Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig284

Genome size:  646956
Host's GC content:  65.54
Predicted Codon Position GC:  	1st:  67.21	 2nd:  44.40	 3rd:  78.60

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig283

Genome size:  338615
Host's GC content:  66.45
Predicted Codon Position GC:  	1st:  67.76	 2nd:  44.64	 3rd:  80.13

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig282

Genome size:  314127
Host's GC content:  67.27
Predicted Codon Position GC:  	1st:  68.27	 2nd:  44.86	 3rd:  81.53

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig281

Genome size:  289093
Host's GC content:  67.67
Predicted Codon Position GC:  	1st:  68.52	 2nd:  44.97	 3rd:  82.20

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig278

Genome size:  271873
Host's GC content:  67.25
Predicted Codon Position GC:  	1st:  68.26	 2nd:  44.86	 3rd:  81.48

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig280

Genome size:  265783
Host's GC content:  67.46
Predicted Codon Position GC:  	1st:  68.39	 2nd:  44.91	 3rd:  81.84

 >PredictedProphage1 
 Length:   18554 
 Number of hits =   6 
 GC	Coding	First	Second	Third
 68.05 	 67.67 	 68.50 	 50.60 	 83.90 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	6	0.0645161290322581
 Leu	TTA	0	0
 Leu	CTG	52	0.559139784946237
 Leu	CTA	0	0
 Leu	CTT	5	0.0537634408602151
 Leu	CTC	30	0.32258064516129
 Lys	AAG	9	0.642857142857143
 Lys	AAA	5	0.357142857142857
 Glu	GAG	19	0.404255319148936
 Glu	GAA	28	0.595744680851064
 Gln	CAG	33	0.891891891891892
 Gln	CAA	4	0.108108108108108
 End	TGA	2	1
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	19	0.542857142857143
 His	CAC	16	0.457142857142857
 Asn	AAT	7	0.318181818181818
 Asn	AAC	15	0.681818181818182
 Ser	AGT	2	0.024390243902439
 Ser	AGC	35	0.426829268292683
 Ser	TCG	33	0.402439024390244
 Ser	TCA	0	0
 Ser	TCT	0	0
 Ser	TCC	12	0.146341463414634
 Trp	TGG	7	1
 Ala	GCG	71	0.514492753623188
 Ala	GCA	14	0.101449275362319
 Ala	GCT	2	0.0144927536231884
 Ala	GCC	51	0.369565217391304
 Arg	AGG	2	0.02
 Arg	AGA	1	0.01
 Arg	CGG	23	0.23
 Arg	CGA	4	0.04
 Arg	CGT	15	0.15
 Arg	CGC	55	0.55
 Cys	TGT	1	0.0769230769230769
 Cys	TGC	12	0.923076923076923
 Gly	GGG	10	0.149253731343284
 Gly	GGA	6	0.0895522388059701
 Gly	GGT	2	0.0298507462686567
 Gly	GGC	49	0.73134328358209
 Asp	GAT	14	0.264150943396226
 Asp	GAC	39	0.735849056603774
 Phe	TTT	6	0.166666666666667
 Phe	TTC	30	0.833333333333333
 Met	ATG	17	1
 Tyr	TAT	7	0.388888888888889
 Tyr	TAC	11	0.611111111111111
 Val	GTG	30	0.379746835443038
 Val	GTA	2	0.0253164556962025
 Val	GTT	5	0.0632911392405063
 Val	GTC	42	0.531645569620253
 Thr	ACG	28	0.538461538461538
 Thr	ACA	1	0.0192307692307692
 Thr	ACT	0	0
 Thr	ACC	23	0.442307692307692
 Pro	CCG	36	0.8
 Pro	CCA	0	0
 Pro	CCT	1	0.0222222222222222
 Pro	CCC	8	0.177777777777778
 Ile	ATA	1	0.0232558139534884
 Ile	ATT	7	0.162790697674419
 Ile	ATC	35	0.813953488372093
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 67764	68504	1	ref|NP_046877.1|putative non-heme haloperoxidase	68.2bits(165)	4e-10
 73034	73465	1	ref|NP_945089.1|gp58 	68.6bits(166)	3e-10
 74465	74869	-1	ref|NP_945089.1|gp58 	47.8bits(112)	5e-04
 78054	78563	1	ref|NP_064745.1|gp7 	41.2bits(95)	0.046
 81235	81786	-1	ref|NP_945089.1|gp58 	48.1bits(113)	4e-04
 85958	86317	1	ref|NP_945089.1|gp58 	55.1bits(131)	3e-06
 
