCCGGCCGACCTGATCGGCGAAGGCATCGACTGCGTGGTGCGGGTCGGGACGCTGAAGGATTCGAGCATGGTCGCGCGCACCGTCGGCGCGGTGTCGATGGCCACGTGCGCATCGCCCGCCTATATCGCGCGCCACGGTTTGCCGCGTACGCTCGACGATCTGCGGACGCATCGCGCGGTCAACTTCTTCACCGGCCGCAACCGCCGCGTGCTCGAATGGACGTTCCGCCCGCACGGCGAAACCATCGCGGTGAAGCTCGCGAGCAGCCTGCTCACCGACAACTCGGAAGCGCTGCTGTCCTGCGGGCTCGCGGGCCTCGGCATCGTGCACGCGTTGCGGCCCGCGCTGCAGCCGAGCATCGACTCGGGCCAGTTGATCGAGCTGCTGCCCGGCGTGCCGGCCGTGCCGAAGCCGGTGTCGGTGCTGTACCCGAACCGCGCGCATCTGCCCGACAAGGTGCGCACGTTCATCGACTGGCTG Predicted Gene Sequences: >PredictedProphage1 -Hit 1 GATGGCCGTGTCGGGCCTCGGCGGCGACAACCGCCGGCGCGCGAAGGACTACCTCGAAGGGCTCGGCATCCTGTCGTCGATGCGCCTGTGCGCGAACGTGCCCGGCCAGTTCGCGATCCAGACGGCGCTCGGCGGCTACCAGAGCATCAACGAGCTGATCGTGCCGAACGGGCGCCTGTACAAGCAGCGCGAACTCGCGTATGACATGCTGACGTCGATCCCGGGCGTGACCTGCGTGAAGCCGCAGGCCGCGCTGTACATGTTCCCGCGCCTCGACCCGAAGCTCTACCCGATCCAGAACGACCAGCAGTTCAT >PredictedProphage1 -Hit 2 GAAGTGTCGGTCATCATCCCCGTGTACAACGAGGAAGACGGCCTCGCCGCGCTGTTCGCGCGGCTGTATCCGGCGCTCGACGCACTCGACACGTCGTACGAAGTGATCCTGATCAACGACGGCAGCCGCGACCGCTCGGCCGCGATGCTCGCCGATCAGTTCCACGTACGGCCCGACACGACGCGCATCGTGCTGCTCAACGGCAACTACGGCCAGCACATGGCGATCCTCGCGGGCTTCGCGCAGTCGCGCGGCGAGATCGTCATCACGCTCGACGCCGACCTGCAGAACCCGCCCGAGGAAATCGGCAAGCTGATCGCGAAGATGCGCGAGGGCTACGACTACGTCGGCTCGATCCGCAAGCAGCGCCAGGACAGCCTGTGGCGGCGCAAGGCGTCGCAGATGATGAACCGGCTGCGCGAGCGCATCACGCGCATCAAGATGACCGACCAGGGCTGCATGCTGCGCGCGTACAGCCGCCGCATCATCGACACGATCAACGTGTGCGGTGAAGTCAACACATTCATCCCCGCGCTCGCGTACACGTTCGCGCAGAGGCCGACCGAAATCGAGGTCGCGCACGAGGAACGCTTCGCGGGCGAATCGAAATATTCGCTGTACAGCCTGATCCGGTTGAACTTCGACCTCGTGACGGGCTTCTCGGTCGTGCCGCTGCAGTGGCTGTCGTTCATCGGCGTGATCCTGTCGCTCGGCTCCGCCGCGCTGTTCGTGCTGCTGCTCGTGCGCCGCTTCATCGTCGGCGCGGAAGTGCAAGGCGTGTTCACGCTGTTCGCGATCACGTTCTTCCTGCTCGGCGTGATCATCTTCGCGCTCGGCCTGCTCGGCGAATACGTCGGCCGCATCTACCAGCAGGTGCGCGCGCGTCCCCGCTACCTGATCCAG >PredictedProphage1 -Hit 3 TTCGTCACGCTGCTCGGTCAGGCCGGCACCGGCAAGACGCTCGTCGCGCTCGCGGCCGGCCTCGCGCAGGTGCTCGACGACAAGCGCTACAACGAGATCATCGTGACGCGCGCGACCGTGCCCGTCGGCGAGGACATCGGTTTCCTGCCCGGCACCGAGGAAGAGAAGATGCAGCCGTGGATGGGTGCATTCGACGACAACCTCGAAGTGCTGCAGAAGACCGACGACGCGGCCGGCGAATGGGGCCGTGCCGCGACGCAGGAGTTGATCCGCTCGCGCCTGAAGGTGAAGAGCATGAACTTCATGCGCGGCCGCACGTTCGTCGACAAGTATCTGATCATCGACGAGGCGCAGAACCTGACGCCGAAGCAGATGAAGACGCTCGTCACGCGCGCGGGCCCCGGCACGAAGATCGTGTGCCTCGGCAACATCGCGCAGATCGACACGCCTTACCTGACCGAAGGCAGCTCGGGCCTGACCTACGTCGTCGACCGCTTCAAGGGCTGGGGCCACAGCGGC >PredictedProphage1 -Hit 4 GGCGTCCCGTATCGCTGGGGCGGCAACACGCCGACGAGCGGCTTCGACTGCAGCGGGCTCGTGCGCTACGTGATCGGCCGCGCGGCCGACGTGAACCTGCCGCGCACGACTGCCGACATGAGCGGCCGCGGCGTATCGGTCGAACCCGACGAGATCGCGCCGGGCGACCTGATTTTCTTCAATACGACCGGACGGCCGCATTCGCACGTCGGCATCTATGTCGGCAAGCTGCGCTTCGTCAACGCGCCGTCGACGGGCGGCACCGTACGGCTCGACTACCTGACGAAC >PredictedProphage1 -Hit 5 CTGCAAACGATGCAGATCTACGTACAGATCGTCGAACGCGGCAACTTCACGCAGGCCGCCGACGCGCTGCAGCTGCATCGGCCGGCCGTCACGAAAGCCGTGCAGCAGCTCGAACAGGAGCTCGGCGTCCGGCTGCTGAACCGCAGCACGCGCCGCGTCAGCGTGACGGCCGAAGGCGAGGCGTTTCATGCGCGCTGCGTGCAACTGCTCGCCGGCATCGACGATGCGTTCGCGTCGTTCCCCAAGCAGCGCGCGGTACCGAAAGGCCGGCTGCGGATCGACATTGCGCTCGCGCTCGCGAAGACGATCGTGATTCCGGCGCTGCCCGACTTCCAGCAGCGCTATCCGCAGATCGAACTCGTGCTCGGCGCGAGCGACCAGCCGGCCGACCTGATCGGCGAAGGCATCGACTGCGTGGTGCGGGTCGGGACGCTGAAGGATTCGAGCATGGTCGCGCGCACCGTCGGCGCGGTGTCGATGGCCACGTGCGCATCGCCCGCCTATATCGCGCGCCACGGTTTGCCGCGTACGCTCGACGATCTGCGGACGCATCGCGCGGTCAACTTCTTCACCGGCCGCAACCGCCGCGTGCTCGAATGGACGTTCCGCCCGCACGGCGAAACCATCGCGGTGAAGCTCGCGAGCAGCCTGCTCACCGACAACTCGGAAGCGCTGCTGTCCTGCGGGCTCGCGGGCCTCGGCATCGTGCACGCGTTGCGGCCCGCGCTGCAGCCGAGCATCGACTCGGGCCAGTTGATCGAGCTGCTGCCCGGCGTGCCGGCCGTGCCGAAGCCGGTGTCGGTGCTGTACCCGAACCGCGCGCATCTGCCCGACAAGGTGCGCACGTTCATCGACTGGCTG Predicted Protein Sequences: >PredictedProphage1 -Hit 1 DGRVGPRRRQPPAREGLPRRARHPVVDAPVRERARPVRDPDGARRLPEHQRADRAERAPVQAARTRV_HADVDPGRDLREAAGRAVHVPAPRPEALPDPERPAVH >PredictedProphage1 -Hit 2 EVSVIIPVYNEEDGLAALFARLYPALDALDTSYEVILINDGSRDRSAAMLADQFHVRPDTTRIVLLNGNYGQHMAILAGFAQSRGEIVITLDADLQNPPEEIGKLIAKMREGYDYVGSIRKQRQDSLWRRKASQMMNRLRERITRIKMTDQGCMLRAYSRRIIDTINVCGEVNTFIPALAYTFAQRPTEIEVAHEERFAGESKYSLYSLIRLNFDLVTGFSVVPLQWLSFIGVILSLGSAALFVLLLVRRFIVGAEVQGVFTLFAITFFLLGVIIFALGLLGEYVGRIYQQVRARPRYLIQ >PredictedProphage1 -Hit 3 FVTLLGQAGTGKTLVALAAGLAQVLDDKRYNEIIVTRATVPVGEDIGFLPGTEEEKMQPWMGAFDDNLEVLQKTDDAAGEWGRAATQELIRSRLKVKSMNFMRGRTFVDKYLIIDEAQNLTPKQMKTLVTRAGPGTKIVCLGNIAQIDTPYLTEGSSGLTYVVDRFKGWGHSG >PredictedProphage1 -Hit 4 GVPYRWGGNTPTSGFDCSGLVRYVIGRAADVNLPRTTADMSGRGVSVEPDEIAPGDLIFFNTTGRPHSHVGIYVGKLRFVNAPSTGGTVRLDYLTN >PredictedProphage1 -Hit 5 LQTMQIYVQIVERGNFTQAADALQLHRPAVTKAVQQLEQELGVRLLNRSTRRVSVTAEGEAFHARCVQLLAGIDDAFASFPKQRAVPKGRLRIDIALALAKTIVIPALPDFQQRYPQIELVLGASDQPADLIGEGIDCVVRVGTLKDSSMVARTVGAVSMATCASPAYIARHGLPRTLDDLRTHRAVNFFTGRNRRVLEWTFRPHGETIAVKLASSLLTDNSEALLSCGLAGLGIVHALRPALQPSIDSGQLIELLPGVPAVPKPVSVLYPNRAHLPDKVRTFIDWL Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig380 Genome size: 153415 Host's GC content: 67.20 Predicted Codon Position GC: 1st: 68.23 2nd: 44.84 3rd: 81.39 >PredictedProphage1 Length: 10421 Number of hits = 5 GC Coding First Second Third 67.10 68.56 67.54 48.86 89.29 Codon Usage: AA Codon Total Percent Leu TTG 8 0.0879120879120879 Leu TTA 0 0 Leu CTG 50 0.549450549450549 Leu CTA 0 0 Leu CTT 1 0.010989010989011 Leu CTC 32 0.351648351648352 Lys AAG 16 0.8 Lys AAA 4 0.2 Glu GAG 21 0.67741935483871 Glu GAA 10 0.32258064516129 Gln CAG 28 0.848484848484849 Gln CAA 5 0.151515151515152 End TGA 1 1 End TAG 0 0 End TAA 0 0 His CAT 10 0.434782608695652 His CAC 13 0.565217391304348 Asn AAT 3 0.130434782608696 Asn AAC 20 0.869565217391304 Ser AGT 1 0.0192307692307692 Ser AGC 18 0.346153846153846 Ser TCG 26 0.5 Ser TCA 2 0.0384615384615385 Ser TCT 0 0 Ser TCC 5 0.0961538461538462 Trp TGG 10 1 Arg AGG 1 0.0142857142857143 Arg AGA 0 0 Arg CGG 15 0.214285714285714 Arg CGA 5 0.0714285714285714 Arg CGT 4 0.0571428571428571 Arg CGC 45 0.642857142857143 Ala GCG 69 0.669902912621359 Ala GCA 7 0.0679611650485437 Ala GCT 2 0.0194174757281553 Ala GCC 25 0.242718446601942 Cys TGT 0 0 Cys TGC 12 1 Asp GAT 19 0.311475409836066 Asp GAC 42 0.688524590163934 Gly GGG 8 0.121212121212121 Gly GGA 4 0.0606060606060606 Gly GGT 2 0.0303030303030303 Gly GGC 52 0.787878787878788 Phe TTT 1 0.0294117647058824 Phe TTC 33 0.970588235294118 Tyr TAT 7 0.35 Tyr TAC 13 0.65 Met ATG 13 1 Val GTG 34 0.485714285714286 Val GTA 2 0.0285714285714286 Val GTT 0 0 Val GTC 34 0.485714285714286 Thr ACG 44 0.721311475409836 Thr ACA 1 0.0163934426229508 Thr ACT 1 0.0163934426229508 Thr ACC 15 0.245901639344262 Pro CCG 40 0.740740740740741 Pro CCA 0 0 Pro CCT 1 0.0185185185185185 Pro CCC 13 0.240740740740741 Ile ATA 0 0 Ile ATT 1 0.0333333333333333 Ile ATC 29 0.966666666666667 Left Right Strand Best Blast Hit Score Evalue 10541 11386 -1 ref|NP_945089.1|gp58 120bits(302) 3e-26 12617 12964 -1 ref|NP_612844.1|Gp15 protein 67.0bits(162) 5e-10 13115 13285 -1 ref|NP_690779.1|ORF46 37.7bits(86) 0.31 17649 18050 1 ref|NP_064745.1|gp7 40.8bits(94) 0.036 20095 20961 1 ref|NP_945089.1|gp58 55.8bits(133) 1e-06 DNA sequence: GATCCAGTCGCTGAACGCGCGGATCTTCTGCTGGCTGCCGAGGTTCTCGGGGTAGACGAAGAAGTAGCGTGCGCCGGTTTCGAGCACGATGTCGAACGGCCGTTCGAGTCGGCGCGCGCTGACGTCGTCGTCGACGAGCGTCACGTCGCCGATCGCGACGCCGAAGCCCTGCATCGCCGCGTTCGTCGCGAGATCGAGCGTGTCGAACGTCGGTCCGCGCGCGGGATCGACGCCGCGCTCGCCCGCATGGTCGAGCCATGCACGCCAGTCGCGGTGGTCGCGCGTCGGATGCAGCAACGTATGGCGCGCGAGATCGCCGACCGCGCCGAGCGGCGACGCCTGCCGCAACTCGGGTGCGCACACGGGTGTCAGCCGTTCGTCGAACAGCGGCAGCGCGACGACGCCGGGGCCCGGCGACGTCCCGTAGACGATCGCCGCATCGAACGGTTCGCTCGAGAAATCGACGACGTGCTGCCACGCGGTCGTGATCTGCACGTGGAGATCGGGATGTTCGCCCTGGAAGCGCATGATGCGCGGCAGCATCCAGCGCATCACGCAGGTCGGCACCTTCAGCGCGAGATCGGTGCGCTGCCGCGTGAGCTTCATCGAGATGTCCTCGATCCGCGCGAAGCTCTCGTCGACCACCGGCAACAGTTGCTCGCCTTCCGCCGTCAGCGTGAGGCCCTTCGCATGCCGCTTGAACAGCGGAAACCCGTAATGCGCCTCGAGCGTCTGGATCTGCCGGCTCACCGCGCCCTGCGTGAGGCACAGCTGCTCGGCCGCGCGCGTGAAGCTGCGGTGGCGAGCCACCGTCGAGAAGATCTGCAGCGCGTGCAGGGGCGGAAGTCGGCGCATGGCGAACGGGAAACGGAAAACGGCGCGGAAGGACCGCGCGCCGGCGTCGGCGCGCGCTGACCGACACGATAAGCCAAACGCCGGCTTTGCGCGAGACGCCGAAAATTCAGGTCGTCGCGGTGAGCGCGCCCGCCGCGATGCGCGCCGCCGACGCGACGACGTCCGCGCGCGCCGCGGCATCGGCCTGCGGCTGCGTGAACGACACGGCCATCACGATCGGCGCGCGCGACGGCGGCCACAGCACCGCGATGTCGGTCGTCGTGCCGTAGCCGCCGGTGCCGGCCTTGTCGGCGACGCGCCAGCCGGGCGGCACGCCCGCCGCGATGCCGGTCGCCGCGCGTGCGCCGCCCGCCATCCATTCCGTCAGTTGCGCGCGCTGCGGTTCGCGCAGCGTGTCGCCGAGCAGCAGCCGCTGCAGCGTGTCGACCATCGCGACCGGCGTCGACGTGTCGCGCTCGTCGCCGGGCGCGGCCTTGTTCAGCTCGGGTTCCCAGTGATCGAGGCGGAAGGTGGTGTCGCCGCTTTCGCGCGCGAACGCCGTGACGGCCTGCGGACCGCCGAGCACGCCCATCAGCAGGTTGCCCGCGCCCTTGTCGCCCGACTGCAGCATCGCCGCGCACAGCTGCGCGATCGTCATGCCGGTGTCGACGTGGCTTTCCGTAATCGGCGAGCCCGACACGATTTCATAGCGGCGGTACAGGATACGGCGCGGCAGCAGCGACGCGTCGAGCGAGCCGCGCGCGAGCATCGCGGCGGCGGCCATGACCGCATACGTGCCGCACAGCGGGAAGCGTTCGCGCGCATGGTGCGCGATGCGCACGCCGTTCGACGTATCGAGCGCGGCGACGCCGAGCCGCCCGTTCGAGGCTTTTTCGAGTGCGGCGAGTTCGGCCTGGGCAGTATGGGCGCGCCCCTGGTCGGCGACCGGCGCGGACGTGCACGCGGCAACGAACGGCGCAGCCACGGCGGCAAGCAACAGCGAGCGGCGAGTCGGAGAATGTTCCATGGATGAGATCTGTTCTGTCGGAAACGGTGGCGCGAAGCAACGCGGCCGCGCATCGGCGACGCGCGACCGTTCACGCCGACGGCCGGCCCGCGACGGCATTCGCCGCGCTTCCCCGAAAGACGCCCGTCGGCCCCGCGATAGCGGGATTCGCATGAACAAACCTTAGCGTAGCAGTGACCGCCGTCGCGTTCCAGCGAAACGGCCGCGCTTCACCCTTGCGACGAAGGCAGGTACGGCATCGGATTCACCGGCTTGCCGTCGCGTCGCACCTCGAACAGCAGCGCGACGCGCGAGTTGTCGAGGTCGCCCATCTCGGCGATCGCATCGCCCTGATGCACGATGTCGCCCGTCTTCACGAGCAGCTTGCGGTTGTGCGCATAGGCGGTCAGGAAGTCCGCGTTGTGCTGGACGATGATCAGGCTGCCGTAATCGTTCAGGCCGGTGCCTGCGTACATCACGCGGCCGTCGGCCGCGGCGCGCACCGGGTCGCCCGGCCGGCCGGCGATCTGGATGCCGCGGTTCTGTCCGGGCTTGAACCCGTCGACGATCTTGCCGGTTGCCGGCCACTTGAGCGCGACGCCGCCCGCATGGCGCTTCGTTTCCTTGACGACCTGGCGATCGCTCGCGGTCGATGCGCCGGCCTGCGAAGTGGCCTGCGCGGTGGTCTGCGAGTTGCCCTGACTACTCGCCGCGCCATTACTCGCGACAATCTGCGTGCCGGCCGCGCCCGCGGGCGGCAGCGGCTGCTGCTTGACGATGCGCAGTACCTGCCCCATGCGCAGCCTGCCGTTCGCGGCCAGCTTGTTCCAGGTGCGCAAGTCGGCCACGCTGCAATCGTTCGCGGAGGCGATGCCAGTCAGCGTGTCACCGCGTTTCACGACGTACTTTTGCGCGACGAGAATCGGTGCGGCCGGCATCGGCGCGGCCAACTGCGCGGCAGGCGGGCTCGTATCAGCGGGTTTTCCCGCCAGCGTGTCGCTCGGCGGAACGGACTGCGTACTTGCACAACCGGCCATGACGAGCACGGCGGCCAGGCCCGACAGCCACGCCGCCTTAGGGTGAATCTCGCGCGTTTTCATGGACGATCCGACTCCGGTTTGACAATCTTTCAAGCATCTCAAAAACGGAACGGCCGACGTGTAACCGGATGCAAACAATGATGACAAACGATCACGGACCGGATGCCGGCCGGCATTCGCTACCGGTAATACGGTCCGACCCGGAAAAACTTGATGGTCTTTTCGCTGAAGAACGGAAGAATTTTCGTCGTCAAAAACTATGGCCCGCTGATTTCAATAGGCGCGATCCGCGACATTCACCGCAACCATGCGACGATTTCGGCTGCGGCCCACGCGATGCCAATGCACAGGAACAGCAGATGCAACGCGATCTTGAACGACACGCCCCATGACGAATCGATCCGCATGACAGGCTCCCCGGTTGATGTGCGCCCATCATCGGCCGCCGATCGCACCCCGAAAATGCGGAAGCGACGAACCAGGCCTCAAGCTGCCCCTGAGACCGGCGCGGCGGTTCCTGCTAACTTATCGGCCATCCCCACCCATCGCTCCGCCCATCATGCGCTTCGACCTGACCGACCTGCGGCTCTTCCTGAACATCTGCGAAGCCGGCACGATCACGGGCGGCGCCGAACGCACGCACATCACGCTGCAGGCCGCGAGCGAACGCATTCGCGGGATGGAGGACGAACTCGGCGTGCCGCTGCTGCACCGGACCAAGTCTGGCGCGCAGGCCACCGATGCGGGCCGCGCGCTCGAACACCACGCGCGCACCGTGCTGCAGCAGATCGATCACATGCGTGGCGAACTGCAGCAATACGGCCAGGGGCTGCGCGGCCATATCCGGCTGCTGTGCAACACCGCGTCGCTCAGCGAATACCTGCCCGACGCCCTGGCCGATTACCTGCCGAGCCATCCGAAGCTGTCGATCAGCGTCGAGGAACGCTCGAGCCAGGAGATCGTGCATGCGATCCGCAACAAGACGGCCGAGGTCGGCATCGTCGCCGATTCGGTCGGGCTCGGCGGGCTCGAACAGCAGCCGTTCCGCGAAGACTGGCTGATCGTCGTCGTGCCGGCTGCGCATCCGCTCGCGTCGCACGACAAGGTCGCGTTCGACGACATCGCCGACGAAGACTTCATCGGCCTCACCGACGGCAGCGCGCTGCAGGTGCATCTCGCCGATCAGGCGCGTGCGATCGGCAAGCGGATTCGTTATCGCGTGCAGTTGAAGAGCTTCGACGCGATCTGCCGCGTGATCGCGAGCGGCGTGGGCATCGGCATCGTGTCGCGGCATGCGGCCGAGCGCGCGATGCTCACGATGGACGTGCGGCTCGTCGAGCTGTCCGATCCGTGGAGCCATCGGAAACTGACGCTCTGCGCGCGGTCGTTCGACGCGCTGCCGAAGTACACGCGCGAGTTCGTCGCGTTCCTGTCCGGCGGCGCACCGCCGCGCTGACGCGCGCCGCATTCGCGTCGCCCCATCGACATACGGAGGCATGACCATGACCGATACCGATCTCGCCACCCGCTATCGCGCGTATATCGACTGCCTGAACCGGCAGGACTGGACGGCGCTCGGCGAGTACGTGTCCGACGACGTGATCCACAACGACCGGCCGCTCGGCCTCGCCGGTTACCGCGCGATGCTGGAACAGGACTTCCGCGACATTCCCGATCTGCGCTTCGACATCCGGCTGCTCGTGTGCGAGCCGCCGCGTGTCGCGTGTCGCCTTCGCTTCGCGTGTTCGCCGAAGGGGACGTTCATGGGGCTCGCCGTCGACGGCCGCAAGGTCACGTTCGCCGAGAACGTGTTCTACGAATTTCACGAAGGCAAGATCCGCCAGGTGTGGTCGGTGATCGACAAGGCGGCGATCGAGAAGCAGCTTTGAACGTCGTCGAAACGGCGCGGCGTCGCGCGCGGCGGCCGGTGGTCAGGAATGCCTGAATGCACTTCGATTCTTATGGATAACGTTTTCTCTCATTACGTATCGAGAATCGGTTTCCAGGTCACGCTCCGGCCGCCGCTTCAAAGCGCGATTTCTCTCACCCGATGACCATTCGATCAGCAACGAAAATCCTGGCGATTTTCGCATAAGACCGATTTCCCCTCCCGCACTATCCGCTGCCCGCCATTCGGGTTTCTACCGGCGCATCCGATGTGAAAGTTCATTGACATCACGCGGATGGATGCCTAAATTTGGAAAACGTTTTCCAATGCTCGAGCGCGACGCCGGTCATGGCCCGCGCAGGGGGAACGCTTGCCTGCTCGATTTGCGATTCAGGCCGTCCGCCTTCAGGGATCAGGGTTTGCAAGGGCGGCAGCCGGGTACGGGCATCGAGCACGGCATCGGCCACACATGCCCGTGCTTCACCACTATTCAAAACTGGAGACACCATGCATCCGCGCAGCAGATTCGCGCTCGGCGCCGCGCTCAGCGCCCTTTCCGTCGTGTTCGTCAGCGCGTGCGGCGGCAACGACGTGACCGACACGCCGCCATCGCCCCCCTCGTCGACCACGCCCACCACGCCCACGCTCGCGTCGAACTCGTTGCAGGCGCTCGTCTATGGCGCGCCCGACACCAGCGTGCCGGCCGGCACGAACATCCCGGTCACGATGATGGGCCAGATGCGCGCGCTGTTCGACCTGATCCGGAAATCGCCCGATTTCACGCAGGTCGTGATGGATCTCGGCGACGGCACGCCCGTCCACGTGCTCGACACGAACACCGGCGACAAATTCCTGCCCGGCAAGCTCGCGCTCGGCCTGTCGTACATCCTGATCGACATGAAGTCGAAGAACGACCCGCAATACGCGAGCTACCTCGCGACGTACCAGACGATCACGACCGCGATGATGGCGCAGTCGGGCAGCAACTACACGTATGCGAACACGTCGTGGGGCGAGTACTACTACCTCGTCGCGCTGAACAACCTGAAGGCGCACGGGATGCTCAACGAAGTCTTCAGCGACGCGATGCTCGCGACGCTGCAGCAGCGGCTCACCTTCTGCGACATGTTCGGCCCGGATGCGAGCGGCAAGACCAGTACATGCCCGGCGGCCGGCACGCCGATCGACATCGCGTCGCTCAACACCGCTCAGAACTACTACGCGGTGTCCTACGGCATTGCCGGGCTGCGCCAGAAGCTCGGCTGGAGCAGCCCGTCGTTCGCATCGAAGACCGATCCGGCGGTCGCCGCGATGAGCGCGCGCGACGCGCTGCTGTACACGCTGACGAACCACATCCGCAACGACTCGTCGGGCGGGTTCTCCGACGAAGCATCGAACACGCACACGACCTATTACGACCAGGCGCGCTTCGACCGCTACAGCACGCTGCTGATCGGCGAAGTGGTCGAGCGCACGTTCGAGATGGGCAACGAAGCAAACCTCACGCCGGAGCTGAAGGGCTATCTGCGCAAGTCGGTCGACCTGATCCTGCCGCAGCTGAACGCCAACGGCCAGGGCTTCAACTACGGCCGCTCGATCGGCCCGTACGGCGATTCCGCGTTCATGGAGGTGCTGACGGCCGCGGCCAATGCCGGCGTGCTGACCGATCGCGAGAAACAGGTTGCGTATGCATTCATCTACCAGGCCGCGCGGCGCTTCGACACGTACTGGTACGACCCGTCGCTGCCGACGCCGTCGGTGAACATGTGGGTCAAGGGCCGCGGCACCGACACCTATCGCGGCAAGCCGCGCGTGATGGGCGAGAACTTCAGCCTGCTGCACCAGTACCTGTACGTGAACGCATGGTGGAACAAGCTCGGCTTCGGCGGCCAGGCGCCGATGGCCGATGCGGACTACCGCGCGTGGCTCGACGCGCTGCCGCGCTACACGCTCACCTGGTACAACCAGCCGGGCGACGCCGCGCATCCGTACAGCGCCGCGCTGCTCACCGTGCGCGACGGCCGGCGCGTGATCAACCTGAACCTCAGCCAGGCGCCCGACTACGACTCGTACACGCCGTATTACCCGGTGCCGTTCTCCGACAAGCTGATCTACGGCACGACCGACCTCGGCTATGCGCTGCTGGTGCCGCAGGTGACGTACAACGCGAAAACCTACATTCCGGTCACGTACTACAAGAACCTGAACGTGCAGCAGAGCAACGGCCAGGTGATCGTGTCGTTCGATACGACGAAGTTCCGCCTCGCGTCGAAGAACGCCGCGTACACGACGGATCTCGACCTGCAGGTGCACACGGTGCTGACCTTCGCGCACGGCACGGTGTCGCGCAGCGATACGCTGAGTTCGGGCACGCTCGCCGGCAACCTCGCGATCGAGACGGACTTCACGTCGTTCGCGGATTTCGCGTCGACGCAGGCCAACGGCGACGGCGTATCGGTGACGTACGCGAACAGCGCCGCGACCGGCTATGCGACGTCCGGGTTCGACAACTGCGCGCTGTCCGCCTTCGACACGGCGAACGGCGCGACGAATCCGCTGTCGACGACGCCGATCGGACAGTTGCATTCGAACTTCGCGTGCACGACGAAACCGTTCGCACTCGGCGCGGGCGCGACCCGCACGGTCGGGTGGACGCTGAAGTACGCCGATCCGGCGTGAACGGCGCGAACGTCATGCCGTGACCGTTCCCGAAGCCGGTTGCCGAAACCGGCTTCGGGATCATTCAGCGGCCGGAGGCACGTTCACCGCCACCCCGACCCCGCCATATACGCGCCGAGCGCGATCAGCCCGATGAAGAAGCAACGCTTGAACAGCTTCTCGCTCATCACGCGCCGCGCATATTGGCCGCCGGCCATCCCCGCCAGCGCGGGCACGAGCGCGAGCGCCGACACGCCGAGATCGACGGTCTGCAATACGCCCGTCACACGCAACTGAAGGCCGAGCACGATCGTCGACGCGGTAAACGACAGCCCGAGCGCCTGGATCAGATCGTCCTTCGACAGACGCAGCGCCTGCAGGTACGGCACCGCCGGTACGACGAACACGCCGGTCGCGGCCGTCACGACGCCCGTCAGGTAGCCGACCCCGGCCGACAACCATTTTTCATGGCGCCCCGGCGCGGGCAGCCGCGCCGCCGCCAGCCCCCACAGCCCGTAAAGCACCAGCACGACGCCGAGCGCCGCGTGCGTCCACGTGCTGCCGGCCGCGAGCGCCGGCAATCCGCCCGTCAACGTGCCGACCGTCAGGCCGGCGAGCAGCGGCCACAGCCGGCGCAGCAACGCGCCGAACGACGGACCGAGCCACAACTGCCACACGTTGGTGACGAGCGACGGCACGAGCAGCAGGCTCGCCGCGGCCGACGGCGGCATCGCGAGCGTCAGCAGCCCCATCGCGATCGTCGGCAGCCCGAGCCCGATCATCCCCTTCACCGCGCCGGCCAACAGGAAAACCAGCACGACGATCGTCAGCGTATGAATCTGCATGGCAGGCATTCCGTCGTTGAGTACGGCGCCGATGATGCCTGCCCGCCCTGCCGCCCGCCATCTGGCTTTGCCTGAGGCTGGCTCGGGCCGGTTGGCCGGGGCTGTCAGGCCCCGGCGATCCGGCCCCGTGGATCACCCCCGGCCCTGCTCGCTGTCGAGGTGCGCCATCTGCGCGGCCGGATAACGCTCGCCGGCCGCCGCCCCGGCGGGAACCGCCGCTTCGATGCGTTCGAGGTCATCGACCGTTAGTTGCAATTTAGTTGCCAGCAAACCGTCCTGCAGTTGGGTGCGCTTGCGCGCGCCGACCAGCGGCACGATGTCGGCGCCGCGCGACAGCACCCACGCGATCGCGACCTGCGCCGGATTGCTGCGCTTCTCGTCCGCGATCGCGCGCAGCGCATCGACCAGCGCGAGGTTGTGCGCGAGGTTCTCGCCCTGGAAACGCGGGCTGGCCGCGCGGAAATCGCGCTCGCCCTGCCGCGCCGCGCTCCAGCCGCCGCCGAGCAACCCGCGCGACAGCACGCCGTACGCCGTCACACCGATCCCGAGTTCGCGGCACGCGGGCAGGATGTCCGCCTCGATCCCGCGCGACAGCAGCGAGTATTCGATCTGCAGATCGACGATCGGCGCGACGGCGGCCGCGCGGCGGATCGTGTCCGCACCGACTTCCGACAGCCCGATATGACGCACGTACCCGGCCTTCACGAGATCGGCGATCGCGCCGACCGTTTCCTCGATCGGCACGGCCGGATCGACGCGTGCCGGCCGGTAGATGTCGAGGTAGTCGGTGCCGAGCCGCTTCAGCGAATACGCGACGAAGTTCCGGATCGCCGCGGGCCGCGCGTCGTAGCCGGCGAACCCGCCGGCCGGATCGCGCAGCGCGCCGAACTTCACGCTGATCAGCACCTGGTCGCGCGTGCGGCCGCGCAGCGCGTCGCGGATCAGCATCTCGTTGTCGCCCATCCCGTAGAAGTCGCCCGTATCGAGCAGCGTGATGCCGTGGTCGAGCGCCGCGTGCAGCGTCGCGATGCTTTCGTCGCGATCCGCCGGCCCGTAAAAGTCCGACATCCCCATGCAGCCGAGCCCGATCGCCGAAACCTGCGGGCCCGTGCGGCCCAGTCGATGCTTGTCCATATCCGTGTCCTTGCGGTGTTGACTGAATCAACCGGATTCTGAACGCATCGCGGCGCACGATAAACGCGAAACCCCCAACCAATTCATTCGACGATGATTAACAATGGAGCCTGTTCCAATCGCCACGCTCCCGCCCCCGCATGGACCATCTGCAAGCAATGCGCACCTTCGCGCGCGTCGCCCATCTGGGCAGCTTCACGAAAGCGGCCGAGCAACTCCAGTTGCCGCGCCCGACGGTCAGCAACGCCGTCCAGTATCTGGAAAAGCACCTGAAGATCCGCCTGCTGCAACGCACGACGCGGCGCGTCGCGCTGACCGCCGAGGGCGCGACCTACTACGAGCGCTGCGTGCGGTTGCTGGCCGATCTCGACGATGTGGAAACGCTGTTCGAGGATGCCGGCGCGTCGCCGCGCGGCGTGATCCGCGTCGACCTGCCCGAGCGTTTCGCGCTGAACCAGGTGATTCCGGCGCTGCCGGATTTCCACGCGCGCTACCCCGACCTGCGCGTCGTGATCAGCACGACCGACCGCTTCGTCGACCTCGTGGCCGACGGCATCGATTGCGCGGTGCGGGTCGGCGTGCTGTCCGACACGTCGCTCGTCGCGCGGCGCGTCGGCGAGATGGCCCAGATCAACTGCGCGTCGCCCGCCTATCTCGCGCGCCACGGCACGCCGCGCTCGCCGGACGAGCTGCCGGACCACGTCGCGGTCGGTTATTTCTCGAGCCGAACGGGCCGCGAGCTGGACTGGGAATATGCGGACATGGATTCGGGCGAGCTGCACGCGGTGAAGATGCACAGCGTCGTGTCGGTCAACAGCTCGCAGGCGTATCTCGCGTGCTGCCTCGCGGGCCTCGGGCTGATCCAGGCGCCGCGCGACGGGCTCGCGCCGCTGCTCGCCGACGGCTCGCTGGTCGAGGTGCTGCCGGAATGGAATGCGGCGCCGCTGCCCGTGTCGGTGGTGTTCCCGACCGGCCGGCATCTCGCGCCGCGCGTGCGGATCTTCGTCGACTGGCTC Predicted Gene Sequences: >PredictedProphage1 -Hit 1 CTTCCGCCCCTGCACGCGCTGCAGATCTTCTCGACGGTGGCTCGCCACCGCAGCTTCACGCGCGCGGCCGAGCAGCTGTGCCTCACGCAGGGCGCGGTGAGCCGGCAGATCCAGACGCTCGAGGCGCATTACGGGTTTCCGCTGTTCAAGCGGCATGCGAAGGGCCTCACGCTGACGGCGGAAGGCGAGCAACTGTTGCCGGTGGTCGACGAGAGCTTCGCGCGGATCGAGGACATCTCGATGAAGCTCACGCGGCAGCGCACCGATCTCGCGCTGAAGGTGCCGACCTGCGTGATGCGCTGGATGCTGCCGCGCATCATGCGCTTCCAGGGCGAACATCCCGATCTCCACGTGCAGATCACGACCGCGTGGCAGCACGTCGTCGATTTCTCGAGCGAACCGTTCGATGCGGCGATCGTCTACGGGACGTCGCCGGGCCCCGGCGTCGTCGCGCTGCCGCTGTTCGACGAACGGCTGACACCCGTGTGCGCACCCGAGTTGCGGCAGGCGTCGCCGCTCGGCGCGGTCGGCGATCTCGCGCGCCATACGTTGCTGCATCCGACGCGCGACCACCGCGACTGGCGTGCATGGCTCGACCATGCGGGCGAGCGCGGCGTCGATCCCGCGCGCGGACCGACGTTCGACACGCTCGATCTCGCGACGAACGCGGCGATGCAGGGCTTCGGCGTCGCGATCGGCGACGTGACGCTCGTCGACGACGACGTCAGCGCGCGCCGACTCGAACGGCCGTTCGACATCGTGCTCGAAACCGGCGCACGCTACTTCTTCGTCTACCCCGAGAACCTCGGCAGCCAGCAGAAGATCCGCGCGTTCAGCGACTGGATC >PredictedProphage1 -Hit 2 CCGGCAACCGGCAAGATCGTCGACGGGTTCAAGCCCGGACAGAACCGCGGCATCCAGATCGCCGGCCGGCCGGGCGACCCGGTGCGCGCCGCGGCCGACGGCCGCGTGATGTACGCAGGCACCGGCCTGAACGATTACGGCAGCCTGATCATCGTCCAGCACAACGCGGACTTCCTGACCGCCTATGCGCACAACCGCAAGCTGCTCGTGAAGACGGGCGACATCGTGCATCAGGGCGATGCGATCGCCGAGATGGGCGACCTCGACAACTCGCGCGTCGCGCTGCTGTTCGAGGTGCGACGCGACGGCAAGCCGGTGAATCCGATGCCGTACCTGCCTTCGTCGCAA >PredictedProphage1 -Hit 3 TACGTCGTGAAACGCGGTGACACGCTGACTGGCATCGCCTCCGCGAACGATTGCAGCGTGGCCGACTTGCGCACCTGGAACAAGCTGGCCGCGAACGGCAGGCTGCGCATGGGGCAGGTACTGCGCATCGTCAAGCAGCAGCCGCTGCCGCCCGCGGGCGCGGCCGGCACG >PredictedProphage1 -Hit 4 GTGTCGCGCAGCGATACGCTGAGTTCGGGCACGCTCGCCGGCAACCTCGCGATCGAGACGGACTTCACGTCGTTCGCGGATTTCGCGTCGACGCAGGCCAACGGCGACGGCGTATCGGTGACGTACGCGAACAGCGCCGCGACCGGCTATGCGACGTCCGGGTTCGACAACTGCGCGCTGTCCGCCTTCGACACGGCGAACGGCGCGACGAATCCGCTGTCGACGACGCCGATCGGACAGTTGCATTCGAACTTCGCGTGCACGACGAAACCGTTCGCACTCGGCGCGGGCGCGACCCGCACGGTCGGGTGGACGCTGAAGTACGCCGATCCGGCGTGAACGGCGCGAACGTCATGCCGTGACCGTTCCCGAAGCCGGTTGCCGAAACCGGCTTCGGGATCA >PredictedProphage1 -Hit 5 CTGCAAGCAATGCGCACCTTCGCGCGCGTCGCCCATCTGGGCAGCTTCACGAAAGCGGCCGAGCAACTCCAGTTGCCGCGCCCGACGGTCAGCAACGCCGTCCAGTATCTGGAAAAGCACCTGAAGATCCGCCTGCTGCAACGCACGACGCGGCGCGTCGCGCTGACCGCCGAGGGCGCGACCTACTACGAGCGCTGCGTGCGGTTGCTGGCCGATCTCGACGATGTGGAAACGCTGTTCGAGGATGCCGGCGCGTCGCCGCGCGGCGTGATCCGCGTCGACCTGCCCGAGCGTTTCGCGCTGAACCAGGTGATTCCGGCGCTGCCGGATTTCCACGCGCGCTACCCCGACCTGCGCGTCGTGATCAGCACGACCGACCGCTTCGTCGACCTCGTGGCCGACGGCATCGATTGCGCGGTGCGGGTCGGCGTGCTGTCCGACACGTCGCTCGTCGCGCGGCGCGTCGGCGAGATGGCCCAGATCAACTGCGCGTCGCCCGCCTATCTCGCGCGCCACGGCACGCCGCGCTCGCCGGACGAGCTGCCGGACCACGTCGCGGTCGGTTATTTCTCGAGCCGAACGGGCCGCGAGCTGGACTGGGAATATGCGGACATGGATTCGGGCGAGCTGCACGCGGTGAAGATGCACAGCGTCGTGTCGGTCAACAGCTCGCAGGCGTATCTCGCGTGCTGCCTCGCGGGCCTCGGGCTGATCCAGGCGCCGCGCGACGGGCTCGCGCCGCTGCTCGCCGACGGCTCGCTGGTCGAGGTGCTGCCGGAATGGAATGCGGCGCCGCTGCCCGTGTCGGTGGTGTTCCCGACCGGCCGGCATCTCGCGCCGCGCGTGCGGATCTTCGTCGACTGGCTC Predicted Protein Sequences: >PredictedProphage1 -Hit 1 LPPLHALQIFSTVARHRSFTRAAEQLCLTQGAVSRQIQTLEAHYGFPLFKRHAKGLTLTAEGEQLLPVVDESFARIEDISMKLTRQRTDLALKVPTCVMRWMLPRIMRFQGEHPDLHVQITTAWQHVVDFSSEPFDAAIVYGTSPGPGVVALPLFDERLTPVCAPELRQASPLGAVGDLARHTLLHPTRDHRDWRAWLDHAGERGVDPARGPTFDTLDLATNAAMQGFGVAIGDVTLVDDDVSARRLERPFDIVLETGARYFFVYPENLGSQQKIRAFSDWI >PredictedProphage1 -Hit 2 PATGKIVDGFKPGQNRGIQIAGRPGDPVRAAADGRVMYAGTGLNDYGSLIIVQHNADFLTAYAHNRKLLVKTGDIVHQGDAIAEMGDLDNSRVALLFEVRRDGKPVNPMPYLPSSQ >PredictedProphage1 -Hit 3 YVVKRGDTLTGIASANDCSVADLRTWNKLAANGRLRMGQVLRIVKQQPLPPAGAAGT >PredictedProphage1 -Hit 4 VSRSDTLSSGTLAGNLAIETDFTSFADFASTQANGDGVSVTYANSAATGYATSGFDNCALSAFDTANGATNPLSTTPIGQLHSNFACTTKPFALGAGATRTVGWTLKYADPA_TARTSCRDRSRSRLPKPASGS >PredictedProphage1 -Hit 5 LQAMRTFARVAHLGSFTKAAEQLQLPRPTVSNAVQYLEKHLKIRLLQRTTRRVALTAEGATYYERCVRLLADLDDVETLFEDAGASPRGVIRVDLPERFALNQVIPALPDFHARYPDLRVVISTTDRFVDLVADGIDCAVRVGVLSDTSLVARRVGEMAQINCASPAYLARHGTPRSPDELPDHVAVGYFSSRTGRELDWEYADMDSGELHAVKMHSVVSVNSSQAYLACCLAGLGLIQAPRDGLAPLLADGSLVEVLPEWNAAPLPVSVVFPTGRHLAPRVRIFVDWL Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig381 Genome size: 158087 Host's GC content: 64.23 Predicted Codon Position GC: 1st: 66.40 2nd: 44.04 3rd: 76.38 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig382 Genome size: 181213 Host's GC content: 66.41 Predicted Codon Position GC: 1st: 67.74 2nd: 44.63 3rd: 80.06 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig383 Genome size: 226559 Host's GC content: 67.54 Predicted Codon Position GC: 1st: 68.44 2nd: 44.94 3rd: 81.97 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig384 Genome size: 200760 Host's GC content: 64.00 Predicted Codon Position GC: 1st: 66.26 2nd: 43.98 3rd: 75.99 Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig385 Genome size: 241068 Host's GC content: 64.34 Predicted Codon Position GC: 1st: 66.47 2nd: 44.07 3rd: 76.57 >PredictedProphage1 Length: 12417 Number of hits = 5 GC Coding First Second Third 60.82 59.70 63.79 44.94 70.37 Codon Usage: AA Codon Total Percent Leu TTG 7 0.0736842105263158 Leu TTA 3 0.0315789473684211 Leu CTG 23 0.242105263157895 Leu CTA 5 0.0526315789473684 Leu CTT 14 0.147368421052632 Leu CTC 43 0.452631578947368 Lys AAG 31 0.688888888888889 Lys AAA 14 0.311111111111111 Glu GAG 26 0.419354838709677 Glu GAA 36 0.580645161290323 Gln CAG 26 0.722222222222222 Gln CAA 10 0.277777777777778 End TGA 0 0 End TAG 1 1 End TAA 0 0 His CAT 10 0.526315789473684 His CAC 9 0.473684210526316 Asn AAT 4 0.210526315789474 Asn AAC 15 0.789473684210526 Ser AGT 7 0.114754098360656 Ser AGC 7 0.114754098360656 Ser TCG 27 0.442622950819672 Ser TCA 2 0.0327868852459016 Ser TCT 5 0.0819672131147541 Ser TCC 13 0.213114754098361 Trp TGG 12 1 Arg AGG 4 0.0625 Arg AGA 2 0.03125 Arg CGG 11 0.171875 Arg CGA 5 0.078125 Arg CGT 13 0.203125 Arg CGC 29 0.453125 Ala GCG 33 0.323529411764706 Ala GCA 17 0.166666666666667 Ala GCT 11 0.107843137254902 Ala GCC 41 0.401960784313726 Cys TGT 2 0.166666666666667 Cys TGC 10 0.833333333333333 Asp GAT 22 0.423076923076923 Asp GAC 30 0.576923076923077 Gly GGG 11 0.164179104477612 Gly GGA 20 0.298507462686567 Gly GGT 9 0.134328358208955 Gly GGC 27 0.402985074626866 Phe TTT 5 