 DNA sequence:
 ATCTTTTTTCATCATGGCTGGCCGCTCAGCGCCGACGACTGGGATGCGCAGATGCTGTTCTTCCTCGCCCAGGGCTACCGCGTGATCGCGCATGACCGTCGCGGCCACGGACGCTCCAGCCAGGTGTGGGACGGCCACGACATGGATCACTATGCGGACGACGTCGCCGCGGTCGTGAATCATCTCGGCGTGCAGGGTGCCGTTCACGTCGGCCATTCCACCGGCGGCGGCGAAGTCATCCACTATGTCGCGCGTCACGGCGAGGATCGCGTCGCCAAGGCCGTGCTGATCAGCGCCGTCCCGCCGCTGATGGTCAAGACCGACAGCAATCCCGGCGGCCTGCCGAAGGACGTGTTCGACAATCTCCAGGCACAGCTCGCGGCGAACCGCGCGCAGTTCTACTACGACGTGCCGGCCGGCCCGTTCTACGGCTACAACCGCACCGGCTCGACACCGTCGCAGGGCGTCATCTGGAACTGGTGGCGACAAGGCATGATGGGCAGCGCGAAAGCTCACTACGACGGGATCGTCGCGTTCTCGCAGACCGACTTCACCGAAGACCTGAAAAGCACCACGATTCCCGTTCTCGTGATGCACGGCGACGACGACCAGATCGTTCCGTATGCGGATTCCGGCCTCCTGTCGGCGAAACTGGCGAGGAACAGCACGCTGAAGGTCTACGCGGGCTTCCCGCACGGCATGCCGACGTCCAACGCCGACACGATCAACGCCGATCTGCTCGCGTTCATCCGCAGCTGAACGCGGCGGATGCCGGCGCGGCCTTCAGTCTGGGCGCAGGCGGGAGGCCGCGTGAAAACGGCGGGCAAACGGGCCGCAGGCGCTCAAGGATCGATTCATCGACGAGTTGTCTCAGTTGAAAGCGCTTTATCGGCCAGCCGGCGATTGACGCATCACGATCCGCCCATCGCCGACAGCATTCGCCTATAGTGCCGATTGCCCATTCAACGAGGAGAACAGTCATGACACTGCAGGCCCGCGGTCCGTTCGAAGTGAAGCTGAATCCGGAACCCTTGAGCAACGTCGCGGAAGGCAGCGGGCTCGGCCGCATGTCGCTGGACAAGCATTTCCACGGCGATCTGGAAGCCGTGAGCCACGGTGAAATGCTCGCGTTTCGCAGCAGCGTTCAGGGCTCGGCCGGCTACGTGGCGATGGAAACCGTCAAAGGCGTGCTCGGCGGACGCAAGGGCAGCTTCGTGCTGCAGCACAGCTCCACCATGACGCGCGGGCAGCCGACGCAGTCGATCACGGTCGTGCCCGATTCCGGCACAGACGAATTGCTCGGGCTGTCCGGCGCGATGCGCATCGACATCGACGACGGCCAGCATGCGTACCGCTTCGACTACGCATTGCCTGACGCGCCGCAATAAGCCCGCCCGTCACGCGAGCGCCGCTTCGCGCAGACGGAACTGCGCGACCGCCGCGCTCAGCCGCGCGCCCTGTTCGTCGAGCGACAGCGCCGCGGCCGCCGCCTCCTCGACCAGCGCGGCATTGCGCTGCATCGTCTGCTCCATCTGGATCACCGCGGCGTTCACCTGCTCGATGCCCGACGACTGCTCGTCGAACGCCTGGCTCGTTTCGCCCATGATCGCGTTGACGCGCTCGACCGCCGCGACGAGCTCGGTCATCGCCGAGCCGGCCAGCGCGACGAGGCCGCTGCCGTCTTCGACGCGTCGCGCGGAATGACCGATCAGGTCGCGAATTTCCTTCGCCGCCGCCGCACAGCGCTGCGCGAGCCCGCGCACCTCGGTGGCGACGACCGCGAACCCGCGCCCCTGCTCGCCCGCGCGCGCGGCTTCGACGGCGGCGTTCAACGCGAGGATGTTGGTCTGGAACGCGATGCTCTCGATCACGCCGACGATGCCGGAAATGCGCGTGGAGCTCGTCGAAATTTCCGACATGGTCGCGACGACGCGCTGCATCGCTTCGCCGCCGCGCGACGCGATGCCGGCCGCGCCCTCGACGTACGTGCGCGCGTCGCGCGCGTTGTCCGCGTTCTGGCGCACGGCCGCCGTCAGTTGCTCGACGCTCGCGGCCGCCTGCTGCAGCGACACGGCCTGCTGCTCGGTGCGTGCGGACAGGTCGACGTTGCCGCTCGCGATCGTGCGCACGTCGCCGACGATCGTCTCGGTGCTCGCACGCACCTGGCTCACGGTATCGACGAGGCCGTCCTGCATCCGCTTCAGCGCATTCAGCAGATACGCCATCTCGTTCTCGCCCGGGACGACGACGGTGCCGGTCAGGTCGCCTTTCGCGATTTTCTCGAACTGATCGACCGCGAGATTGATCGGCCCGATGATCGCCTTCGCGAGCACGCGCTGCGCAACGAAGCCGACGACGAGCGCCAGCACCGCAACCGCCCCCATCCCCCACACGATCCGGTGGAAATTGATGCCGGCCGCCTCGTAGCGGGCCTTCTGGCGCGCGACCTGGAACGATTCGAGCGCGTCGATCGCCTCCTGGTAGGCGGCGAACAGCGCCGGCGGCGCGGTGCGCTGCGTGTCGAGGAAGTTGAATGCGTCGTCGCCGTCGAGTTGCGACAGCGCCTTCAGGAACACACGGTCGAGCAGCGCGCGCCGACGGCTTTGCAGCGTGTCGAACAGCGCCTGCTCGCTGGCGTCGCGCGCATGCAGATGCGTGTACGCGTCCAGTTCGTCGTTGCTCTGCTTGAGCAATGTGTGAAGTTGCGCGACTTCCTCCTTCGCGGGCTGGCCGGCGCTGATGATCTGCGCGACGTCGCTCATGCGTTCGCGCAGCACGAGCATCCGCTCGGAGCTGGTCTTCAGGTGCAGCAGCGACGCGGTGTCGTCACGGTACATCGCCTCGAGCGAGCCGTTGCCGATGGTGAGGGCCGCGATGCCCGCACCGACCACCAGCACGAGCAGCATGGTATAGCCGGCGATGGTCGCGACGAGGCCACCACGGATAGTGAGTTGTTTTCGCATGACGTTCCCTTGAGCCGGCCGGGCACGGCCAGCGGCGGAGGTGAATTCCGGAACACGAACGGCGCGCGCCATGACGCACTACGCGGCGCGGGGGCTGCGAACGAGTTAACGGCGCGGGGAACGGGCGGCTTTTATCCGCACGCGACACGAATCTTGACGATTGCGACAGAGGGGGGAAGGCGCAGCGCGGCTACCGGCAATCGCCGAGCGTCGAACGAATTTCGTCGGCCGACGCGCCGCGCTGGTGCGTGGCGATCTGCCAAACGTTTCCGCACGCGTCCTTCACCCTCAGCCGCCGGTCGCCGGACGGCATGTCGGCGGGCGCTTCCAGCGGAATCGCCTGCAATGCGAGCGTCCGTCGACAGATCGAATCGGAGTCGTCGACATACACGTACGGAAACACCTGTATCGCGTCAGGCACCGGTCTCGTAAAACAGCCCGTATTCACCGCTCGCCCGCCTGATTCGCGCGAACCCGGGTTCGCCCAGATGCATGCCGGCGATCAACAGCCCTTCCGAGCTGACCCGGTCCAGCAGCCGCGAACGCGTGGTCGCTGCCTGCGACGCATCCTGGTCGAACGCAATCGACACGTCCGGCCGCCTGATCTGGATGTGCGGAAAATGCACGATGTCGCCCCACACGAGCAGGCCCTGATCGCCGGATGCGAGCAGGTATCCGGTATGTCCGTCGGTATGCCCCGGTAGCGGAATGGCGGCGATTCCGGGAAGCACCTCGCCTTCCTCGAAGGTCCGGAGCACGTCGCGGTAAGCGTCGAATACCTGACGCGCGATCCGGAAATTGCCGCGGGCGCGCTCGCTGGCGCGGCTCAGGTTGCCGTCGTCCCGCCAGAATGCGACCTCGCGTCGATGCGCGACCAGCTCCGCATTCGGAAACGCGACGTGTCCATCGGCATGCACCAGCCCGCCGACGTGGTCGGGATGGGCGTGGGTGAGCAGGACGGTGTCGATCGCGGCAGGCTCGATGCCGGCGAGCCGCAAATTGTCCATCAGGCGGCCGCCCCATTGTTTGATGCCGCCAGCCCCGGCGTCGATGAGCACCGTGCGGCCCGCGCCGCGCACCACGTAGCAGTTGATGTGCACGGCGGACGGCGCCTGCTGCCCGGCCGCACGCTGCATCCCGGCGGCGTCGGTCGCGTCGATATTCGACAGGAAATCGAGGCTGGCCGTGAGGTAGCCGTCGCTGATCGCGGTGATCGTGAAATCCCCGACACGCTGGCCGGGCAACGTAACGTTGGACATCGTGCTTCTCCGTAGCGGCTAGTTTCGGGCGTGAAGGTTCGGCGCGGCGTGACCGAAGCAACGGATGCGTGCGGTCAGTCCGGTGCGGCGGACGACGGCGTGATCGAGCGCCTCCATGAATGCGTTCATGACCGCGGGCGGGCGAGACGGCGCGTCGCGATACTGGATTTCCGCGAAAACGGGATGCCCGCAGCCATGCCGAACCGCGACGTAAATGACGTGGACGTTCGTGATTTCTGCCTGAAGGACCCGCGTACAAAGGTCGATGCAGTCGTCGGACAGCTCGGCGAGGCACGCGTCCGGCGGCATGCGTTCCGTATCGATATGGAAAGTCACGTTAGGCATCGCGGGCCGCCTTCGTCAGTTGTTTGGTCATCGGCGTGTAAAGGTAAAGGCCGGCCGGCGCGTTGTCGCCAAGCGGAGCGGCGCGCCGCGGCAGGACCGCGAGCCAGCGGCGCGCCGGAAACTGTTCCAGTGCGACGGCCTGCATGGCCAGCGGCTTCAGGCCCAGTTCGATCAGCGAGTCGGGCCCGCCGGCGCTCAGCACGAGTAGCTCGTCGGCATTGACCGCCGGCGCACGACCGATGTCGCTGTAGAGATTGCGGTGCCAGTCGGTGATGTGCTGCTGCCATCGCGCGAAATTGCCGCCGCCTTTTTGCCGATATTCATCGCCGGTCAGCACGTCGAGGCCGTCGATCGTGTGAACGGCCAGATAAACGGGGCAGCCGTCGCTGATCGCCTTGAAACGCTGCGACGTGTGAAAGCCAGCCACCGAGATGAGGGCCGGCAGCTTGTCGAGGCTGTAGAAGTCGTTCCATTCGGCTTCGCTGGCAGGGTCGGCGAAGCTGCATTCCACGGTGTAGATCATCGGATTTTCCTTCGTCACGGATGCGCATCCTGCGCTTCGGATGCGGGATATTCAGTGCAGTGACGTAATGCTAATCTGCTGGTTTCCGCGTAGATATCGACTTAAAGTCAGCCTTCAGTGATATTTGATCAAGCTGATGGCCGAACGCGATACGACTCACGAGACCCCATGCGACGCAAGATCCCGAGCAATTCCGCGCTCCTGGCCTTCGAGGCGGCGGCCCGACATGGCAGCTTCGCCCGCGCCGCCGACGAGCTGGCCCGCACCGAGGGCGCCGTCAGTCGCCAGATCGGCCGGCTGGAGGCGTTCCTCGGCGTGACGCTGTTCGAGCGCGTCGGCAACCGGGTGCGGCTTGCCCCCAACGGCACGCGATACGCAGTGCAGGTGCGCGAGATTCTGGATCGGCTGGAACGGGACAGCCTGTATCTGATGGGGCAGCCCGTGGAAGGCGCGAGCATCGACATCGCCGCGATTCCGACCTTCGCGACCCGCTGGCTGATCCCGCGGCTGAAGCGCTTTCAGGATCGCCATCCGAACGTCACCGTGCATATCGCCGAACGGATGGAACCCTTCCTGCTGGCCGGCAGCGGATTCGACGCGGCCATTCACTTCGAGCATCCGGCCTGGGCCGGCATGCACCTGCATCCGCTGCTGGAGGAGGTGCTGGTACCCGTCTGCAGTCCGGCGCTTCTCGAACGCGTTGGCGCGAACCCGTCGCTGGATGCGCTGCCGCGCCTTCACCGGCGGCAGAATCCGGACGCGTGGCAGCGCTATGCGCAGGAGACCGGCATCGTGCTGACCAATTCGGCGGTCGGCCCGCGATACGATCTTCATTCGATGCTGATCGAGGCCGCGCTGGCCGGCCTGGGCGTCGCGCTGGTGCCGCGCCTTTACATCGGCGCCGAGCTTGAACAACGGCGTCTGGTCGCGCCCTGGCCCGACGGCACGGCGGTGACGAAAAACTTCTGCCTCGTGCTGCCGGAGCCGATCGAATTGAGCGCGGCGCCGGTGCGGGCGTTTGCGGAGTGGGTGCTGAGCGAGGCGCGAGATGGGGTACGTTGATGCCGCGCCCGCTGTTCATCGCGACACGGATTCGGAAGGGCCTGCTCCGCCGCCCCGCTAATCGAGGTACGGCTCCAACACGCCCCCGATCCAGTCCATGAACGCCCGCACGCGCGGCGAAAGATTGCGCCGATGCGCGACGACGAGCGACGCGGCAAGCGGCTCGGGCCGCAAATCGGGCAACACCTCCACGAGCGCGCCGCTTTCGATGTGATGCGCGAGCGCCGAATAGCCGGCCTGGATCAGTCCGATGCCCGCCAGCCCGGCCGCATGATAGGTCTGCACACTGTTGACCTGCATCGCGCTCGGCAACGGCAGCCACGCATAGCCGTCGCCGTCCGGGTATTCCCAGCCGGGATGCCGCGCGCCGAGCGTCAGCGTGTAGTGAATCATCCTGTGCCCCTGGCTGTGCAGATCGGCGAGCGTACGCGGCACGCCATGCCGCGCCAGATAATCGGGGCTCGCCGCATTCGTCATGCGCAGCCTGCCCAGCGGCCGGGCAATCAGCGTCTCGTCGGCGATCGGGCCCAGCCGGATCACGCAGTCGAACCCTTCCCGAACCAGATCGACACGCCGGTCGGTGCTGGAAAGCTCCAGCTCCAGATCCGGATGCGCGGCCATCAGTTGCGGCAGCGCCGGCACCACGACGCTGCGCGCCAGCTCCGTGGGCATGTCTACACGCAACCTGCCGCGCAGCGATGCGCCACGCCCCGAAAACATCGACTGCAATTCCTGCACTTCCGCGAGCAGGTCGGTTGCGCGCGCATAGAACGCGCGTCCGTCTTCGGTGAGCTGCACGCGCCGCGTGGTCCGATGCAGCAGTGCGACGCCCATGTCCCGTTCGAGCGTGCGGACGACCGTCGATACCCGTCCTTTCTGAATTCCGAGGCTTTCAGCCGCACGCGTGAAGCTCGCCATTTCGGCGACACGGGCAAAAATCAAAAGCGCATCAAGGTTCTGCATTGTTCATCCGGAAAGTAACAGAACGTTCAATCTGTCGTCGTTTATAACCCGATCGCGGCTCGCTAGAGTGGTTTCCCACGTCGTCCGAACGACGCTCCAACCGAAAGGAAACCCTCATGGATCAACTCAACCCGCCGGTGAAAACGGCCGTCGTCTACCACTCCGGCTACGGCCATACGCAACGGATGGCCGCCGCCGTCGCGGACGGCGCCGGCGCCGCACTCGTCGCGATCGATGCCGACGGCAACCTTGCCGACGACGCGTGGAACACATTGGCCGACGCCGATGCAATCCTGTTCGGCTCGCCGACCTACATGGGCGGCCCGAGCTGGCAGTTCAAGAAGTTCGCGGACGCGTCGTCGAAAGTCTGGTTCGAAAGCGGATGGCAGAACAAGATCTTCGGCGGCTTCACCAATAGCGCCAGCATCAACGGCGACAAGCTCAATACGCTCGAATACTTCTTCCTGCTGGCCGGCCAGCACGGCGGCATCTGGGTCAGCATGGACATCAAGCCGGCCAATCTGAAAGCGTCGACGCGCGACGACCTGAACCGCATGGGCGCCTACATCGCGCCGATGGCGCAGACGCCGGCCGATGCGTCGCCCGAAGAGATGTCGCCGGGCGATCTCGAAACGGCCCGCCGCTATGGCGCACGCGTCGCGGCGATTGCCGGGCAGTTGCGGGCCGGCCATTCACGCTCCAACTAACATTCCGCCGTTCATGCGGGGCGCCACCGGCCGACGCCCCGCATTGTGTCCGGCCGATTCTGAAGGGCGCTGAAGTGAAATACAAGCAACTGGGCCGCACGGGCCTCTATGTGTCCGAGCTGTGTCTCGGCACGATGACGATGGGCGGCAACGCGGATGCCGGCATGTGGGCGGCGATCGGCGCGGTCGGCCAGGACGACGCGAACCGCTTGATTGCCCGCGCGCTCGACGCAGGCATCAACTTCATCGACACCGCCGATATTTACTCGTTCGGCCAGGCCGAGCGCGTGGTCGGGCAGGCGCTGCGCGACCTCGGCGTTCCGCGCCACGAGATCGTGCTGGCGACGAAGACGGCCGGCGTGATGGGCGCGGGCCCGAACGACCAGGGCGCGTCGCGCGGTCACATCATGGATTCGGTGCAGCGCAGCCTCGAGCGGCTGCAGGTCGACCATATCGACCTGTACCAGATTCACGCGAGCGACCCCGTCACGCCGATCGAGGAGACGCTGCGCGCGCTCGACGATCTCACGCGACAGGGGCTGATCCGTTACGTCGGCGTGTCGAACTGGCGCGCGGGCAAGATCGGCAAGGCGCTCGGCCTGAGTGCCGCGCTGCACGCCACGCGCTTCGAGACGCTGCAGGCCTACTACTCGATCGCCGGGCGCGACGTAGAGCGCGAACTGGTTCCGCTCGCCGTCGACGAGCAGATGGGGCTGCTCGTGTGGTCGCCGCTCGCCGGCGGATTGCTGTCGGGCAAGTTCGGCCCCGGTGCGGCGACCGAAGCAGGTTCGCGGCGCGGCCATTTCGATTTTCCGCCGGTCGATCTCGATCGGGCCTGGCCGTGCGTCGCGGAAATGCGCGCGATCGCCGGCGCGCACGGCGTGTCGGTCGCGCGGATCGCGCTCGCGTGGCTGCTCGCGAAGCCCGCGGTCACGAGCGTCATCATCGGCGCCAAGCGGATCGACCAGCTCGACGACAATCTCGGCGCGGTCGATGTCGTCCTGACCGACGATGAGCTGGCGCGTCTCGACGCCGTGAGCGCGTTGCCACCCTGCTATCCCGGCTGGATGATCGCGCGTCAGGAAGCGGGCAGGCTGCCGCAGCCGTTGACGCGCACCGTGTCGCAATAGGACCGGCAGCACTTCATCTCATCGGCGGTTCGACGCGGCGGTGCCGCCCGGCGCCGATGTCGTCGGCGAGCCGCTCCAGTCGGTCCACGCGGCGCGCGCCGAGCACCCGCTTCGCGCCGCGCTGCGCCGGATGCCGCGCGGTCGCTTCGCCGAAGCCGCTGCTCGCACCGGTAACGACGACGACTTTGGCATCGATGTCGTCGGTCATGATGTTCCCCGCTTCGGTTGCGCGCGCATCACGCCGCGCGCCGTGAAAATACGTCCTTGAATACCGGCAGCGCCGAAAAGACGTTCGGCCATCCCGCGTAGAACGCCAGTTGCGTCAACGTCTCGGACGCTTCGGCCTGCGTGAGCCCGTTGTCCATCGCACGATTCAGGTGATACGGGATTTGCGCGACCTGGCCGTTGGCGACGAGCGCGCTCACCGTCACCAGGCTGCGGTCGCGCGGCGCGAGCCCGGGGCGCAGCCACAAGTCGCGAAACAGCGCATCGGTCGTGTACTCGACCACGCCGGGCGCGACCGCGCCGAAGTTTTCCGAGACCGTCCGCGCACGCTGCGCCTCGGCCGCCTCGTTCAGCGGCAGCGGCGTGACGTCCGCCGGCGCGAGCTGATCGGGCCCGATGCCGCGTTCGTCATAGACGTGCTTGACGATGATCGATGCGGCGCCCGCGTTGGCCCATCCCGCGTAAAAAGCCAGATGCGCGATCATTTCCGATATTTCCGCGGGCTTCACGCCGTGATCCAGCGCGAGGCGCGCATGCAGCGGCATCTCGACGGTCTGGCCGCGGGCGATCAGCACCGACAGCGTCACGATGCTGCGATCGCGCGGCGACAGGTGCGGCCGCTTCCACAGGCCGTCGAATACGGTATGGCTCGTATATCGCTCGAAGGCCGGGGCAACCGCCTTCAAGGCGTCAACAGACAAGGGTTCCTGCATGGTGTCGGTCCTTTGCATGGCGGTGCATGCGGCGGCGAGCAATGCCAGCCCCGTCGCGGCGACGAATCGCGACGGGCGACGTGTGCGATCGTCAACGCCCGCCGTGCTGCGCATCGGTGACGTGTTCGGGGCGGTTGACGTCGCGCCCATCGAGTGCCTCCCGAAGCGCGACCTGCGTGCCGCTGCGCGCAACCGCGATGCCCGCATGGATGCGCCGCCGCGGTATTGAACGGAAATCGAGCACCGCCGGCACCACTGCGTCGAGTAACGGACAGACGTAATCGGCAATCCCGGCTTCGATACGCGCGGTACGTCGAACAGCGCCGTCGAGCGACGTGACCCCGCCTGACGACCTCGATCCTGCGTCGCCCATCACTTCGGAAACACGCCCCTGCTCATCGCATCGAGCTGCCGAACGATCTCCGCGCGCAATTCGGCCGATACGTCGACGCTGTCGAGCAATTCCGAAATCCACAACCCGTCGGCCGCGAGCCGGCAGATCATCAGCGTCGCGGCCTGTTCGAGCGGTACCGGGTCGGGCCGTGTCCATTCGCGCATCGGCACCGACCAGCGCGCACGCGTGTCCTGCTCGGTGATCATCGACGCGACCAGCACGCGCAGTACCTCGATACTCGCGGCCGGATTGGCCGCGTCGAGCACCGCATGCAGATACGCGCGCGCCGCCGCGCCGTCGCCGCTGGAATCGGCCGCCATCCGCGCGGTCAACTGCGCGCCGAACCGCTCGGTCGCCTGCCCGAACAGCGCATCCAGCAGCCCCTGCTTGTTCGCGAAGTGATATTGCAGCGCACCTTTCGTCACGCCGGCCCGTTCGGCCACCGCATCGAGCGTCAACGCGGCCACGCCGTGATGCGTCGCGATCTCCGACGCGGCCGCCAGCAATTGCGCGCGCACCTGGTCCGGCGCTTTTTTTCGCCGCACGCCGGCCACGGCTGCGGCCGGCGCCGATGATCCTGCGGAGGCCCGTGAATCGGGCGTTCCAGCCGGTTCGACAGGCGCGGACACGTCGCGCGGCGCGGGTTCGAGACGTTTTTTCATGGTGCGGATGGTAGCACCGCGCGTCTCGATATAAACATTCCGGCTGGATGGTATGATCCGCCGCATGAACAAATCGGCCCCCTCTTCCTGGTCCGCGCTCGACGCTGCCATCGCCCGTGGACGCGACGCACTCGTGCGCCTTCAGCAGCCCGACGGCAGCTGGTGTTTCGAACTCGAATCCGACGCGACGATCACCGCGGAATACATCCTGATGATGCATTTCATGGACAGGATCGACGACGTGCGCCAGGAGAAGATGGCACGCTACCTGCGCGCGAACCAGCGGCTCGACACGCACGGCGCCTGGGATCTGTACGTCGACGGCGCACCGGACGTGTCGTGCAGCGTGAAGGCGTACTTCGCGCTGAAGGCGGCCGGCGACAGCGAACACGCGCCGCACATGATCCGCGCGCGCGACGCGATCCTGAAGCTCGGCGGCGCGGCCCGTTCGAATGTGTTCACGCGCATCCTGCTCGCGACGTTCGGCCAGGTGCCGTGGCGCGCGGCGCCGTTCATGCCGGTCGAATTCGTGCTGTTCCCGAAGTGGGTGCCGATCTCGATGTACAAGGTCGCGTACTGGGCGCGCACGACGATGGTGCCGCTGCTGGTGCTGTGCTCGCTGAAGGCGCGTGCGCGCAATCCGCGCAACGTGTCGATCCGCGAGCTGTTCGTCACGCCGCCCGAACAGGAGCGCCACTACTTCCCGCCCGCGCGCGGCATGCGCCGGCTGTTCCTCGCGCTCGACCGCACGATCCGCCCTATCGAGCCGCTGCTGCCGAAGCGCTTGCGGCAGCGCGCGATCCGGCATGCGGAAGCGTGGTGCGCGGAACGGATGAACGGCGAGGACGGGCTCGGCGGCATCTTCCCGCCGATCGTGTACAGCTACCAGATGATGCAGGTGCTCGGCTACCCGGACGACCATCCGCTGCGGCGCGATTGCGAGAACGCGCTGGAGAAGCTGCTGGTCACGCGGCCGGACGGCAGCATGTACTGCCAGCCGTGCCTGTCGCCGGTGTGGGACACCGCGTGGAGCACGATGGCGCTCGAGCAGGCGCGCGGCGTCGCGGCGCCGGAAACCGGCGACACGGCTTCCGGCGCACTGCGCGATCTCGACGGGCGCATCGCTCGCGCGTACGACTGGCTGGCCACGCGCCAGGTGAACGACCTGTGCGGCGACTGGATCGAGAACGCCCCGGCCGATGTCGAACCGGGCGGCTGGGCATTCCAGTATGCGAACCCGTACTACCCGGACATCGACGACACGGCGCTCGTCACCGCGATGCTCGATCGCCGCGGCCGCACGCATCGCGCCGCGGACGGCACGCACCCGTACGCGTCGCGCGTCGCACGCGCGCTCGACTGGATGCGCGGGCTGCAATCGCGCAACGGCGGCTTCGCGGCGTTCGACGCGGACTGCGACCGCATGTATCTGAACGCGATTCCGTTCGCCGATCACGGCGCGCTGCTCGACCCGCCGACCGAGGACGTATCGGGCCGCGTGCTGCTGTGCTTCGGCGTGACGAAGCGCGCCGCAGACCGCGCGTCGCTCGCCCGCGCGATCGACTACGTGAAGCGCACGCAGCAGCCCGACGGCAGCTGGTGGGGCCGCTGGGGCACGAACTACCTCTACGGCACGTGGAGCGTGCTGGCCGGCCTCGCGCTCGCCGGCGAGGACAAGTCGCAGCCCTACATCACCCGCGCGCTCGACTGGCTGCGCGCGCGGCAGCACGCGGACGGCGGCTGGGGCGAGACCAACGACAGCTACCTCGATCCGAAGCTGGCCGGCACGAACGGCGGCGAGAGCACGTCGAACTGCACCGCGTGGGCGCTGCTCGCGCAGATGGCGTTCGGCGACTGCGAATCCGATTCGGTGAAGCGCGGCATCGCGTATCTGCAGTCGGTGCAGCAGGAAGACGGCTTCTGGTGGCACCGCTCGCACAATGCGCCGGGCTTTCCGCGCATCTTCTATCTGAAGTATCACGGCTATACCGCTTACTTCCCGCTGTGGGCGCTCGCGCGTTATCGGCGGCTGGCAGGGGCGAAGGATGCGGGCGCAACCAGGTCGTGCGCGTCCGGTGCGTCCGCCGCACCCGCAACGGACGACGCGCTCGCCTGAGCCGGGACCCCGGCCGAAACGGCAACGCGCCGGCACGCCCGACGGCGTCCGGCGCGCTCTCGACGACTCCCCTCCCCATTCCCGCTTACATGTCGCGCGGCGCCCGCATCCGCGCGAACGCGTCGCGCAAATCCGCGCAGAACGCGTCGCCGATCATCGACAGCGGCTGCGACGCGGACGTCACCAGATAGAAGTGATCGGGCACGGCCGGCTCGAACGGCTTGACGGCCACGCGATGCCCCGCATACGCGGCCGTCACCGGATCGATCAGCGCGACGCCGGCGCCGTTCGCGACGAACGCGACGATGGTCTGCGACAGTTGCGCCTCGATCGACAGCACGCGCGACACGCCGGCTTCGACGAATACGCGATCGATCGCGCTGCGCGCCTCGAAACTCGGCGGAAACGAGATGAACGCTTCGTCGCGCAGGTCGGCCGGCCGCACGACGCGCTTGCGCGCGAGCCGATGCCCGCGCGGCACGATGCAGCGCATCGCGCTTTCCGCGAGCCGCTCGCCGCGCACGGCCGGATGCGGAACGGGTTCGGCGATCAGCCCGACATCGCATTGCCCCGACGCGACCTTGTCGACGACGGTGGACGCGCTGTGCGCGAGCAACGTGATGTCGACGCCCGGATGCGCATGCGAGAAACGCGTGACGAGCTGCGGCAGCAGGTCGAGCGCGACCGCCGGCGAGCCGGCCACGCGCAGCGTGCCGCGCCGCATCGCGCGGATCTGCTCGGCGGCCTGCGCGACGCGGTCGAGGCCGACGAACGCGCGTTCGACCTCCTCGTACAGCACACGTGCCTGCGCGGTCGGCGTGAAGCGCCCCTGCTGCCGCTCGAACAGCACGAAGCCGACCCGGTCCTCGAGATCGGCGATCAGCCGGCTCACGGCCGGCTGCGAGATATGGAGATCGCGTGCCGCACGCGTGACCGTATGGCGCTGCATCACTGCGCGAAACGCTTCGATCTGACGAATCCTGAGCGAGGGCGTGGTCATAACACTGGATTATGGGTCGTTGATCAAGCTGTATTGGACAGCCCATTTTGCCTGCCCGAACATCGGTTCCGCAACGTATCGAAAGCAAGGAGCCGCGCCGCCATGGGATATAACACGCAACCGCCTCACCCGCGACACCGGAGCCGCGCATGACCGTGCGCCGCTTCGACGTCGTCGTGGCCGGCGGCGGTCTCGTCGGCATGGCCATCGCGTGGGGCATCGCACGTCTCGGCCAACGCGTCGCGGTGTGCGACGGCGACGACATCGCGTTTCGCGCGGCGCGCGGCAATTTCGGGCTCGTGTGGGTGCAGGGCAAGGGCGGCCGCTGCCTGCCGTATGCGCGCTGGTCGCGCGAATCGTCGGCGCGCTGGCACGCTTTCGCCGCGCAGTTGCAGCGCGAAACGGGCGTGGACTGCGCGTTCGAGCGCCCGGGCGGCATCGAGCTGTTCGAGCAGCGCGCGGAACTCGACAGCGCGACCGACCTGCTCGAATCGCTGCGCCGGCAGGAAGCCGCGCTGTCGTACGAGGTACTCGATCCGGCGGCGCTGCGCCGGCGCGTTCCCGCGGCGTCGCCGTCGCTGGCCGGCGCGCTGTGGTCGTCGAACGACGGTCACGCGAATCCGCTCACCACGCTGCGCGCGATGCTGCAGGCGTTTCAGCAGTGCGGCGGCGTCTATCTGCCGCGCAGCGAAGTCGCCGAGATCCGGCCGCGCGCCGGGCGCTTCGAGATCGACACGCGCCACGCGCAGCTCGAAGCCGGGCGCGTGGTGCTCGCGGCCGGTCTCGACAACGCGCGGCTCGCGCCGATGGTCGACCTGCGCGCACCGATCTCGCCGCTGCGCGGCCAGATCATGGTCACCGAACGCCTCGCGCCGTTTCTCGACTATCCGACACTCGTCGTCCGGCAGACGCCGGAAGGCTCGGTGCTCCTCGGCGATTCGGCCGAAGACGTCGGCTTCGACGATGGCCAGACACGCCCCGCGATGGTCGACATCGCCCGCCGCGCCCGCACCGCGTTCCCGGCGCTGGCCCATGCGCGCATCGTGCGCGCATGGGGTGCGCTGCGCATCATGACGCCCGACGGCCTGCCCGTCTACGAGGCGTCGGCCACGTACCCCGGCGCGTTCATCGCGATCTGCCACAGCGGCGTCACGCTCGCGGCGACCCACGCCGATCTCGTCGCGCCGTGGATCGCCGGCGGCGCCGCGCCGGCCGACCTGTCCGCCTTTACCACCGCGCGCTTCGACGCGCCCACGGAAGCCCGGCATGTTTGAATCCCTCGTTCCCGCCGCCGCGCTGCTCGAGCGCGTGCGCATCCATATCGACGGCACGCCGCACGACGTACCCGCGCATTACAGCGTCGCGGCCGCGATGCTCGCCGCCGGCTCGGCCTCGTGCCGCACGAGCGCCGTGAGCGGCGCGCCGCGCGGCCCGTTCTGCATGATGGGCGTGTGCTTCGACTGCCTCGTCGAAATCGACGGCGTACCGAACGTGCAAGGCTGCATGACGCCCGTTGCCGACGGCATGCAGGTGAGTGCGATGCACGGCAAGGCGAGGCTCGCATGACGCGCCGCCAGTGCGACCTGCTGATCGTCGGCGCCGGGCCGGCGGGAATGGCGGCGGCGACTGCCGCGCGTGCGGCCGGCTTGTCGGTCGTCGTCGCGGACGAAGGGCGCGCGCCCGGCGGCCAGATCTACCGCAACGTGGCCGATGCGCCGGCGCCGCTCGCGCAATGGCTCGGGGCCGACTACACGGCGGGCCGCCCGCTCGTCGACGGCCTGCTCGCCAGCGGCGCGCATTACCTGCCGCGCAGCGTCGTGTGGCAGGTCGCGTTCGAACCGGCGCCCGTCGCGATGCTCACGCAAAGCGGCCCGGCGCGCGGCACGCTCGAAATCGGCGCGCGCGCGGTGCTGATCGCGACCGGCGCGCAGGAGCGGCCGTGGCCGGTACCCGGCTGGACGTTGCCCGGCGTGATGGGCGTCGGCGCCGCGCAGACGCTGCTGAAAGCATCAGGCCTCGCGCCGTCGGCCGACGCCGTGCTCGCGGGCAGCGGCCCGCTGCTGTGGCTGTTCGCCGCGCAATTGCTGAATGCCGGCCGGCGCGTGCGCGCGCTGGTCGACACGACACCGCGCGATGCGTGGCGCCGCGCGCTCCCGCATGCGCTGCCGGCGCTGCGCGGCGCCGACTATCTGCTCAAGGGCTGGCGCATGCTGCGCGCGGTGCGCCGCGCCGGGATTCCGGTGTATCGCGGCGCGACCGACGTCCGCATCGACGGCGAAAGCCGCGCCGAACGCATCCGCTTTCGCGACGAAGACGGCATCGTGCAAACACTCGACACGTCGCTCGTGCTGCTGCATCAGGGCGTCATTCCGTCGACGCAGCTCGCGCGTTCGCTCGGCTGCGCACACGAATGGGATGAATCGTCGGCATGCTGGCGGCCGCAGTGCGACGCGCGCGGCCGCAGCAGCGTGCCGCACGTGTGGATCGCGGGCGACGGCGCGGGCATCGGCGGCGCGCGGGCGGCAGCACTCGCCGGCGAAGTGTCGGCGCTCGACATCGCCGCGCAACTCGGCACGCTCGACACGCAACGACAGGCCGCACGCGAACGCCCGGTGCTGCGCGCGTTGCGCCGCCACCTCGCGGTGCGCCCGCTGCTCGACGCGCTGTACACGCCGCCCGCCGCGCTGCGCCGCCCCGACGACGACACGATCGTGTGCCGCTGCGAGGAAGTCACGGCCGGCGAGATCCGCCGGCTCGCGGCGCTCGGCTGCCAGGGGCCGAACCAGATGAAGGCGTTTACGCGCTGCGGCATGGGTCCGTGCCAGGGACGCTGGTGCGGCACGACGGTCGGCGAGCTGATCGCCGACGTGCAGCAGCGCGGCGTCGGCGACGTCGGCCACTACCGAATCCGCGCACCGATCAAGCCCGTCACCGTCGGCGAGATGGCCGACGCCCTCGAACTGTCGAACGATTTTCAGCGCGGCGAATTTCCGAGCTGACGTGCACGCCCACTCTTCCCCACACGAACGGAGCCTGACCATGAAGACGCGCCTCACGATTCTCCTGTCCGCCGCCGCGATGGCCTTCGCGTCGCCGGCGTCGGCGAAGGAATGGACGACCATCCGCATCGGCGTCGACCCCACCTATCCGCCGTTCGAATCGACCGCGACCGACGGCAGCGTGAAAGGCTTCGACATCGATCTCGGCAACGCGCTGTGCGCGAAGCTGAAGGCGAAATGCGTGTGGGTGTCGAGCAGTTTCGACGGGCTGATTCCCGGGCTGCAGGCGCGCAAGTTCGACGTGATCCTGTCGTCGATGGCCGCGACCGAACAGCGGCGCCAGCAGATCGACTTCACCGATCGCCTGTACCGCAACCAGACGCGGCTGATCGCGCGCACCGGGTCGGGACTGCTGCCGGACGCGGCGAAGCTCGCCGGCAAGCGCGTCGCGGTCGAACAGGGCACGGTCCAGGAAACCTATGCGCGCGAGAAGTGGGCGCCGGCGAAGGTCGAGGTCGTGCCGTATCCGAGCTACGACCAGGCGTATGCGGACCTCGTCACCGGGCGCGTCGACGGCGTGCTGATGGACGCCGTGCAAGGCCAGCTCGGGTTCCTCGCGACGCCGCGCGGCAAGGGCTTCTCGTTCGCGGGCGGCGTGGTGTACGACGCGAAGATCATGGGCAACGGCGATGCGGCCGGCGTGCGCAAGGCCGACACCGACCTGCGCGACGCGCTGAATCGTGCCATCGCGCAGATTCGCGGCGACGGCACCTACAACACGATCCAGGCGAAATATTTCAACTTCGACATGTACGGGAACTGACGGCAGCGCGGGCTCGGTTTCGCTCGTGTGACTCGTGCGAGCGCGACGTCGAGCCGTCGCACCGCAGCCGGTTCGCGCCGGCCAGGCGCGAACATCCCGCGCTTTTCTCCGTCGATGGACGTCTTCGCCGACTTTCGTGCTGACGCCGCTTTCGCGGCGGCGATGGTCGGCGGCATATCGTCGAGGCTCACGCGTTTCTCCTGGTGCGGCAGGAAAGTGAATCCGGCCCAGGTTGCACGAATAAGTCCGAATGGGACATAATTCATCAATATTGAGTCCCATCAGGTCTGACATGCTCGACATCCGCCAGCTTCAATATTTCATCGCGGTCGCGGAAGAGGAACACGTCGGCCGCGCGGCCGAACGCCTGCACATCTCGCAGTCGCCGCTCAGCCGCCAGATCGCGCAGCTCGAGGAAAAGCTCGGCCTGACGCTGTTCGAACGCAGCCAGCAGCGCATTCGTCTGACGCGTGACGGGCGCACGTTCCTCAGCGAAGCGCACGCGTTCCTGCGCCATGCGAACCGGCTCGAATCGCTCGCGCGCCGGCTCGGCCGCGGCGACGAAGGCGGCCTGTGCATCGGCTACCTGGAAACGGCCACCCACTCGGGCGTGCTGCCGCGTGCGCTGAAAACGCTGCGCGCCGAGCGCCCGTCGGTGCATATCGCGCTG 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 ATCTTTTTTCATCATGGCTGGCCGCTCAGCGCCGACGACTGGGATGCGCAGATGCTGTTCTTCCTCGCCCAGGGCTACCGCGTGATCGCGCATGACCGTCGCGGCCACGGACGCTCCAGCCAGGTGTGGGACGGCCACGACATGGATCACTATGCGGACGACGTCGCCGCGGTCGTGAATCATCTCGGCGTGCAGGGTGCCGTTCACGTCGGCCATTCCACCGGCGGCGGCGAAGTCATCCACTATGTCGCGCGTCACGGCGAGGATCGCGTCGCCAAGGCCGTGCTGATCAGCGCCGTCCCGCCGCTGATGGTCAAGACCGACAGCAATCCCGGCGGCCTGCCGAAGGACGTGTTCGACAATCTCCAGGCACAGCTCGCGGCGAACCGCGCGCAGTTCTACTACGACGTGCCGGCCGGCCCGTTCTACGGCTACAACCGCACCGGCTCGACACCGTCGCAGGGCGTCATCTGGAACTGGTGGCGACAAGGCATGATGGGCAGCGCGAAAGCTCACTACGACGGGATCGTCGCGTTCTCGCAGACCGACTTCACCGAAGACCTGAAAAGCACCACGATTCCCGTTCTCGTGATGCACGGCGACGACGACCAGATCGTTCCGTATGCGGATTCCGGCCTCCTGTCGGCGAAACTGGCGAGGAACAGCACGCTGAAGGTCTACGCGGGCTTCCCGCACGGCATGCCGACGTCCAACGCCGACACGATCAACGCCGATCTGCTC 
 >PredictedProphage1 -Hit 2 
 ATCCCGAGCAATTCCGCGCTCCTGGCCTTCGAGGCGGCGGCCCGACATGGCAGCTTCGCCCGCGCCGCCGACGAGCTGGCCCGCACCGAGGGCGCCGTCAGTCGCCAGATCGGCCGGCTGGAGGCGTTCCTCGGCGTGACGCTGTTCGAGCGCGTCGGCAACCGGGTGCGGCTTGCCCCCAACGGCACGCGATACGCAGTGCAGGTGCGCGAGATTCTGGATCGGCTGGAACGGGACAGCCTGTATCTGATGGGGCAGCCCGTGGAAGGCGCGAGCATCGACATCGCCGCGATTCCGACCTTCGCGACCCGCTGGCTGATCCCGCGGCTGAAGCGCTTTCAGGATCGCCATCCGAACGTCACCGTGCATATCGCCGAACGGATGGAACCCTTCCTGCTGGCCGGCAGCGGATTCGACGCGGCCATTCACTTC 
 >PredictedProphage1 -Hit 3 
 CTTGATGCGCTTTTGATTTTTGCCCGTGTCGCCGAAATGGCGAGCTTCACGCGTGCGGCTGAAAGCCTCGGAATTCAGAAAGGACGGGTATCGACGGTCGTCCGCACGCTCGAACGGGACATGGGCGTCGCACTGCTGCATCGGACCACGCGGCGCGTGCAGCTCACCGAAGACGGACGCGCGTTCTATGCGCGCGCAACCGACCTGCTCGCGGAAGTGCAGGAATTGCAGTCGATGTTTTCGGGGCGTGGCGCATCGCTGCGCGGCAGGTTGCGTGTAGACATGCCCACGGAGCTGGCGCGCAGCGTCGTGGTGCCGGCGCTGCCGCAACTGATGGCCGCGCATCCGGATCTGGAGCTGGAGCTTTCCAGCACCGACCGGCGTGTCGATCTGGTTCGGGAAGGG 
 >PredictedProphage1 -Hit 4 
 GCATCGAGCTGCCGAACGATCTCCGCGCGCAATTCGGCCGATACGTCGACGCTGTCGAGCAATTCCGAAATCCACAACCCGTCGGCCGCGAGCCGGCAGATCATCAGCGTCGCGGCCTGTTCGAGCGGTACCGGGTCGGGCCGTGTCCATTCGCGCATCGGCACCGACCAGCGCGCACGCGTGTCCTGCTCGGTGATCATCGACGCGACCAGCACGCGCAGTACCTCGATACTCGCGGCCGGATTGGCCGCGTCGAGCACCGCATGCAGATACGCGCGCGCCGCCGCGCCGTCGCCGCTGGAATCGGCCGCCATCCGCGCGGTCAACTGCGCGCCGAACCGCTCGGTCGCCTGCCCGAACAGCGCATCCAGCAGCCCCTGCTTGTTCGCGAAGTGATATTGCAGCGCACCTTTCGTCACGCCGGCCCGTTCGGCCACCGCATCGAGCGTCAACGCGGCCACGCCGTGATGCGTCGCGATCTCCGACGCGGCCGCCAGCAATTGCGCGCGC 
 >PredictedProphage1 -Hit 5 
 TTTCGCGCAGTGATGCAGCGCCATACGGTCACGCGTGCGGCACGCGATCTCCATATCTCGCAGCCGGCCGTGAGCCGGCTGATCGCCGATCTCGAGGACCGGGTCGGCTTCGTGCTGTTCGAGCGGCAGCAGGGGCGCTTCACGCCGACCGCGCAGGCACGTGTGCTGTACGAGGAGGTCGAACGCGCGTTCGTCGGCCTCGACCGCGTCGCGCAGGCCGCCGAGCAGATCCGCGCGATGCGGCGCGGCACGCTGCGCGTGGCCGGCTCGCCGGCGGTCGCGCTCGACCTGCTGCCGCAGCTCGTCACGCGTTTCTCGCATGCGCATCCGGGCGTCGACATCACGTTGCTCGCGCACAGCGCGTCCACCGTCGTCGACAAGGTCGCGTCGGGGCAATGCGATGTCGGGCTGATCGCCGAACCCGTTCCGCATCCGGCCGTGCGCGGCGAGCGGCTCGCGGAAAGCGCGATGCGCTGCATCGTGCCGCGCGGGCATCGGCTCGCGCGCAAGCGCGTCGTGCGGCCGGCCGACCTGCGCGACGAAGCGTTCATC 
 >PredictedProphage1 -Hit 6 
 CTTCAATATTTCATCGCGGTCGCGGAAGAGGAACACGTCGGCCGCGCGGCCGAACGCCTGCACATCTCGCAGTCGCCGCTCAGCCGCCAGATCGCGCAGCTCGAGGAAAAGCTCGGCCTGACGCTGTTCGAACGCAGCCAGCAGCGCATTCGTCTGACGCGTGACGGGCGCACGTTCCTCAGCGAAGCGCACGCGTTCCTGCGCCATGCGAACCGGCTCGAATCGCTCGCGCGCCGGCTCGGCCGCGGCGACGAAGGCGGCCTGTGCATCGGCTACCTGGAAACGGCCACCCACTCGGGCGTGCTGCCGCGTGCGCTGAAAACGCTGCGCGCCGAGCGCCCGTCGGTGCATATCGCGCTG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 IFFHHGWPLSADDWDAQMLFFLAQGYRVIAHDRRGHGRSSQVWDGHDMDHYADDVAAVVNHLGVQGAVHVGHSTGGGEVIHYVARHGEDRVAKAVLISAVPPLMVKTDSNPGGLPKDVFDNLQAQLAANRAQFYYDVPAGPFYGYNRTGSTPSQGVIWNWWRQGMMGSAKAHYDGIVAFSQTDFTEDLKSTTIPVLVMHGDDDQIVPYADSGLLSAKLARNSTLKVYAGFPHGMPTSNADTINADLL 
 >PredictedProphage1 -Hit 2 
 IPSNSALLAFEAAARHGSFARAADELARTEGAVSRQIGRLEAFLGVTLFERVGNRVRLAPNGTRYAVQVREILDRLERDSLYLMGQPVEGASIDIAAIPTFATRWLIPRLKRFQDRHPNVTVHIAERMEPFLLAGSGFDAAIHF 
 >PredictedProphage1 -Hit 3 
 LDALLIFARVAEMASFTRAAESLGIQKGRVSTVVRTLERDMGVALLHRTTRRVQLTEDGRAFYARATDLLAEVQELQSMFSGRGASLRGRLRVDMPTELARSVVVPALPQLMAAHPDLELELSSTDRRVDLVREG 
 >PredictedProphage1 -Hit 4 
 ASSCRTISARNSADTSTLSSNSEIHNPSAASRQIISVAACSSGTGSGRVHSRIGTDQRARVSCSVIIDATSTRSTSILAAGLAASSTACRYARAAAPSPLESAAIRAVNCAPNRSVACPNSASSSPCLFAK_YCSAPFVTPARSATASSVNAATP_CVAISDAAASNCAR 
 >PredictedProphage1 -Hit 5 
 FRAVMQRHTVTRAARDLHISQPAVSRLIADLEDRVGFVLFERQQGRFTPTAQARVLYEEVERAFVGLDRVAQAAEQIRAMRRGTLRVAGSPAVALDLLPQLVTRFSHAHPGVDITLLAHSASTVVDKVASGQCDVGLIAEPVPHPAVRGERLAESAMRCIVPRGHRLARKRVVRPADLRDEAFI 
 >PredictedProphage1 -Hit 6 
 LQYFIAVAEEEHVGRAAERLHISQSPLSRQIAQLEEKLGLTLFERSQQRIRLTRDGRTFLSEAHAFLRHANRLESLARRLGRGDEGGLCIGYLETATHSGVLPRALKTLRAERPSVHIAL 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig279