0.172413793103448 Phe TTC 24 0.827586206896552 Tyr TAT 10 0.416666666666667 Tyr TAC 14 0.583333333333333 Met ATG 17 1 Val GTG 25 0.36231884057971 Val GTA 6 0.0869565217391304 Val GTT 12 0.173913043478261 Val GTC 26 0.376811594202899 Thr ACG 30 0.526315789473684 Thr ACA 11 0.192982456140351 Thr ACT 0 0 Thr ACC 16 0.280701754385965 Pro CCG 19 0.452380952380952 Pro CCA 4 0.0952380952380952 Pro CCT 5 0.119047619047619 Pro CCC 14 0.333333333333333 Ile ATA 0 0 Ile ATT 11 0.255813953488372 Ile ATC 32 0.744186046511628 Left Right Strand Best Blast Hit Score Evalue 63015 63266 1 ref|NP_061531.1|integrase 42.0bits(97) 0.025 66712 67230 -1 ref|NP_046798.1|Old 42.0bits(97) 0.025 69253 70095 1 ref|NP_817844.1|gp83 68.9bits(167) 2e-10 70338 71264 1 ref|NP_463512.1|gp47 162bits(409) 2e-38 75189 75431 -1 ref|NP_958298.1|hypothetical protein 40.8bits(94) 0.055 DNA sequence: TTCAAGGATGCGGTCAAAACGGCCAAGCTTCCTGATTCCGTTGTGATGTACTCGCTTCGCCACACGGCCATCAGCGAAATGATCGCAAGTGGCATCGACAGCTTCGAGGTGGCCCGGATGGCCGGAACGTCGACCGAAATGATCGACAAGCATTACGGGCATTTGAGGCATGACCGTATGCGAGCGAAGCTCGATGCAATCGCTATCATCTAGGATAAAAGGGCCCGCACATCGATGACGAGCGTACCCGCGTCGGCAGGCAAAGCCACTGATCGGCGCATCTGGCTCTTTAATTATCCCCTCGCATAGTGGCAAGCAAGGTCGCTTTTGAGTGTGAAAAAGCAATGCCTGTGAGCAACATCAAACCAATCAAGCGAGATTGCCTGCCTCAGTGAGGCGTTTCGCAAAGTTGAACGGCAGCAGGTCGGTGACGTCAGCATCCGGCTCGGGGGTGTGAATCTGGTTAGAGAGCACCCCATGAGACGGTGCGCACTGAGGCTGGCGCTATGCCAAATGCATAAATGCGCCTGGACTTTTCTCCAGCGTCTTCGCGACAGGCCAACGTCCAGCGCGCTGTGCGCATCCCGGGTACAGCAAGCATTGCGTCGAAATACGGTTTATCGACGTCGGATAACGAATGACCAAGCACAAACACCTCCTTAACATCACGCATCAGCGCGAAGAAATCGCCATGAGCCTGGATTATTTGAGCTGAAGGCTTAAAGGTCTTCGTAAAATAATCGTCGAGGATGTCGTGCGCTTCTGCCAAGCGGACGTCGATGTCCTCAATGTCGGTTCGATCATTGAGCGATCGACAGCTTTCCGGATGCCATGCGTGCCCGAGAATCAACTCGCTATCCGGCAAATCCGCGTTGCCGTGAATGTGGAGGACGTTGGCATCGGCCACCCCGTAGATTTCGCGCAATGTCTTCGTGTAGTTGAACGTCAGGAAGATGGCATCCCTGTCCAGAAAACGCAAACGCTGCGTAACGGTTGTTGCCGTCGGAATGGGTAGTTGCCGTATCCACCCGCCGAATAGAAAGCGCAGTTCTCGGGAAAGACGCTCAACCACACGTTCAACTTCGTATTGAAAATCATGATGGCCGGAATCGCTCCAGTCATCGTCTCCATAAGACCCCATGAAGTGCCCAAGGCTTTCAATGACGTGGTCGACATCAATCTCTGCAAACGCCGCCTCCAGATCGCTCCAACTCTCCCCAACTGGCAGATAGCTTTCCACGGCGTCGAACACGTCACGACCATGCAGCCGAACGTAATCCCTGAAGCACGAGTAGCTCGACGGAATCCCATGCCAGAGGTCGAAGCCATTACCGATCACGTAAAGCGTACGGGATGTCATCGATAGGTCTCCTGTCAGAGCACGACGGCGTGAACGCTCTCGGGCGAAAACCATTGTTCCAGCGTGCCCATCGCCACCGGCGACAGTAACTGGGTGAATAGCAGTGCAAGGCGCCGTTTGGGGCGAGAACACGCGACATAGAACAGATTGCGGTTGCGCTCGAAAGACTCCTCCCTCGCTGCCGGAATCGCTTGTCCAGCCGCCAACCCGAGCATCTCGCCAAAGTTGTACTGATTCCATCCCCGACCGATAACGACCAGGACGTTGTCGAATTCGGCACCCTTCACTCCGTGCTTGGTCTCAAAGGGTGAATGACCGTCCAGGTACGCCCGCAATGCTGATATCTCCGCGTAGGGAACAGCGCGCAGTCGCTCAACTTCGGCAAGCCTTTCCGGCATCTCTTCGCCGGCAGTCCGATCGAAGTCGCGTAGTTCGCGTTCGCGCTTTTCGATCGCGTCAGGAAGCCGGGGCTTGCGTTGATCAAGAAGATGATCGATCACGTCTCCAACCGTGCCCGTCGCGCGAAGTTCCAGGACGCGGGTCATTGCATTGTGCCAGGCCGCTTTGTCCGCATGGCTGCGAAGAAGTGGCGTCGTCCCGCCGAGCGCCTCGAACATCACTCCGAACCGGTTTGCCGCAAACGCGTCGCAGGCCGGTTCGAGTTCATCGACGAGATAGGCAATATGCGGATGCTCTTTCTTGGTGAAGGCGTCGTTGTAGCGAAAAACGGTTGGCAGGCTGGTGTAGCCCTGCTCGGTTGCGAGCAGCCTGTGCGTCAACATCAGGATCTTCGTGCTCCCCGGCGCAAGATCCCATCCTTGCTGTGCCAGGAGCTCCTTGACGTGCTCAAGCGCCTGATGACCGACATCGGCCGGAAGGTCGCCGGCCCAATGTCCTCCGGCTCGGCGTTGCCCCACCCAGTCGTTGGTATGAAAAACGCTCACGTGGCCCACAGAATCCGGGTCCCTGACTTCCTGGCGCAACTCAGGCCGCATCCGGTTAAGACAATCCACGATCGTCTTCACCGAGCGGAAGTTGGCCTCCTTTCCGATTTCCGTTACGGACTCGTGCTCAAGCCGGCCGCACCCATCGCCATAGATCTTCTGCCAGTGATCTCCGAAGAAGCCGAACAGCGGTCCATCCGGATTGCTTAAAAAAAGCCGCTTGATCGCCTCGACCCAATCCCTGTCAGTGTCCTGATATTCGTCCACCAGGATGATGGGAAAGCGATCCGCAACCATCCGGCGGAACTTCAGGTGCTCCATCAGGGAAATCGTGAGGGGCAGCACATCGTCATGGTGGATCGATACACGGTCCTCGCGAATTGAGCGGTGCCCCAGGCTGTACTCGACCATGCGGGCGCCGAGCGTGCCGCCGACTTCTGCCAGTCGCTCCTGCCAGTGCGGCATTGCTTCCACCAAGGACCTTAGCTGCTTCTGGAAACCTCTGATCAGGGACCAGCAGAAGGCGTGGTTAGTCTCGCAGAACACCAATGGGCTCTTGTCAGTACGAGCGGCAATCTCGTCCCTGGCAACGTTCGTGAATGTAATGCACGCAATCTGCTGATTCTTTTTCGGGAAACCATGCCGGTTACGCTCGATGAGATACTGCAACGCCTTGATCAGGGAATATGTCTTGCCGGCACCAGCGCCGGCTTCGAGCCGGAAACTCCGTCCTTCATCCAGGCATTGAAACATTGCGTCGAGGGCACATTGACTCGCCAGCTCGGCCGGAGATTGGATATCAGCCATGAGGAGCGGCCTCCGCCTTCGCAACGATAACGTCCGCTGCTAAAGCCAGCGCAGGATCGGACTGGTCAGGTTCGATGCCGGCCGCTAGCCATCGCACGCCGTCGACAAGATACTTCGGAGCACTCCACCCTTTCTCCTCGATGGCATACCTGAGCGCGAAGTCCGATTTCTTGAATTCTCCTGCCTTGCTACGAGCGGCAACCTCCAACTCTTCCCTGGTATTGCCCGTCAGCCCAAACAGCGCCCGATTTGAGAGGATGAAGGCGTCCTCGAACGTCCGTCCACATGGACCACCTTCCGCTTCCGCACATTGATAGGCGATGCGATTGCCCTCTTTTATTTTCTCGGCCTCGCCCTTGGCCAAAAGTCCCGCGAGAGTGAACGGGTCGTCATCCGAGAACCACGCCTTCAGGCAAGCGTTGCTTGAATACGTTCCTTTGTGGACCTCGCACGCCGAACCGCCCGCTTTTTCCACGGCGTCAAGGTCGGTGATTATCAAACTGCGGAGCTCGAGGAAGTGTAGAAGCTTGAAGAACAAATGCGCGTATGCGCCACCCACTTCGATCGTGGTGACGTACTGGCTGGACAACTTCGGGGAGTTGGGCTCAGCCTCTTCGAGTTTTCCGACGAGGACCGGCAATAGAAGACGTTCGCTCAAGCCTTCAACCAGAATGGCCTTGTCTGCAAAAAAGAGATCACAACGCGTCAGTGTCATGTACTGGTGAAGGAATTTCTTGTCAGGCTCAGAAACGCCATCCAGCCCTCTGCGCAGATCCTTGATCATCGTCTGCCGGACGCCGGGTTGCGCTCCAGACACATCTCGTCCGAGGAAGTAACGAATACTTTCGAAGCCCGCTTCGTTTGCGACGTGTGACGAATGCGTAGAAACGACGAACTGAACCGGCCAGGGGGTCTTGTCTTCTGTACTGTCCACCAGCAATTGGGCCGTTTTGGCGAGTTGCCGGATGAATACCTCCTGCATCTGGGGATGCAGATGCGCCTCGGGCTCCTCGATGAAAATGAGGTGGATGCCTGGGGCCGTCGCTTCGGCGCGATAGGCTTTGTAGAACCCGGCTAACTGCAAGAGAATGAAGATCAGATTGCGCGCACCGAGGCCGTTGTACGATTCAGGCAACGCGACACCGCTGTAGCCGGCGTAACGGACTTTCGTGAAATTGGACAACAGCTTTCGCACATCAAGAAGGGTCTCGGTATGCAGCTCCTGATTACCTAGTCCAGGGTAGCCAAAGCTCTTCAAGGCAGGGATCAATCCCTTTAGCTGTCCGCCGAAGTTTGTATCAATCTGCGATTGAATGCCCTGGACGGCATCAGTCAGGGAATCTGCGATCTGTTTGTCGGCCGCATCTGCCGACGCCGATGACGCCGTTGCGAAAAGAAGCTCGACAGTCTTGGCAAGAACGTCCGACTCTCGTGACGTGACGTCGTCAAGGCCACGTTGCGCGTTGATGAAACCCGTTTTGACCAGACCCTTCACTGCGTTGGGAAGGAGCTGGCGCTGGTTTCCAGCGTCATTGGGGTCTTCTGCCCATATGCGCGTCGCATAATTGCCTGGTATTCGATCGCGCAACGTACGAAAGAACGTTAACCGAGCTTCGGCAGACAACGGCGTCGGTGGCAAACCATCAAAAAGCTGGGAAAGCTGACCGTCTTTCAGCTCGTAGCGGACAACAACAAGCGCCTCGGTGCAGTCAGGGTCGAGGTCGATAACAAAAGGACTCAGCGGTCCCAATTGCGGCTGATTCGGATCGTACTGGAAAGTCAGTCGCAGCTCGATGTAGGGGATGAGCGCCCGGACGATATCGTCGTGTTCGTCGTTGCTCCGAGCCTCCCAAGCTAGACGAAAGCCCTCATAGCAGGCGCTGGAGAAGTCTTCAAGCTGAAACTGTGCACTGCCGTCGGCGAGTAGCCGTCGGATGACTTCAGAGAGCGACGTCTTGCCGCTGTTGTTGCGACCCACAACGACTGTCGTGAGATCTTCCAAAGCAAGATCAACATCCGAGAGAAGACGGAAGTTCTTTATCTGAACATGACGCAGCTTCATTTATTCCCCGAATTCGCTATTTGAAGCGTTGATTTTGAGTATGGTAGTTCATAAATGCCCCAGGCTGAGCGCGATCGATCTAGAGATAGTTTTTTAATGCCCCGACTGGCGAATTGCACCTGGCGTCTGGTCAGTACCGTGGTTGCCACCAGGTTCGGACAGGACGTGACTGGCCGATATGGACCAGGCGTCAGATCGCGCCCACGATCCCGATCACCAGTTCTCCGACGATTCAAAAGAATCTGGGACACATATAACTGCTGCGAGCCCGGGTCAATCCTGCGGCTTCGTCGGTACGGTCGTGTTCCGGCGTCCCTCCCAGTTCAAGGAGTAAGACGATGTTTCCCACCCCTCTCGATTACCTTGCCGCCTTTGCGCTCGCATTTGTCAGCGGTGCGCTGGTGGCTGCGTGCCACTGCAAGTACGTCGGCAAGGTCCGGCGCAATGCCCATGTCCGTGCAGGCGAGGCTCCGGCCCATGCATGATCGTCCTCCATTCCTTCCATATGGCGACGGGGACGAGGATGAAGAGCCAGCGTGGCAAGCCAGTCTTCCCCGGCTTCACCATCAGCGTCAGTCGCCAGACCCCGACGAAGACGAATCGCCGCGCTACCGCCCGGGCAAGGGGAACCTCGTCTGGCCGTGTCCGTCTTGCGAGTCGCTTCGCACCGAGCAACGGCATATCGCAAGACGCATCTTCAGCGCCGTCGGTGCTGCGGCGGGCGCGACGAGTGCAATCACCGCGTCGCTGTCCGGTGCCGAGACCGGTGCAGCCATCGGCATGCTGGGCGGTCCTCTCGGAGCCGTCTGCGGCAGCGTTGCCGGCGCGATCCTCACCGGACTCGTGGCTGGCGCCGCCGGCTGCGCGACCGGCGCCGCACTCGGCGAAGCCCTCGACCTGAAGTGCCTCGACAACTGGCGGTGCCTGGCCTGCGGACGCGCCTTTACCGTCCGTCCTGGCTGACGCTTCGCCTCTCTCCTTCCCGTTTCGTTCCTTTCATCTCTGTGCCCGGCCCGTGCCGGGCTTTATGCACTTCATTTCACAGGAGTCCAAAAAATGCATCTCGTACAGACCATGGCGTTTACAGGCGAAGAACCGTGGCACGGTCTCGGAAACAAGCTCGTCCCGAAGCAACCACTCGAAGTCTGGCAAAAGGCCGCTGGCATGGACTGGAGTATCGAAGAAGCCGAAGTGCGCTTCGTCGCCGCCGGCAACAAAAGCCTCGGCTCGATTCACGCCTTCCCTGAACAGAAGGTCCTCTATCGTTCGGACACGAAAGCGCCGCTGTCCGTTGTGTCCGCCCGCTATCAGGTCGTGCAGCCGTCCGAGATCCTGGAGTTCTACCGTGACCTCACCGAGTACTCGGGATTCGAACTCGAAACCGCGGGTGTATTACGCGAAGGACGCAAGCTCTGGGCACTCGCGCGCACCGGACAATCGGCCACGCTCAAGGGCCGCGATGTCGTGAACGGATATTTGCTCCTTGCGACAGCCTGCGACGGGTCGCTTGCCACCACCGCACAATTTTGCAGCGTTCGTGTGGTGTGCAACAACACCCTTTCCATCGCTCTTGGTGAGGGCACGGGGGCGGTGAAGGTCCCGCATCGTTCGCAGTTCGACGCCGCCGCTGTCAAACGGCAACTGGGCATTTGCATCTCTTCGTGGGACGCTTTCATGGTTCGCATGAAGGCATTATCGGAATGCAAGGTGTCCGACGTGGGGGCGGAGAAATTCCTGCGGCGCGTTCTGACGTACCCCACCACGAATTCCACCGATCGCGATGCAATTGCGGTCAACGACCGGGCCATCAAGGCGGTCGGGCAACTCTACGCCGGTCGTGGCATGGGCGCGGATCTCGCGTCTGCATCCGGTAGTGCCTGGGGACTTCTGAACGCTATCACCGAGTATGCCGATCACCACCGTCGTGCACGCAGCGATGATCACCGGCGTGACGCGTCGTGGTTTGGCGCGGGCGCAACGCTCAAAGGTCGCGCGTGGGAAGAAGCCATGAAGCTCGTCGCATGAATCCATTTCCATCACGACATACACGCCCGGCCGGGTCTCTTCCCGTCGGGCGTTTGTGCTTTCAGGAGGTCACCATGTCGTTGCCTGAAACGGCGGGACGCGGGCGCAAACGTCCAGCCCTGCGTCTCGTTGAAACAAAGGATCTTCCTCGAACGGACTGGCTCGAGGTGAGGAAATCCGGGATCGGAGGATCGGACGCGGCAGCAGCCATCGGCCTGAATCCGTACATGAGTGCGCTGGAACTCTGGTGCGACAAGACAGGACGTGGAGACGGTCTACCCCGCCCCGATCCAGGCGATACGACGTCCCCGACGTACTGGGGCACGCTTCTTGAGCCGATTGTTTCGGCATCCTACACGAAGCAGACAGGAAACCGTGTGAGACGCGTGAACGCCGTGCTCCAGCATCCGACGATTCCTTTCATGCTCGCTAACCTCGATCGCGAAGTCATCGGCGTACCCGGTGTGCAGATCCTCGAGTGCAAGACGGCGGGAGCGTTCGGGGCGCGACTCTGGCGTGAAGGGGTACCGGAATATGTGCAGATCCAGGTCCAGCACCAGCTCGCGGTCACAGGCAAGCAGGCAGCGGACGTCGCCGTGCTGCTCTGTGGCCAGAAGCTTGAGGTGCATCGCATCGAACGCGACGATGAACTGATCGCCCGGCTCATTCCGCTCGAAGCCGCCTTCTGGCGGTATGTCGAAACGGACACGCCACCGCCCGCAGACGGATCGGAATCGGCCGACCGCGCGCTGCGCTGCCTCTATCCCGGAACAGGGGGCACGGTCGACTATACGGACGATCGTAAGCTCTCATCGCTCTTCGCCGATCTCGTCGCACTACGCGCCGACATCGAGCAGCGCGAGACACAGGAAGCTGTGCTCAAACAGACCCTCATCCAGGCCATGGGAGAAGCCGACCAGGCGATCTTCGAGACGGGATCGGTGTCGTTCAAACGCAGTCGCGACAGCGCTGGTGTCGATCTAAAACGACTACTGGCCGAGCACCCCGAAGTCGCCTCGCAATACGCGCTGTCGAAGCCCGGCTCCCGCAGGTTTCTCATCTCAACCTGAATTCCCGCTTTGCCCTTCCTGCTTTTCCTTCCCCTGCTTTCATTCCTTTAAGGGAGTATCACGATGATCAAGGGACTTGCCCTAACGCCGCCCGTCATCGGGCGCATTTCCATCGGACGCGTTGTCGAGAAGAACGGTAAGTGTCTGCCCGAGAAGGACGACCAGTTCACGATCACGACGCAGGTGCAGCAGCGCGGCGAATGGGTCCTCCATCCGCTGAACGAGTCGTTGCGCAAGGCCACGACCGGCAAACTGCGTGCCATTCCCGTCCGCTTTCTCTTCAACGATCCGGATCTGAACCTGCGTGCCGAGTATTCGCTGTTCGACCGTGACACTGGACGGCCCGTGTGCGTCGGCAACGGCACAACGTGCAGACGGGCGTGCGAGAACGGAATCGAAGAACTGTCCTGCCCGTCGCCGGATGGTTGCGCATTCGGCCAAGCCGGCAACTGCAAGCCGTTCGGAAGGCTCAATGTCGCAATCGGTGACGAGGACGAGCTCGGCTCGTTCATTCTGCGTACGACATCCTGGAACAGCATCCGGACCCTGGCTGCGCGCCTGCACTACTTCAGCGCGGTGTCGGGCAACCTGCTTGCCTGTCTGCCGCTCGAACTGAAGCTGCGCGGGAAATCCACCACGCAGAGTTTCAGAAGTGCCGTGTACTACGTCGACATCGGCGTCCGCAGCTGCAGCACGCTTGAACAGACGATCGTACAGGCCCGCGAGCTCGACGACCGGCGGCGGGCAGCCGGGTTCGACCAGGCCGCGCTCGATGCCGCGGCGCGGGCAGGATTTGCGAACGGCGCATACGAGGACAGTATCGAGGATGGCAGCGCAGTCGTCGACGAGTTCTATCCCGATGCAGGGCGCTCTGACGGCGACGGTCCCGGTACTGATGGCAATGCTGCTACCGTCGCAGGAAGCGGGACGACAGTCTCCCGAACAGACGGCTCGGCGACGCTGCGCCAGAAGCTCGAACGCAAGGCAATGCCGCTTGGAGGAGCAGCCGCATGAGCGCAACGCCACGCTGGGCGATCGCGATGGCGGCAGGTGCAACGGGAACCGCGTTGTGTCTTTCGACGATTGCAGGCTGGCAACGGGGCGGCTCGCTGTCCGAGCGCGTCGTATGGGTGGCAATGGGTGTCGTGCTGATCGTCAGCGCGCACCTGTTGCCCACCCTCGTACGCAGCTCGCCCTTCACGATCCGGATCACAGGTAGCGTGTTATGGGGAGCCTGCATGGTCACCGCCTGCATCGGGCACGTGACCTTCTTCCTGTTCGCCCAGCAGCACGCAGGTGAAGCCCGGGCGTCCGCCGTGACTAGGAACGTCGCCGCCAGCCCCGCACTTGCCTCACGGACCCTGACCGCTGTCATGCAGGAGGGGGCCGCCGTTACGCGTCAGCTTGCGCTCGCGCGGGCACAGCGCTGTTCGCGTGACTGTCCGTTTCTGGACGCGAGACGGGTCACGCTCGCCGCGCGACTCGACGCGCTTGAGGCCGAAGCGGACGACATCCGGCGACAGGATTCGGAGCGTGACCGTACCCGGTCGCAGCGTGACGCATTACTCGCCGATCCGGTCACGTCGCGACTGGCTGCGTTACTCGGTACGACAACCGCGCGCGTCGATCTGCTCTCGGGGGTGACGTTCGCCGCGGTACTCGAAGGTGTTGCCTGCCTGCTGTGGACCGTCGCGCTGCGACCATTACCGCTCCCGCACGCGACAGCAGCAGTCACGGGTACGGTAGCGCCGGGAGTCACGCCTGACATAAACGTGACTGAAGCGGCACCGCCTGCCGTCACGTCATCAGTCACGACCGCGCCCGTACGTCGTGGCAACGCGAGCGCCCGTCGCAAGACCGGATCTCGCAGTCGCGACGGTCCGGACGGCAGTCAGGCAACGCGCACCGAGTATCGCGCTCCGCCGTTACTGGAGACTGATGGCGCCGACGATGCCCTGACCCGGCTCGCCCGGGACATCGACGCGGGTCGGGTGCGTCCCACGGTCGCCGGCATCCGCAGTCACCTCGGCTGCTCGCAGTCACGGGCCGCCTCGCTACGCCGCCAGCTCGCCGTGCTTTCCCCGACGGCATAAGCCGGGCTCGCGCCCGGCGATCCGCTTTTCCATTCCCTTCACAGCAAACACATCCGGTTCTGCCGGAGGTTCGCGCTCGCCCTTTTCTGGAGGCAGCATGCCTGAAACCCGTTTCATTCCCCGCCCGCCACGCGTCGATCCCCTGCTGACAAGCCTGGCTCTCGCCGCTGGCATTACTGCAATCAGCGTCATCGCCGCTCGGCACTGCCGGCAGCAGCACATACGCAAGTACATGTGCCCGTGCACGGTGAGACCGAGCGCTGCAGACATTCCTGCGGAGCCAGACACCGGCGCCGACGTGCCTCCCGCGACACCGGGCAGCCCAACGCCGCCCGCGACCAGCCGCCAGCCGTAGCACAACCCTGAACCGTCCTGACGCCGGCACACGTTGCCGGCCCCCCGCCGTTCCCGCCAGCACGCATCCGACCCGTTCCGGAGGGGCGCGCTCGTCCGTTTCCAGGAGAAGAAGATGAATCACCACACACGACTCAAGCCACTTTTCCATCCCGGCAAACTACTCGTCTCGCCCGCCGCCCTCGTAGCGCTGCGCGCCAATGGCGTCCCCGTCATCAGCGTCGTGCTGCGTCACATCTGCGGCGACTGGGGCTCAGTCTCTGAGAGCGACCGCGAACAGAACGACCTGTCGATCACGACCGGTCTGCGGCTGCTTTCCCTCTATCACCTGCCCGATGGCAGCCGGATCTTCGTGACCACGGCGTGGGACCGGTCGAACACGACGATCGAAAAGCTCGACGAAGGCCCAGCAGACCGCGAAGCCCGTCCCGCGTCGATGCCGGGCCGTCGCCGTCCGGTCTGGTCCGTCTTCAACTGCCTGCAGGGAGCCTGCGCATGAACGCCCGCGCCCGAAACGCAGCGCGTTTCCCGATCGGCCGGGCGCTCATCACTCCGGGTGCCCAGGCCGCGCTTGACTCGGAAGGCATCCCGGTTCTCCTGGTGCTTGCCCGGCATGTCTGCGGGGACTGGGGCGAGTTACCCGTTGAAGACCTCGCGGCAAACGAGCTGGCCCTGCTGGCGGGCAGACGCCTTCTGTCGAGCTATGCGCTGCCGGGTGACGGGAAGGTGTGGATCATCACCGAGGCCGACCGCGCGTCCACCACGATCCTCCTGCCCGACGACTACTGACATGCTCATCCAGAAATTTCATCACGCCCTGCGGCTCGGCGGCGGTCCGGTGCGCACCGGCTCAGGCAGTCCGCTCTTCAGCCGCCAGGGCCACTGGGACGGCGGCAGCACGCTGCATTGCGTCGCGATGGCCCTCGCGTTGCTCGATCTCCTGGGTGACCCCGTGTGGCTGCCGTATCACGACGAAGGCAACGAGCGGACCGTCTGGGACCGCGCTTGGCCGCATTACCTGCACGGACTCACGCTCTCCGAGTTGAGCGGCTTCATTGCCGAACTGAATCTGGGCTTGCGCCCGGTCGAGCGGCAGGCGGAAGGGTCGGAGCTGTCGCGCTTCTGCGAACGCGAGCTGCAGGCCGGCTGGCCCGTCATCATCGGGTGGAACCAGCGCCATCCCGTCAGCGCGCACGCGGCGCTCGTCACCGGAATCGAGGGACATCAGAACGGAAAGGTCTTCGAGCCTCATGCGCTGCTGCTGCTCGATCCGGCGGGCGACGATCCGGGACGCTCGGGCTTCAATGCCCGCCTCGACTGGCATGGGAATGAGGCGCTGCTCTATAGCGGGCCGTCCGTCACACGCGCCGTGACACCGGAAGGCGCCCTGTCGATCCGTGTCACCGGTTCGCGTGGAGCGCCAGCGTAGTCAGCGCAGACGGCTACGCTTGATCTCGGGCGGGGTCGCTGCGTTCGCGCGGCGCTCACCGGTCGGCTTGAGCGACACGCCATCGAGCGGTGCAAACAGTTCGCCGAGCGTCACATTCAGCGAATAGCAGATGTTCGCCAGCGTCTCGACCGACGGGTTGGCAATGCCCCGTTCGATCGACGAGATGTAGGTGCGATCAACGTGCGCCTCGAAGGCGAGCGTTTCCTGCGACTTGTCAGCCGCATGCCGGCACTCCTTGATCCGCTTGCCAAG Predicted Gene Sequences: >PredictedProphage1 -Hit 1 TTCAAGGATGCGGTCAAAACGGCCAAGCTTCCTGATTCCGTTGTGATGTACTCGCTTCGCCACACGGCCATCAGCGAAATGATCGCAAGTGGCATCGACAGCTTCGAGGTGGCCCGGATGGCCGGAACGTCGACCGAAATGATCGACAAGCATTACGGGCATTTGAGGCATGACCGTATGCGAGCGAAGCTCGATGCAATCGCTATCATCTAGGATAAAAGGGCCCGCACATCGATGACGAGCGTACCCGCG >PredictedProphage1 -Hit 2 CGCAATCTGATCTTCATTCTCTTGCAGTTAGCCGGGTTCTACAAAGCCTATCGCGCCGAAGCGACGGCCCCAGGCATCCACCTCATTTTCATCGAGGAGCCCGAGGCGCATCTGCATCCCCAGATGCAGGAGGTATTCATCCGGCAACTCGCCAAAACGGCCCAATTGCTGGTGGACAGTACAGAAGACAAGACCCCCTGGCCGGTTCAGTTCGTCGTTTCTACGCATTCGTCACACGTCGCAAACGAAGCGGGCTTCGAAAGTATTCGTTACTTCCTCGGACGAGATGTGTCTGGAGCGCAACCCGGCGTCCGGCAGACGATGATCAAGGATCTGCGCAGAGGGCTGGATGGCGTTTCTGAGCCTGACAAGAAATTCCTTCACCAGTACATGACACTGACGCGTTGTGATCTCTTTTTTGCAGACAAGGCCATTCTGGTTGAAGGCTTGAGCGAACGTCTTCTATTGCCGGTCCTCGTCGGAAAACTCGAAGAGGCTGAGCCCAACTCCCCGAAGTTG >PredictedProphage1 -Hit 3 GTACAGACCATGGCGTTTACAGGCGAAGAACCGTGGCACGGTCTCGGAAACAAGCTCGTCCCGAAGCAACCACTCGAAGTCTGGCAAAAGGCCGCTGGCATGGACTGGAGTATCGAAGAAGCCGAAGTGCGCTTCGTCGCCGCCGGCAACAAAAGCCTCGGCTCGATTCACGCCTTCCCTGAACAGAAGGTCCTCTATCGTTCGGACACGAAAGCGCCGCTGTCCGTTGTGTCCGCCCGCTATCAGGTCGTGCAGCCGTCCGAGATCCTGGAGTTCTACCGTGACCTCACCGAGTACTCGGGATTCGAACTCGAAACCGCGGGTGTATTACGCGAAGGACGCAAGCTCTGGGCACTCGCGCGCACCGGACAATCGGCCACGCTCAAGGGCCGCGATGTCGTGAACGGATATTTGCTCCTTGCGACAGCCTGCGACGGGTCGCTTGCCACCACCGCACAATTTTGCAGCGTTCGTGTGGTGTGCAACAACACCCTTTCCATCGCTCTTGGTGAGGGCACGGGGGCGGTGAAGGTCCCGCATCGTTCGCAGTTCGACGCCGCCGCTGTCAAACGGCAACTGGGCATTTGCATCTCTTCGTGGGACGCTTTCATGGTTCGCATGAAGGCATTATCGGAATGCAAGGTGTCCGACGTGGGGGCGGAGAAATTCCTGCGGCGCGTTCTGACGTACCCCACCACGAATTCCACCGATCGCGATGCAATTGCGGTCAACGACCGGGCCATCAAGGCGGTCGGGCAACTCTACGCCGGTCGTGGCATGGGCGCGGATCTCGCGTCTGCATCCGGTAGTGCCTGGGGACTTCTGAACGCTATCACCGAGTAT >PredictedProphage1 -Hit 4 CTCGTTGAAACAAAGGATCTTCCTCGAACGGACTGGCTCGAGGTGAGGAAATCCGGGATCGGAGGATCGGACGCGGCAGCAGCCATCGGCCTGAATCCGTACATGAGTGCGCTGGAACTCTGGTGCGACAAGACAGGACGTGGAGACGGTCTACCCCGCCCCGATCCAGGCGATACGACGTCCCCGACGTACTGGGGCACGCTTCTTGAGCCGATTGTTTCGGCATCCTACACGAAGCAGACAGGAAACCGTGTGAGACGCGTGAACGCCGTGCTCCAGCATCCGACGATTCCTTTCATGCTCGCTAACCTCGATCGCGAAGTCATCGGCGTACCCGGTGTGCAGATCCTCGAGTGCAAGACGGCGGGAGCGTTCGGGGCGCGACTCTGGCGTGAAGGGGTACCGGAATATGTGCAGATCCAGGTCCAGCACCAGCTCGCGGTCACAGGCAAGCAGGCAGCGGACGTCGCCGTGCTGCTCTGTGGCCAGAAGCTTGAGGTGCATCGCATCGAACGCGACGATGAACTGATCGCCCGGCTCATTCCGCTCGAAGCCGCCTTCTGGCGGTATGTCGAAACGGACACGCCACCGCCCGCAGACGGATCGGAATCGGCCGACCGCGCGCTGCGCTGCCTCTATCCCGGAACAGGGGGCACGGTCGACTATACGGACGATCGTAAGCTCTCATCGCTCTTCGCCGATCTCGTCGCACTACGCGCCGACATCGAGCAGCGCGAGACACAGGAAGCTGTGCTCAAACAGACCCTCATCCAGGCCATGGGAGAAGCCGACCAGGCGATCTTCGAGACGGGATCGGTGTCGTTCAAACGCAGTCGCGACAGCGCTGGTGTCGATCTAAAACGACTACTGGCCGAGCACCCCGAAGTCGCCTCGCAATACGCGCTGTCGAAGCCCGGCTCCCGCAGG >PredictedProphage1 -Hit 5 CTTGGCAAGCGGATCAAGGAGTGCCGGCATGCGGCTGACAAGTCGCAGGAAACGCTCGCCTTCGAGGCGCACGTTGATCGCACCTACATCTCGTCGATCGAACGGGGCATTGCCAACCCGTCGGTCGAGACGCTGGCGAACATCTGCTATTCGCTGAATGTGACGCTCGGCGAACTGTTTGCACCGCTCGATGGCGTGTCGCTCAAGCCGACCGGTGAGCGCCGCGCGAACGCAGCGACCCCG Predicted Protein Sequences: >PredictedProphage1 -Hit 1 FKDAVKTAKLPDSVVMYSLRHTAISEMIASGIDSFEVARMAGTSTEMIDKHYGHLRHDRMRAKLDAIAII_DKRARTSMTSVPA >PredictedProphage1 -Hit 2 RNLIFILLQLAGFYKAYRAEATAPGIHLIFIEEPEAHLHPQMQEVFIRQLAKTAQLLVDSTEDKTPWPVQFVVSTHSSHVANEAGFESIRYFLGRDVSGAQPGVRQTMIKDLRRGLDGVSEPDKKFLHQYMTLTRCDLFFADKAILVEGLSERLLLPVLVGKLEEAEPNSPKL >PredictedProphage1 -Hit 3 VQTMAFTGEEPWHGLGNKLVPKQPLEVWQKAAGMDWSIEEAEVRFVAAGNKSLGSIHAFPEQKVLYRSDTKAPLSVVSARYQVVQPSEILEFYRDLTEYSGFELETAGVLREGRKLWALARTGQSATLKGRDVVNGYLLLATACDGSLATTAQFCSVRVVCNNTLSIALGEGTGAVKVPHRSQFDAAAVKRQLGICISSWDAFMVRMKALSECKVSDVGAEKFLRRVLTYPTTNSTDRDAIAVNDRAIKAVGQLYAGRGMGADLASASGSAWGLLNAITEY >PredictedProphage1 -Hit 4 LVETKDLPRTDWLEVRKSGIGGSDAAAAIGLNPYMSALELWCDKTGRGDGLPRPDPGDTTSPTYWGTLLEPIVSASYTKQTGNRVRRVNAVLQHPTIPFMLANLDREVIGVPGVQILECKTAGAFGARLWREGVPEYVQIQVQHQLAVTGKQAADVAVLLCGQKLEVHRIERDDELIARLIPLEAAFWRYVETDTPPPADGSESADRALRCLYPGTGGTVDYTDDRKLSSLFADLVALRADIEQRETQEAVLKQTLIQAMGEADQAIFETGSVSFKRSRDSAGVDLKRLLAEHPEVASQYALSKPGSRR >PredictedProphage1 -Hit 5 LGKRIKECRHAADKSQETLAFEAHVDRTYISSIERGIANPSVETLANICYSLNVTLGELFAPLDGVSLKPTGERRANAATP Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig386 Genome size: 311296 Host's GC content: 66.61 Predicted Codon Position GC: 1st: 67.87 2nd: 44.69 3rd: 80.41 >PredictedProphage1 Length: 14951 Number of hits = 6 GC Coding First Second Third 59.02 63.88 65.91 46.39 79.35 Codon Usage: AA Codon Total Percent Leu TTG 12 0.15 Leu TTA 1 0.0125 Leu CTG 23 0.2875 Leu CTA 4 0.05 Leu CTT 7 0.0875 Leu CTC 33 0.4125 Lys AAG 40 0.888888888888889 Lys AAA 5 0.111111111111111 Glu GAG 34 0.68 Glu GAA 16 0.32 Gln CAG 28 0.756756756756757 Gln CAA 9 0.243243243243243 End TGA 0 0 End TAG 0 0 End TAA 0 0 His CAT 6 0.428571428571429 His CAC 8 0.571428571428571 Asn AAT 5 0.227272727272727 Asn AAC 17 0.772727272727273 Ser AGT 5 0.138888888888889 Ser AGC 11 0.305555555555556 Ser TCG 10 0.277777777777778 Ser TCA 2 0.0555555555555556 Ser TCT 2 0.0555555555555556 Ser TCC 6 0.166666666666667 Trp TGG 13 1 Arg AGG 1 0.0113636363636364 Arg AGA 5 0.0568181818181818 Arg CGG 20 0.227272727272727 Arg CGA 8 0.0909090909090909 Arg CGT 9 0.102272727272727 Arg CGC 45 0.511363636363636 Ala GCG 52 0.440677966101695 Ala GCA 15 0.127118644067797 Ala GCT 13 0.110169491525424 Ala GCC 38 0.322033898305085 Cys TGT 0 0 Cys TGC 8 1 Asp GAT 8 0.150943396226415 Asp GAC 45 0.849056603773585 Gly GGG 12 0.176470588235294 Gly GGA 2 0.0294117647058824 Gly GGT 5 0.0735294117647059 Gly GGC 49 0.720588235294118 Phe TTT 8 0.32 Phe TTC 17 0.68 Tyr TAT 11 0.392857142857143 Tyr TAC 17 0.607142857142857 Met ATG 26 1 Val GTG 20 0.327868852459016 Val GTA 9 0.147540983606557 Val GTT 10 0.163934426229508 Val GTC 22 0.360655737704918 Thr ACG 32 0.695652173913043 Thr ACA 3 0.0652173913043478 Thr ACT 3 0.0652173913043478 Thr ACC 8 0.173913043478261 Pro CCG 25 0.735294117647059 Pro CCA 2 0.0588235294117647 Pro CCT 3 0.0882352941176471 Pro CCC 4 0.117647058823529 Ile ATA 1 0.0294117647058824 Ile ATT 6 0.176470588235294 Ile ATC 27 0.794117647058823 Left Right Strand Best Blast Hit Score Evalue 107836 107949 1 ref|NP_536389.1|conserved hypothetical protein 57.4bits(137) 7e-07 109303 109455 -1 ref|NP_542261.1|unknown 60.5bits(145) 9e-08 111206 111757 -1 ref|NP_050655.1|Gin 113bits(282) 1e-23 117012 117275 1 ref|NP_958698.1|Bbp29 53.1bits(126) 1e-05 117429 117836 1 ref|NP_042036.1|DNA primase 57.4bits(137) 7e-07 121620 122786 -1 ref|NP_042035.1|integrase 265bits(677) 2e-69 DNA sequence: AAGCGGCTGGCCGTTATCCTGCGGCCGGACGACCGGGAAGAGTGGTTGACGACGTCGAACATCGAGGCCGCGCATGCGATGCTGAAGTTGCATCCGGCCGATGAGATGGAAGCGGAGGCTGTATTGATGAGAAATGACGCTCGGGGAATTGAAAATGACTGAGATGAAGGAAGTCGTTGTGACGTTCAATCCGGATGCAGTCGGACGCCCTGGCTTGCTGGCGGCTCGGGATGCGAGCGAGGTAGTCCGATTCGCCTTTCATGCCATGGAGCAGACTGATCTATCGACGCCGCCGCCGATAGCAGAAGCTACGATAAGTTACGACATGGGGACTGGTGCGATGTCTGCCGAAGAGCGTCGCACGCTCTACGAAAGCTGGATTCTCTCGAAAGCATTTACTGAACTCGCGCGCGGCATCCGGGAGACGCTTGAGGAGGCGTACCTGTTCACTCGTATAGTCGGTTTGGTAAATCAAAGGCATCCCACCGTTGACGAGTTTAATGCTGAGCAAGACCAAGGTCGAAAGTGGGCGAAGCAAGCCTCGTTTCCTAACTTGATGGCCGCGGTGAACGAAGCTTTGACTGGACCACTCATTTTTTCTTCCGAGTTTGAATCGCTTCAGAAGGTCCGTAATTGCTTGGAGCATCGAGGGGGAATGGTCGGCAAGAGGGACGTAGATGATTCAGGCTTGTTGCTGCTAAGCCTTCCCCGGCTGCGGCTCTTCTACATGCGAGGGGAGCAAGAGATCGAGATCGAGCTCGGCGCGCGAGTCGACTCCGGCGATGGGCGTGAGCATGTCGAAGTGCGTTTGGGAAGAGCGACGCGAGTACGAAAGTATGAACTCGGAGAAATGGTCAGGTTTTCGGCTGTCGATTTTCATGAGATCGCACATTCTTGCTATTTGTTCATCGACGATCTCATTCGTAAGCTACCTCGGACAGAATTTCCCGCTAATCAGTGATCCGCTCCTTGATGGCGGCGGCGGGCGCGATACTGCAACTGTATCTAACTGAGGCTATGCTTGGTGAACCCAAACCGACGGGAGACGAAGATGGCACTGACCAATGATCAACTGGCCGAGCTTCTGGTAGGTATCGCGCGGTCACAAAAGGCAATCACCGATGCAGTCAAGCTTCATCTCGGGCAAGCCGACGGCCCGAGATTCCAAGCAGGTGCTTTGATCCCTACTCTCCAAGGCGCGGCTGCCATTGCGAATCGCGGGCAGCCGACCTTTCATGATCTTCCGTCGCGAATATTGCTGCAAATCCAAGGAGATCCTCGCCCTGGGACGCCGCGCATCGAGGAATGGGTGGCGCAGGAGTTGAATCGATTGGCGCCGTAGCTATTCGGAAATCCACATCCCACCATGAAATGACTCGTACTCCTTGATAGCGGCGGCGCGTGCGTGCCAGGGAAAGGTTACGAGATATGGGTCGAGCGCGGTAGTTGATCGGGGATTGAGCGATGCAGAACGACGCGAGTTTTTTTCCCATCGAATCGATACTTCATGCGCCAGTACTTGGAGCCGTTCGGCATGACCTGGAGATAAAGCCCCTTGCCGTCTGCAAGACGGTAAGGCTGCTCGGCAGGCTTCGCGCGACGCACCTTCAAGTCAGTGAGAGGATCGGTTTGCTTCGGCATTTTGCGTTGGGGTATCGACGCCGAGCACTTCGGGGTATATCCCCACTGATACCCCCAAGGTGCTTGGCTTGTACTGGGCAGTCGTGGGCAATGATGGCAGCAAAAAGTCCCGCAGAGCAAGGCTTTGCGGGGCTTTTTAGGAAATCTTGGGAGGCTTTGGGAACCTAGCTGGTCCCCGACAGAATTCATATCTCTAGGCTCTATGTGCCATTCGGGCGACAACGTTCCGTAAATACCAACAAAAATACCAACAGGCGCATCCGGGTACGCTCGATCACTCGAAGGGAGACGCGGTGCGTACCCTTGTCGTGCCGCCGGAAGCAAAAATATCTGGAGATTTGGAGATAAACACCCGTTTCGGCTTGTGAGCCTTGTCTGGCGGGGATGTGGTTATCTCCAAGTCTATCTCCAGAACACATACTTTCTTGGAGATAACGTTGGAGATATGTGGCCGAGCAGCCAATGGTCGCTCTATCGCTCGCCAACTGCCCGCCATCTGGAACACTGCGCGCAAAGGATCTCCCGCCCCCCATTTCCGGCCGCGAGCAGAGTCAGCTCTTTGTGGATTTGCTGGCAGAGTTGGGTCAAGCGCCCGGCAGCATTCCGTCCCGCCTTCGCGGCTTCCGCATCCGGATCTATAATTCACTGTCATATCGCGGCACAGTCTCGAAATGATCGGCTGGCGTGTGTTTGTAAGCCCACTCGACCTCGGCGCACTTCTTTGTCTCGCGTGACCGATGGCAAAAAAGAAAAGGCTCGGACATGGGGAAAAGTCACAAGAAGCAACACTACGTGCCGGCGTCCTACCTCAAGGCGTGGTGCGATCCCGATCGCCCAGCGACACATGAGCCGTACGTGTGGGTGTTCGAGCGTGACGGTACAAGCCGCCATCGGCGTGCGCCGCACAAACTATTCACTGAGACGGATATGTACACCATCGAAACGGCGGATGGTGGACGTGATCTGTGCATCGAAGCAACGCTTTCGATGCTGGAGGACAGATTCACGCGAATGCGCATCAGCAAGTTCAATCACAAACGACCGCTGACACCTGAGGAGCACGTATATTTGTGTACGTTTGTCGCCGCTGCGCAGTTTCGCACCGCCGCCTCGCGCAATCATCATGCTTCGCAGTGGCAGAACGTCTTAAAGATCGCAGACGACCTTGCTGCAAAAGTGAAGAGCGCAACCGCCGAGCAGCGCGAATCGATGGCGCGTATCTCGGAGCTTTCGTCTGGGGAGGGGCAGTCGTTCACACACGAGCAGGTACGCGAGCTCGCCGCCAAGCCCTTGCAAAAAATGATGGCTCCGGTTCTGCGTACCACCGTGCCGATCCTTCTTCGAATGGATTTGGCGATCTACAGTACCAGTGATGAGACGGGGTTTATCACGTCGGACCGGCCATGTACGTGGTTCGATCCTGAGGCATATAAAATGCCACCATTCTTCAGAAGCCCTGCACTTGGCAGCGAGACTATAGAAGTGACGATGCCAATTTCCCCTCAGCAGTGTCTATGCCTAAACTGGCAGGGGTATGCGGGCTATTTAGATGCTTCGAAACTGCTACTCGATGAGTTCAACCGTCGGCATCGATTTCATTGCAAGAATCAATATGTCGTTCGAAATGATCTGAAAAACGACTACTGGTTCTATGAGCAAGAAATCCCTGATGACGCGCGGGAGAAGCGTCACACAGGTGCAAGCGCAAAGTAACTTGAAGTAATCAAACTGCATCGCGCACCCGCATAATCGTTTGACGGCTCGTGCCGTAGCACTTCGCTAGACTCGCCACGCTCGCCCCCTGACTCAACTGCTTGCGAACTTCGTCCTGCTGTTGCTTGGTGAGCGCAGAGGGACGTCCCATCGCTTTCCCTTCCGCCTTTGCTCGGGCGATGCCGGCTTGTGTGCGTTCGATCAGCAGATCGCGCTCAAACTCAGCAACAGCGTTCAATACCTGCATCGTCATCCGGCCGGCCGCACTGGTCAGGTCAACGCCGCCAAGCGCAAGGCAATGAATCCGAATGCCTCTCTCCGCCAATGTCTCCACGGTTGCGCGTACGTCCATAGCATTTCGGCCAAGCCGGTCGAGCTTCGTAACGATCAACACGTCGCCTTCTTCCAGTCTGCGGAGCAAGTCCGCAAACCCTGGCCGCTGGTCCGCGCTTACGCTACCCGAGATGCTTTCCGTTACGACCCGGCGCTTGTCGACATTGAAGCCAGCCGCCTCGATCTCGCGGAGTTGGTTAGCTACCGTCTGGTCGGCCGTGCTGACGCGAGCGTATGCGAAGGTTCGGGACACCATGGGCTCCAATGTGTTCAAAAGGGGTGTACGAATTATAACCCCTGTACGAAAATAGCAAAGCCTTATTTTCGAACATCCATTCGTACCCATGTCCGCAAGGGAACGGTTTCGGACATCATCGCCCTCTAATATTGCTGTCGGAGCAGTCTTGCGTCTTGGGAGACAGCGCCAGCGAAACCCCGCTAAGATACTGACGAGGCGATCTGTCCGTGGGTGGGGGCAGGCGGGCGTGAGAGGGCGATTTCGCCGTCTCCATGTTCCAGTCCGTGCGTAGGTTCCACTGTCGATAGCACCGATGCGCCGACACAACCGGTATGGGCTCGATAAAAGAAAGAGTAAATTGAAATGGGTGACTGGAAAACGGGGTTGCAAGTTGCGCGGCGAAAAATGAATGCTCAACGGTCGACAATAATTAAAATTCCGTCTGTTTTTTCATTCAAAAATCATGATGTCTACGATTTCGATCGGCCGCTGAAGACATTTGACTGGGGTCTGAGGGACCGCCCAGTTACGATTGATCTATCAGAGTGTAAATCTGCAAACTACCAGGCACTGTCGCTTATATCCCTCTATGCTTGGAAGCTGGTTTCACAGAGATGTCGAGTGTCATTCGTTCTCAATCCTGAAAACTCAGACGCAACCAAGATGTGGCGACTTATGGGGGCGACGAGTACCGTACAGACACTCTTGGATGAAAGTCAGAACTTCCCATCAAAGCCGTACAAACCGTTGATCGCGGTGAGAGAGGCTGCTGATTTCAAGTTGACTATAAGTAAAATTGAAGAATTCACGCAAGGATTTAATATTGAGTATGAAAATACCTTGCGATACGTTCTTTCGGAGTTGTTGTACAACACGCTTGAGCATGGGGCGTCGCATTTTCAGTATTACGGCAGGCAAAATCGGATGCCGAGTATTTGTCAGTGCACGTGGTACGAAGGAGTTAACGAAGTGCATTTCATCGTTGCTGATACCGGCATGGGGGTGAAGGCGCATCTCAGGCAAACTTACCCGACAATATCGGATGACTTGGAGGCCCTCCGAGCTTCGTTAAGGCCGAAGGTATCTGGAACGTTCGGACGCTATGATCCGTATCAGGCAAAGAATAACGCTGGAATGGGGCTATTCTTGTCGTCGAATATCGTTCGACGCCTTGGTGCTGAGATGTACTTGGTGTCGGGGAGTGGGGTGATTCATGTTACTGCGCGTGATATTACGACGCGGGAATTGAAATACGGCTGGCCGGGTACTTTCGCATTGGTGACGGTGAAGCTTGATCGTGATGCGGAATTTGAGTTGCATAAAATGATGCAGGAGTTCCGCGAGGCAGCTAATAGCGAGCAGAAAACGGCAGATGCGGTGGAGAGTGATGAGACATATTATTTAAGTATTTTTAATTACTTTGGTCCCAATGCTGAAGTTAAAGAGGAGGCGGTTCGTCATCGTGATAAATATCTGCTTCCTGCAATAGATCAAGGCAAAAAGATTTTGATTGATTTTGATCAAGTTAATAGTGCTCCGCATAGCTTTCTAAGTGCTCTTGTGGCGACTCCGGTAAAGAGGTTGGGTATGTCTGCATACAAGAGGCTTCGCATAATAAACGCGACTCCGGAAATTCGAGAGACGATTGATTTTATTATGGACGAAAATACGGATTGATATCAATTTGTTGGCTGATAATTCGCGTGGGTAGTTTGTGAGAGGCGGCTTGGGATATTGTTTGAGTGCTATTGGTCGGGTGTGTCAGAATTGAATCCGTGAGAAAATGGATTCCGTCGAGCCTAGGGCGGCCACCCGAAAACCGGACACCTTCACCGGCTGGCTCGGCGCTCTTCGTGAAGGGCGCATATGAAGGATGCGCGATGAATCTGAATTTTTGCTGCGGGGTGCCTGATCCGGTGCGACAGGCATGCGTCGGCGTGTGTAGCGCAGATACTCCCTATCGAGAGTTGAGTGTTGAGGCTGCGAAACGGCTCGTCACAGATCCTCGGATGGAGGCGTTTTATGGGTCCGAGTCGCTTGGATGGGCTCGTGGGCCGAATGCCGATATCGCGTGGCGGCTTTGGTTCGATGCGGCGCTGGATGCTGCAAACGTTGATGAAGATGCGTCGCGCGAAGCCATCAAACGACAACGGGCGAATGTGTCGGAGCTTGTGCGAGTGCTCGATGAGGCCCGCGACCTACTCAACGAAATCGAGCGGGAAGAAACGTGCGCACCTATTTCACTACCAATAGAGTTTACCGACGTTCTGCATCTCCTTGATGCAACCGCGCAGCATCCGGGAATTGTGGGCGAGTACGACCGATCGCGATATGAGGTCAATGCGCGTCCACGCCTTGGTGAAATATTTCGCTTTAATGGTAGCTCTGCCTGCTTTATTCCGTCTGTTGCTCAACTTATAACCGGCCTGTCAGCAAGCGCATTTGGTTTGCAGGTGCAACTAGATGATCGCGCGACAATCCCTTGGCGGGGACAGTTTGCCGCTGATCAATTTACATCGCAGAAGAGCAACAAGTATCGAGCGTACGTTCGCAGCGTTGATCGGGCTATGTGGGAGCTGCGATTCGAATACACTGACGAAGATCAAGCGGAATGTTGGCGGCTTCCCGACTCGCTCCTTGCTATCCAGTGCAAAGTAGCTTTGGGTGAGAGCGACTTAGAAGGGTTTGTTGAGCGCATGCGGAAGCATCGATTGAGTTTCGAGAGTGACGAGTTATAGGTCGGAAGATTTTTAAGTCGAAACGGCAAAAAACAATCCGTGTTTTCGCCCGATGTACTCCCTTAAATTGCAGGCTGTCGATGCCAATGGTGGCACAGACATGCTTAAGGGAGCACAAATGCCCGTAAAGAACATCCCCCCGCTGCCTACTCCGGCCGCGCTTCCGCTTGACGGTCTCTCGCGCTGGGAAAGTCTGCGTTCGTCCATCCAGTTGTCCCGTGAAACTGTCCGACAGAGAGAGCGTGAGGGGAAGTTTCCGCGCTCGATCCGCCTGACTCAGCGCTGCACTGTCTGGAGTAATCGCGAGATCCATCGCTATCTCGCTGATCCGTTGAACTATCGGGTTGTCGACGTTGCAAATGAAGTGACGGAGGGCGTGTGATGACGAACCGCCTGAACGTAACGGACGCGCGCGCAATTGCGCGTGACGCCAAGAAGCATGCGGACGCGGCTTTCTATGAAAGTGAGCTGGAGCGTCAGCGTGAGCGCTTGTCCGAAGCGCGCGGGCGCTGCACGGACGAAGTGCGGCGCGAAGCGGCTTGCTGGATCGCGACGGCGGCGACGGTGTTTGAGCGCGATGCCGAGCGTATTCCGTCTCGCGCCAAGCGCGCAGTCGAACTCCTCAAACACGCGGTTTTCATGCTCGATCCGAAGGCCCCGGCATGACGTCCCGTCAAAGTGACTTTGCCTTGGTGAAGGAGCGAGAAGTCTGCCTCGTTGTACCGCTTCCGCTGGCTCATCGCTCCCTCGATTTGCGCTTCGCGGCGGTGCGCAGTATCCTGTGCGAGTCGCTGAGACAACAGCGACCCGGATTGGCGTCCGGCAATCTCCAGAGGCGGATGACCGCCTCAGCGCGGTTTTTTTACGTCCGCACACTAAGCGCCTTCTACGGTCGGGCCTTGGTGGTGGAGCGCTCGCGCTCGCCGGTTTCCTCTGGGTCCGGTACGCCAACGCCGCCATGCGCCCGGCCACCTCAATTGGCGTTGAGGTCCGGGTGGTTCAACCCACCAGAGGAGGTCGCAATCCATGCGCCAGTCCATGCACGCCCGTACCGGGCAGCAATCCCACCTCATTCAATCCATCGTCCGCGCAGCATTGCGCGACGCGGCAACCGCCAGCACGTATCAAGACGCGCTCGACGCAACCGGCGCGGCACTGGCAGCGATCGCCGCGCTCGTCCGTGCGGAGGTGCGTCATGGCTGAGCTGCGCTGCAAGATTGGCGATCTCGCGATCGTCACGAAATGCGATGCTCGCTCGCGTATCGGCATGCTGGTCGAGGTGGCATCGGCTCGCCCGACGCCTGATCACGATTGGCGCGTGCGGATCTTGGGCGGCCCCGTCTCGGGGCGCGGCGTCTACGACCGGCGATTCGGCGAGTTCACGCATGCGGCCGTCCACGACTGGAACCTCACGCCGATTCGCGGCGAAGCGGAGCTGGATTGCACGATCGACGTCGGGCGACTCCTCGCATCGATTCTGGAGGTGCGCCATGTCTAAATACCGCCTGCCGAACGAAGTCACGATGATCGCCATGTGTGCGGCCCATCAGTTCGCCCAGCTCGAAGCCCTGTTCGATGCTGTCCGTTCGCATCTTGCGGAGGGCACCTACGAGCGAGCGCTCGTCGACATGGGGCAAAGCGTCGCGAGCCGGTATTCGGCCGAAATGCGCCGCACTGCGCAACCGGAGGTGTGCCATGACTGATCAGCGCATCCGAACCGCGGTTATCAACGGATTCGACAACGCACCGCCGCTCGATACCGGCGCTCCGATCGAGCTGCAATTCGCCGTCGACCTGGGCGCGATCTGCGCCGACGCGTGGCTCGACCTGAAAGGCGACGTGCGGCTGCACGACTACGCGGCGCATCAAGCCGCCGCGTTCGCGCGCGGCATGGAATCCGCCATGCAGGACGCGGGCGACGTCGACGCGCACCGCGTGACGATCAGCCGGCAAGCGTTCGCGGCCGGTCTGATGGGGCGTGTGCAACAGCACCTGTTCGCCGCGCTCGGCCTCGTTACGCGCGAACCGCGCACGACGCACTGAGGGGACGGTCATGGCAAAGACGAACAAGAATGCCGTGCAACCGCTCGCGTCGCACTTCGTGGCCGAGGTGAACCGTCCTGACCACAACCGCATCGGCACGCGGATCAGTGACGCCATGGAACTGCTCGACAGCCTGCATTGGGCGGCCGACAAGGCCATGTCCGATGACGACTACTGGCTTGTGCTGAGCCTGTTCCGCGCGTCCCTGCCGTCGATCGGTGCGGCGCTGGAGGCCGCCAACGACGCCCTTGGCGAGTCGCGGCTCGGCCGCTACGTCTACAGCAACGACGTCACGGCCGGCGGGGCGGTTCTGTCGGTGCCTCGCGCGGCCGGCTGACGCTGCGCCGCTAGGCATCGTCACATCATTCAATTCTTCGCGCGTCGGGTAGCTGCTTGCCCGATATGGACTACTAATCGGAAGCCGACCGACGCGCGTCCAGTGGGAACCTATGAGTATCGCACCCATGTCCGAATTCGAGCGGGCGAGAGTCGCGCTCGGCTATGTTCCGCCCGACGACCGCGACACGTGGAGTCAGGTGGGGATGGCGCTCAAGGCCGAGTTTGGCGAGGAGGGCTTCGCCCTCTGGAACGAATGGAGCCAAGGCGCGCAGAACTACAACGTCAAGGACGCGCGCGATGTGTGGAAGTCGTTCAAGGGCGGCAAGATCACCATCAACACGCTGTTTCACCTCGCCAAGCTCGGCGGCTTCGATCCGCGCGCGTATCGGGCGAAGCCGGTCGATCCAGCGGAGCGCGAGCGGCAGAAGGCCGAACGCGCGGCCCGCGAAGCGGCCGAGCTGGCGGAGCTGACCGAGAAACAGCAAACCGCATCGGCGCTCGCCGAATCGCTATGGTCGGCGGCCGAGCCTGCACCGGCCGATCACCCGTATCTCGTTCGCAAGCGCATCCCGGTCGACGCGCTGCGCGTCTATCGCGGCGGCTTGTGCATCGGCACGGCCGCATGCGACGGCGCACTCGTCATTCCGGCCCGTGACGCTGACGGCAAGCTGTGGACGCTGGAGTTCGTCCTGACGGACGGCCAGAAACGCTATCTGCCGAACGGCCGCAAGGCGGGCTGCTTCTCGCTGATCGGTGGCCCGTTATCTTCCGCGCCGTCCACGCTGCTGATTGGCGAGGGTTACGCCACGTGCGCGACGCTCGCGGCCGCGACCGGCTATCCGGCCGCCGTCGCGTTCGACGCCGGCAACCTGCACGCCGTGGCGACGGCGCTGCGCGGCCAGTACCCGGACGCCCGCATCGTCGTGTGCGCCGACGACGACCACACGACGAAGGGCAATCCGGGCGTGACGAAGGCTCGCGCGGCGGCCGAGGCCGTCGCCGGCATCGTCGCGGTGCCTGACTTCGGTCCGAACCGCCCGGCCGCCGGCACCGACTTCAACGACCTGGCTGCGCACGTCGGGCCGGATGCGGTGGCCGCCGCCGTGCGCGCTGCGCTCGCCCCGGCCGGCTCGGCGGACGCCGGCAAGGCCAAGGCTACTCCAGTCGCCGCGAAACCCGCCAAGCGCCCGAAAACGGCCCGCGCGCAGGACGGCAAGTCGCGGTTCGTCGTCGACGACAAGGGCGTGTGGTTTCACGGCTTCAACAATCAGGGCGACCCTCTCCCGCCGCATTGGGTCAGCACGCGGATCGACGTGATCGCGGAGACGCGCAACGAGATGAACAGCGAGTGGGGATACCTGCTCGAATTCACGGATCGCGACGGCATCCTGAAACGGTGGGCGGTGCCGGCCGGCCTCTTTGCCGGCGACGGCACGGAGCTGCGCCGCATGCTGCTCGATATGGGCGTGAAGCTTGGCGTGACGCAGATCGCCCGCACGCAGATCGCGAACTATGTCCAGATGGCGCAGCCGGACGAGCGCGTGCGCTGCGTGCCGCGCGTCGGCTGGCATCACGGCGCGTTCGTGCTGCCCGATCGCGTCATCGGCACCGGCAAAGAGGCGCTGATCTATCAGGCCGATACGCCGATTCAGAGCCAGTTCAAAGAGCGCGGCACGCTGGACGACTGGCAACGCGAGGTTGCAGCCTACTGCGTCGGCAATAGCCGGCTGCTGTTCTGCGTCGCAACCGCCTTCGCTGGTCCGCTGCTGCACTTCTCCGGGCTTCAGTCGGGCGGTTTTCACCTGCTAGGCACAACGTCCAAGGGCAAGTCGACGGGCGGCGTCATCGCAGCGTCCGTGTTCGGCTCGCCGGACTATGTGCGGAGCTGGAAGGCGACCGACAACGCGCTCGAAGCGGTCGCCACGCAGCACAGCGACGCGCTGCTGATCCTCGACGAAATCGGGCAGGTCGAGCCGCGCTTGGTTGGCGATGTGATCTACATGCTCGCGAACGAGTCGGGCAAGGCTCGCGCATCGCGTAGCGGCTCGGCAAAGCCGGTTCTCACGTGGCGGCTGCTGTTCCTGTCGAATGGCGAAAAGAGCGTGTCCGCGCTGATGGCCGAGGGCAACAAGCCCATGAAAGGCGGTATCGAAGTGCGCTTGCCCGCGATCCCGGCCGAGGTCGGCGAAATGGGCGTCGTGGAGAAGCTGCACGGCTTCCCGACGCCGGCCGCGCTGATCGAGCATCTAGAGCGGCACGCGGGCATGCACTACGGCACGGCCGGCCCCGCGTTCATCGAGTGGGCGTCGTCGCAGGCCGGCGAGCTGGCCGAGCATCTGCGTGTTCGCGTTGACGAGCTGGTCGGGCAATGGGTACCGGACGGTTCGCATTCGCAGGTCGCGCGTGTCGCCAAGCGGTTCTGCCTTGTCGCGGTGGCCGGCGAGCTGGCGACGGCGCACGGCCTGACCGGTTGGCCGCAAGGCGAAGCGGTCGAGGCCGCGCGTCGCTGCTTCGAAGGCTGGCTCGAACTGCGCGGCGGCACCGGCAACTCGGACGAGGCCGAAGCCGTGCGGCAGGTACAGCATTTCCTCGCCGCACACGGCGACAACCGATTCGTTTGGATGAACCGGGCGCAGGACGACCACCGGCCGAATGTGCCGCATCGAGCGGGCTTCAAGCAGCATGTGAAGCGCGACGAGCGGCGCACGCCCATCGCGTCCGATCGGGAGTATTACGCCGAGTTCGGCGGCAAGATGAGCGCCGACGATGCCGAAAGCGTCGAGACGGAATACCTGATCGAAGCGGCCGTGTTTCGCAAGGACGTGTGCGCCGGCTTCGATCACAAGATCGTCGCCAAGGCACTGATGAAGCGCGGCGTGCTGATGCCGCGCAGCGACGGCTATCCGTACCGGCAGGAGTACATCCCCGGTCACGGCAAGTTCATGGTCTATCGCGTGCTGCCGTCGATCTTCACGCTTGAGCTGTGAACAGCACCGCCGCCGTCCGGGAGGGCGGTGGCGGGCATTCCTTTGCGCGGCATATTTCTCCCGCGCGTCAAAGTTACTTTGAGCGATACGTGCCAGACGGAACCGGGCGGGCAGCTGCCGCGAATCTTGCCGCCACCGTAACAATCCGGGCTGGTTTATCTCCAGTATCTCCAGCGTTCTCCAAATCGTTTGGAGACACACGAAGCCTTACCCCGCAAGGCTTTGCGGCCGATTCAGGCGTTTATCTCCAAATCTCCAACTCGTTTTGCACTGAGCGGGCAGGCGTCGACCGACCGTAGCGACCGCGAAGCTATGCGGGGCACGGCTCTCCGGGATTCGATGGGCGTCGGAGGCGTGTTTTCGAGGGGGGTGTCCGCGATGCGCCCCGATCGGGCATTGTTGCGCCGACCGCAAGTGTCGGGGCGACCGGAAAGCGGGGGACCCTGCGTCTAGGGCAAAGACGCGGGGGCTCACACCCGCGTCTTTTCTCTACTGACGGCAGAAACAAGGGGGGCACATAATAATATGGGGCCAAATCACAAGCTTGCCCTATGCCTAGGCCGTTTCCGTTTTGCTGGTGGGGAACGCACGGAAGGGGGGCATACAGGGAAGGGCGAGATGGAACGCCGGCCGTCAACTGATCCGGGCCGATCGAGATTCGATGCTTCTACATCAATCAACGATTGCTGCATGTACGAAAATTCATACCATATTCTCCTAGATACACCACGAACAATCTCACAACCGCGCTTTTCCGCCGCGACCTTGAATTGCGCGATTGATCCACATCTCACGACGACTATGAATCTTTGGGCAGTCAATCCAGTCTGGCAAAACTTCTCTTCGCTGTATCGGGAAGCGGTTACTGCGCGCGAGGCAAAGACGGGCATGGAGCGCTCGCATCATCTGACTGCGTCGCTCTATTTCGGTATCGCTGCGCTTGAAGCATTCTTGAACGAGAAGATGCGGGCACACATGAACGCAACGCATTCAGAAGAGGAGATTTTCAACAAATTGAGGAAGGGGCAGATCCTCGCAAAGATCAAGAAGTGGCCCACGGAATTACTCGGCAAGTCGCTCCTTCTCGGGCCCGCTACACTCGACCTGATCACTAACATTAACGACATCAGAGGCGATCTGACGCATCCCAAAACATCCGGGCGCGACATCTATGCAAAGCTTGAAACGATCAATCCGGATGCGGTGGTCGCAGCAGTTTCGGAATATGTCGTGAAATACCATGAAGCAGCGGGAACGAGATACCCGTATTGGATTTTCGGTTGGAACTACCTCAACCCTAGCCCGAACGTCCACGAGATCTACATCATCAACGATCAGCAGTTCTGCTTCTCGTTACAAGCCATTGGCTTCCCGGTACCAGCTGCGGCCCATTGGGAGGCAGAAGCTTGGCGCGATCAATATCTGAAGACGTTCGAGGGCTACGAGGCGATTCGTGACGCACTTGCAAAGCTGGAGTGTTGTGAACCAAAATTCGATCGATTTCCCTTCAAGCCAATTCTCTGCCGCCGGTGGTGGACATCTGAACACCACCGGACCTGTGGACATGTAACAGGCGAGGCTCTCGACTTTGCTCGCAACTATGGGCTCTAACTGATCCATCGTTTGGGCAACCACAGCACGTATTCGCTCCGATCGTTGTTGGTGCAGGGAGGTGGGCGAAGTCGCAAGGGCGACGGCGATTCATTAACGGGCTGACGCAATGCGGATGACCTCGGCTCCCGCTTTGAGCTGGTCGAGATGATCACCCCACGCCTGCATCATTCGTCTGCGCTCGGGCAGATATTCAGCGTGGACGTAGGCAGCCGTCACCTGATTGCGCTCGGCGTGCGCCATCTGGCGCTCTACAACGTCCCGGCCAAAGCCGAGTTCACGTAGAGCCGTGGCGGCGAGTCCGCGAAAGCCATGCCCCGTCATCCGCGACTTGTAGCCCATGCGATAGAGCGCGTAGAGCATGGTGTTGTTCGAGATGTGACTCCGGCCTTGCACGCTGTAGAACACGAATCGATGCTGGCCGTTGAGCGCGCGGAGCTGGGCGAGCACGTCGAGTGCCTGCCGTGAGAGCGGCACGATGTGCGGGTCGCGCATCTTCATGCGTTCCGGCGGTACGCGCCATTCTGCGGCGGCCTCGTCAAACTCCGACCACTCCGCACGGATCATTTCCGTTGTCCGCACAAACGTTAGTGCCATCAGGCGGAGCGCGAGCCGGGTGACTAGGTCGCCTTGGTAAGCGTCGATGTCTCGCATGAGCTGCGGAATCTCCGTCGCCTTCACGCGGGCCATGTGCTGTACGCCGGGCCCCTTCTTCAAGACCGTCTGCGCGTCGATGTCGGCTGCCGGATTCCTGGAGCATCGCCCGGTCATGATCCCGTACTGGAAGACCGCGCGCGAGCGTTGGAGGATTCGCTTCGCCGTCTCACGCACCCCGCGCGCCTCGACCTCGCGAACGATGCTGAGCATCTGCGGCGAGTCGATCTCCGCGATCGGGCGAGCACCGATCTTCGGGAACACGTCGACCTCAAGCGAATTCAGCACCTTCTCCGCGTAGCCGTCGCTCCAGCCCGGGCGCTGGGAGTCGAACCACTCGCGGGCTACCGCTTCGAATGAGTTTGCCGCCGCGATCTCGGCGGCCCGTCTTGCGTCCTTCTTCGCCTCGCCCGGATCGATGCCGGCTGCGATCTGCTCGCGGGCCTCGTCGCGCTTCTTCCGTGCCGTCGCAAGCGTGACGGCCGGATAGACGCCGAGGGCGAGCGTCTTCTGCTTGCCACGGAAGCGGTAGGACAAGCGCCAGTACTTCGCGCCGTTCGGTTGGACGAGCAAGAACATCCCGTTGCCGTCCGTCAGTTTGTATGGTGCCGCGCTGGCCTTAGCGTTCCGCACCTGTATGTCAGTGAGAGGCAT Predicted Gene Sequences: >PredictedProphage1 -Hit 1 AAGCGGCTGGCCGTTATCCTGCGGCCGGACGACCGGGAAGAGTGGTTGACGACGTCGAACATCGAGGCCGCGCATGCGATGCTGAAGTTGCATCCGGCCGATGAGATGGAAGCG >PredictedProphage1 -Hit 2 CTCACTGACTTGAAGGTGCGTCGCGCGAAGCCTGCCGAGCAGCCTTACCGTCTTGCAGACGGCAAGGGGCTTTATCTCCAGGTCATGCCGAACGGCTCCAAGTACTGGCGCATGAAGTATCGATTCGATGGGAAAAAAACTCGCGTCGTTCTG >PredictedProphage1 -Hit 3 TACGCTCGCGTCAGCACGGCCGACCAGACGGTAGCTAACCAACTCCGCGAGATCGAGGCGGCTGGCTTCAATGTCGACAAGCGCCGGGTCGTAACGGAAAGCATCTCGGGTAGCGTAAGCGCGGACCAGCGGCCAGGGTTTGCGGACTTGCTCCGCAGACTGGAAGAAGGCGACGTGTTGATCGTTACGAAGCTCGACCGGCTTGGCCGAAATGCTATGGACGTACGCGCAACCGTGGAGACATTGGCGGAGAGAGGCATTCGGATTCATTGCCTTGCGCTTGGCGGCGTTGACCTGACCAGTGCGGCCGGCCGGATGACGATGCAGGTATTGAACGCTGTTGCTGAGTTTGAGCGCGATCTGCTGATCGAACGCACACAAGCCGGCATCGCCCGAGCAAAGGCGGAAGGGAAAGCGATGGGACGTCCCTCTGCGCTCACCAAGCAACAGCAGGACGAAGTTCGCAAGCAGTTGAGTCAGGGGGCGAGCGTGGCGAGTCTAGCGAAGTGCTACGGCACGAGCCGTCAAACGATTATGCGGGTGCGCGATGCA >PredictedProphage1 -Hit 4 GAATTCGAGCGGGCGAGAGTCGCGCTCGGCTATGTTCCGCCCGACGACCGCGACACGTGGAGTCAGGTGGGGATGGCGCTCAAGGCCGAGTTTGGCGAGGAGGGCTTCGCCCTCTGGAACGAATGGAGCCAAGGCGCGCAGAACTACAACGTCAAGGACGCGCGCGATGTGTGGAAGTCGTTCAAGGGCGGCAAGATCACCATCAACACGCTGTTTCACCTCGCCAAGCTCGGCGGCTTCGATCCGCGCGCGTATCGGGCGAAG >PredictedProphage1 -Hit 5 TATCTCGTTCGCAAGCGCATCCCGGTCGACGCGCTGCGCGTCTATCGCGGCGGCTTGTGCATCGGCACGGCCGCATGCGACGGCGCACTCGTCATTCCGGCCCGTGACGCTGACGGCAAGCTGTGGACGCTGGAGTTCGTCCTGACGGACGGCCAGAAACGCTATCTGCCGAACGGCCGCAAGGCGGGCTGCTTCTCGCTGATCGGTGGCCCGTTATCTTCCGCGCCGTCCACGCTGCTGATTGGCGAGGGTTACGCCACGTGCGCGACGCTCGCGGCCGCGACCGGCTATCCGGCCGCCGTCGCGTTCGACGCCGGCAACCTGCACGCCGTGGCGACGGCGCTGCGCGGCCAGTACCCGGACGCCCGCATCGTCGTGTGCGCCGACGACGACCACACGACGAAGGGC >PredictedProphage1 -Hit 6 ATGCCTCTCACTGACATACAGGTGCGGAACGCTAAGGCCAGCGCGGCACCATACAAACTGACGGACGGCAACGGGATGTTCTTGCTCGTCCAACCGAACGGCGCGAAGTACTGGCGCTTGTCCTACCGCTTCCGTGGCAAGCAGAAGACGCTCGCCCTCGGCGTCTATCCGGCCGTCACGCTTGCGACGGCACGGAAGAAGCGCGACGAGGCCCGCGAGCAGATCGCAGCCGGCATCGATCCGGGCGAGGCGAAGAAGGACGCAAGACGGGCCGCCGAGATCGCGGCGGCAAACTCATTCGAAGCGGTAGCCCGCGAGTGGTTCGACTCCCAGCGCCCGGGCTGGAGCGACGGCTACGCGGAGAAGGTGCTGAATTCGCTTGAGGTCGACGTGTTCCCGAAGATCGGTGCTCGCCCGATCGCGGAGATCGACTCGCCGCAGATGCTCAGCATCGTTCGCGAGGTCGAGGCGCGCGGGGTGCGTGAGACGGCGAAGCGAATCCTCCAACGCTCGCGCGCGGTCTTCCAGTACGGGATCATGACCGGGCGATGCTCCAGGAATCCGGCAGCCGACATCGACGCGCAGACGGTCTTGAAGAAGGGGCCCGGCGTACAGCACATGGCCCGCGTGAAGGCGACGGAGATTCCGCAGCTCATGCGAGACATCGACGCTTACCAAGGCGACCTAGTCACCCGGCTCGCGCTCCGCCTGATGGCACTAACGTTTGTGCGGACAACGGAAATGATCCGTGCGGAGTGGTCGGAGTTTGACGAGGCCGCCGCAGAATGGCGCGTACCGCCGGAACGCATGAAGATGCGCGACCCGCACATCGTGCCGCTCTCACGGCAGGCACTCGACGTGCTCGCCCAGCTCCGCGCGCTCAACGGCCAGCATCGATTCGTGTTCTACAGCGTGCAAGGCCGGAGTCACATCTCGAACAACACCATGCTCTACGCGCTCTATCGCATGGGCTACAAGTCGCGGATGACGGGGCATGGCTTTCGCGGACTCGCCGCCACGGCTCTACGTGAACTCGGCTTTGGCCGGGACGTTGTAGAGCGCCAGATGGCGCACGCCGAGCGCAATCAGGTGACGGCTGCCTACGTCCACGCTGAATATCTGCCCGAGCGCAGACGAATGATGCAGGCGTGGGGTGATCATCTCGAC Predicted Protein Sequences: >PredictedProphage1 -Hit 1 KRLAVILRPDDREEWLTTSNIEAAHAMLKLHPADEMEA >PredictedProphage1 -Hit 2 LTDLKVRRAKPAEQPYRLADGKGLYLQVMPNGSKYWRMKYRFDGKKTRVVL >PredictedProphage1 -Hit 3 YARVSTADQTVANQLREIEAAGFNVDKRRVVTESISGSVSADQRPGFADLLRRLEEGDVLIVTKLDRLGRNAMDVRATVETLAERGIRIHCLALGGVDLTSAAGRMTMQVLNAVAEFERDLLIERTQAGIARAKAEGKAMGRPSALTKQQQDEVRKQLSQGASVASLAKCYGTSRQTIMRVRDA >PredictedProphage1 -Hit 4 EFERARVALGYVPPDDRDTWSQVGMALKAEFGEEGFALWNEWSQGAQNYNVKDARDVWKSFKGGKITINTLFHLAKLGGFDPRAYRAK >PredictedProphage1 -Hit 5 YLVRKRIPVDALRVYRGGLCIGTAACDGALVIPARDADGKLWTLEFVLTDGQKRYLPNGRKAGCFSLIGGPLSSAPSTLLIGEGYATCATLAAATGYPAAVAFDAGNLHAVATALRGQYPDARIVVCADDDHTTKG >PredictedProphage1 -Hit 6 MPLTDIQVRNAKASAAPYKLTDGNGMFLLVQPNGAKYWRLSYRFRGKQKTLALGVYPAVTLATARKKRDEAREQIAAGIDPGEAKKDARRAAEIAAANSFEAVAREWFDSQRPGWSDGYAEKVLNSLEVDVFPKIGARPIAEIDSPQMLSIVREVEARGVRETAKRILQRSRAVFQYGIMTGRCSRNPAADIDAQTVLKKGPGVQHMARVKATEIPQLMRDIDAYQGDLVTRLALRLMALTFVRTTEMIRAEWSEFDEAAAEWRVPPERMKMRDPHIVPLSRQALDVLAQLRALNGQHRFVFYSVQGRSHISNNTMLYALYRMGYKSRMTGHGFRGLAATALRELGFGRDVVERQMAHAERNQVTAAYVHAEYLPERRRMMQAWGDHLD Prophage Finder Output Genome file: temp/burkholderiahilc.txt Sequence Header: >Contig387 Genome size: 388084 Host's GC content: 65.99 Predicted Codon Position GC: 1st: 67.48 2nd: 44.52 3rd: 79.35