Genome size:  261513
Host's GC content:  66.49
Predicted Codon Position GC:  	1st:  67.79	 2nd:  44.65	 3rd:  80.20

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig276

Genome size:  250876
Host's GC content:  67.61
Predicted Codon Position GC:  	1st:  68.48	 2nd:  44.95	 3rd:  82.09

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig277

Genome size:  233024
Host's GC content:  66.43
Predicted Codon Position GC:  	1st:  67.76	 2nd:  44.64	 3rd:  80.10

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig275

Genome size:  225929
Host's GC content:  66.78
Predicted Codon Position GC:  	1st:  67.97	 2nd:  44.73	 3rd:  80.70

 >PredictedProphage1 
 Length:   9531 
 Number of hits =   6 
 GC	Coding	First	Second	Third
 66.29 	 64.82 	 57.40 	 48.70 	 88.36 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	7	0.101449275362319
 Leu	TTA	0	0
 Leu	CTG	43	0.623188405797101
 Leu	CTA	0	0
 Leu	CTT	0	0
 Leu	CTC	19	0.27536231884058
 Lys	AAG	28	0.823529411764706
 Lys	AAA	6	0.176470588235294
 Glu	GAG	10	0.416666666666667
 Glu	GAA	14	0.583333333333333
 Gln	CAG	44	0.956521739130435
 Gln	CAA	2	0.0434782608695652
 End	TGA	1	1
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	2	0.25
 His	CAC	6	0.75
 Asn	AAT	10	0.163934426229508
 Asn	AAC	51	0.836065573770492
 Ser	AGT	3	0.04
 Ser	AGC	21	0.28
 Ser	TCG	46	0.613333333333333
 Ser	TCA	0	0
 Ser	TCT	2	0.0266666666666667
 Ser	TCC	3	0.04
 Trp	TGG	6	1
 Arg	AGG	3	0.06
 Arg	AGA	1	0.02
 Arg	CGG	10	0.2
 Arg	CGA	5	0.1
 Arg	CGT	5	0.1
 Arg	CGC	26	0.52
 Ala	GCG	65	0.607476635514019
 Ala	GCA	11	0.102803738317757
 Ala	GCT	3	0.0280373831775701
 Ala	GCC	28	0.261682242990654
 Cys	TGT	2	0.181818181818182
 Cys	TGC	9	0.818181818181818
 Asp	GAT	8	0.235294117647059
 Asp	GAC	26	0.764705882352941
 Gly	GGG	7	0.104477611940299
 Gly	GGA	2	0.0298507462686567
 Gly	GGT	7	0.104477611940299
 Gly	GGC	51	0.761194029850746
 Phe	TTT	2	0.1
 Phe	TTC	18	0.9
 Tyr	TAT	7	0.411764705882353
 Tyr	TAC	10	0.588235294117647
 Met	ATG	12	1
 Val	GTG	41	0.585714285714286
 Val	GTA	1	0.0142857142857143
 Val	GTT	3	0.0428571428571429
 Val	GTC	25	0.357142857142857
 Thr	ACG	47	0.671428571428571
 Thr	ACA	1	0.0142857142857143
 Thr	ACT	0	0
 Thr	ACC	22	0.314285714285714
 Pro	CCG	36	0.818181818181818
 Pro	CCA	0	0
 Pro	CCT	1	0.0227272727272727
 Pro	CCC	7	0.159090909090909
 Ile	ATA	1	0.0169491525423729
 Ile	ATT	3	0.0508474576271186
 Ile	ATC	55	0.932203389830508
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 42889	42966	-1	ref|NP_943922.1|hypothetical protein	37.7bits(86)	0.44
 46680	47573	-1	ref|NP_039614.1|gene IV product	106bits(265)	8e-22
 48123	48656	-1	ref|NP_047359.1|maturation protein	50.1bits(118)	9e-05
 49133	49417	1	ref|NP_040700.1|hypothetical protein	40.0bits(92)	0.088
 51148	51414	-1	ref|YP_024677.1|gp04 	105bits(262)	2e-21
 51823	52419	-1	ref|NP_064745.1|gp7 	39.3bits(90)	0.15
 
 DNA sequence:
 GATCTTCGGCACGATCAGCGCCGCCAGGATCCCGAGGATCGCGACCACCACCATGATCTCGATCAGCGTGAAACCGCGCTGACGACGCACGGCCGCGTTGCGGCGAGTGATCCACGTTTGCATGACTGACTACCTCTTTCCAAAAAATGTCGTCGATTGAGTGACGCACCCGGCGCACCGGACGATTGCCTGACGGCAACCTTCCGGACCGGCGGGCGCGGAGCACGCATTGTAAGGCGCGCATCGCCGAGGGCTTTCACCCAACGCAAATTTCATATACATCCGTACAATAGCGCGCATGAACGCGCTCTCGATCCGGATCCTTTCCCTCGCCCTCTTCGCGGGTTTGTGCGCGACGGCCACCTACTGGGTCGTCACGCTGTCCGCTCGCGAAGCGCCGCTGCCCGCCGCCGCCGCGCGGCTGCCGATCCGCACCGAGGACGCCGCCGCGCTCTTCGGCGGTCAGCTCGACAAGAATCCCGTCCAGGACATCCACCTGTTCGGCATTCTCGCGCTCGACCACGGCGGCGCCGCGATCGTCAGCGTCGGCGGCGAACCGCCGCGCGCCGTGTCGCTCGGCGCGGACGTCACGTCCGGCGCGAAGCTCGCCGAAGTGCGCCCGCGCTCGATCATCGTCGACCGCAACGGCGCCCGCGCCGAAATCCAGCTCCCGGCGAACACGCCGTCCCCCGCGATCTACATGCGCTGAACGGCGGCGGCCCGGCAAGCGGAATCGGGCCGCTCCGTCACTGCACCATGTTGTTCAGCTCGATGATCGGCAGCATCACGGCCAGCACGATCACGAGCACGATGCCACCCATCGCGAGGATCAGCAGCGGCTCCAGCAGGCTCGTCAGGAACATCGTGCGGCGCTCCAGCTCGCGCGCTTCGCCTTCGGCCGCGCGATCCAGCATCGTCGTCACGTCGCCCGTCGCCTCGCCCGAACGAATCAGGTGCACGAGCACCGGCGGAAACGTCTTCACGTTGTTCAGCGCGCGCGACAGCGCCGAGCCTTCGCGCACGCGCACGATCGCATCGTCGATGTTCGCGCGCATCGCGCGGTTCGACAGCGTCTCGCCGGCCGCCTGCAACGCGCGCAGGATCGGCACGCCGGCCGCGGTGAGAATGCCGAGCGTGCTCGCGAAGCGCACCGTGTTGTAGCCGCGCACGAGCTTGCCCGCGAGCGGCGCGGTCAGCACCCAGCGATCGAACGCGAGCCGGGGCCCGGCGCGCGACAGCGTCGCCTTCACGAACCACACGATGAGCGCGACCGCGATCAGGATCGCCCACCACCAGTGCCGCACGAATTCCGACAGCGCCATCATCACGACCGTGAGGATCGGCAGCTGCTGCTTCGTGCTCGCGAACACGTTGACGACCTGCGGCACGACGTAGCTCAGCAGGAACGTGACGATGCCGAACGCGATCAGCGTGACGATGCCCGGATACGTGAACGCCAGCAGGATCTTCTGCTTGAGCGCATTGCTCTGCTCGATGTAGTCGGCCAGGCGCGACAGCACGATGCCGAGCTTGCCGGTGTGCTCGCCCGCAGCAACGAGTGCGCGGTAGATCTCCGGAAAATCGCGCGGATGCTGGCCGAGCGCGTTCGCGAGCGAATGGCCGCCGAGCACTTCCGCGCGGATCGCGGCCATCAGTTCGCGGATGTAGTCGCGCTCGGCCTGCTCGGTCAGCACGCCGAGCGCCTCGTCGAGCGGCAGTCCCGCGATCAGCAGGCTCGCGAGCTGGCGCGTGAGGATCGCCTGTTCGCGCTGAGACAGCTTGCGGCCGAACGCGAGCCGCTGCGAACGCGCGCCGCGCGTCGCGCTGGCGGCCGGCTCGACGACGAGCGGCGTGAGCCCCTGCGTGCGCAGCTGGCCGCGCGCGGCGCGCGCACTGTCGGCATCGATCACGCCTTTCTGCGCGCGTCCCGCCGCATCGATTGCTTCGAAACGGAATGCCGGCATCGCGCTATGCGCCTCCCGTCACGCGCAGCACTTCCTCGAGCGACGTCGCGCCGGACGCGAGCCAGCGCTCGGCGTCGTCGCGCAGCGTGCGCATGCCTTCCGCGCGGCCGGCGGCGAGAATTTCAGCATCGGCCGCGTTGCGGTGAATCAGCGAGCGGATCGAATCGTCGATCACCAGCAGCTCGTACACACCGCGCCGGCCCGCATAACCGGAATGTCCGCACTTCGCGCAACCGACCGGATGCCATACGGTACGGCCGTCCTCATGCCGCTCTTCCTTGCAGACCGGGCAGAGCTGGCGCACCAGGCGCTGCGCGAGCACGCCGAGCAGCGACGACGCGAGCAGGTACGGCTCGACGCCCATGTCGGTCAGGCGCGTGACGGCGGACGCCGCGTCGTTCGTGTGCAGCGTCGCGAGCACGAGGTGGCCCGTCAGCGACGCCTGCACCGCGATCTGCGCGGTTTCGAGGTCGCGGATTTCGCCGATCATGATCACGTCCGGGTCCTGGCGCAGAATCGAGCGCAGCGCGCGGGCAAAGGTCATCCCGATTCGCTCGTTCACCTGCGTCTGGCCAATGCCGGACAGGTCGTATTCGATCGGGTCCTCGACGGTCATGATGTTGGTCGTCGCGGTTTCGAGCCGCGACATCGACGCGTACAGCGTGGTCGTCTTGCCCGAACCGGTCGGGCCGGTGACGAGCACGATGCCGTGCGGGCGGCCGATCAGCTTGTCGAACTGGACGAGCGTGTCGCGGCCCATCCCGAGCGCTTCGAGGTTCAGGCGCTGCGCATCCTTTTCGAGCAGACGCAGCACCGCGCGCTCGCCGTGCCCGGTCGGCAGCGTCGACACCCGCACGTCGACCGGCCGGCCGCCGACGCGCAGCGTGATGCGGCCGTCCTGCGGCAGACGCTTCTCCGCGATGTCGAGCTGCGCCATGATCTTGATCCGCGAGATCAGCGCGCCGTGCAGCGCCTTCTTCGGGCGCACGACGTCGCGCAGCGTGCCGTCGACGCGAAAGCGCACGACCGACGCATTCTCGAATGGCTCGATGTGAATGTCCGATGCCTGTTCGCGCGCCGCTTGCGTGAGCAGCGCGTTGATCATCCGGATGATCGGCGCATCGTCTTCCGATTCGAGCAGATCCTCGACTTCGGGAATGTCCTGCATCAGCCGCGACAGGTCGACTTCGCCTTCGACCTCGCCGACCACCTGCGCGGCGCTGCCGTCCTGGCGTGCGTAGGCCTGGTTGATCGCCTGTGCGAGCTCGTCGGCCGGCACGCGATGCACGGCGATCGAGCCGAAGTTGCGCGCGATCTCCGCGAGCGCGGCGTCGCTCGTGCGTTCGCTGATCCATACCTCGAGCGTGTCGTCGAGCTGATGCGCGATCAGCACCTGGCCGCTCTTCGCGAAGCCGTACGGCAGCAGGCGCGCGGCGAGCGGCGACGGCGGCTGGCGTTCGCCCGGCGCGCCGTCGTGGGCGGAGGACGCGAGCACGTCGCTCACTGCGAGGCTCCCGGCGCGGTGGTCAGCGGCTGTTGCGGCACCGCCTGCTGCGGCACGCTTTGCGGCTGCGCGGGCGTTGCTTCCGGCAATGGCTGGGCAGGCACGGGCACCACCTGGCGCTGCAACTGCTGGCGACGCATCTTGTCGAGATCGAACAGATTGCCGGCCGGCGTGCCGCCCTGGCTCGGACCCAGCGGCATCGGCGGGACGACCGGGTCGTCCTTGTCGCGCATCACGTTGTTGTCCGACTTGTAGGCGCCCGTCACGCCCTGGATGTAGTCGTAGCGGTTCGCGGTGACTGCCTGCGCGGTGCTGCGATCGGAAATGATCACCGGGCGCAGGAACACCATCAGGTTGGTTTTCGCGCGCTGCTTCGTTTCGGAGCGGAACAACTGGCCAATCCACGGGATGTCGCCGAGCAGCGGCACCTTGCTGTTCGACACCTGGTAGTTGTCCTGCATCAAGCCGCCGAGCACGATGATCTCGCCGTTGTCGGCCAGGATCGTCGACTGGATCGAGCGTTTCGTGAAGGTCGGGCCGGTCTGCGCGTTCGTCGTGCCGGCGACGACCGCCGAATCCTCGGTATAGAGCTGCAGCTTCAGGATCCCGCCGTCGGTGATCTGCGGCTTCACGTGCAGCGTCAGGCCGACGTCGCGACGGTCGTAGGTGTTGAACGCGTTGCTCGTCGTGCCGCTCGTCAGGTTCGAATACGAACCGGTCGCGATCGGCACGTTCTGGCCGACGACGATCTTCGCTTCCTCGTTGTCGAGCGTGATCAGGTTCGGCGTCGACAGCACGTTCGCGTCGCTCACGCCCGCAAAATACTGCAGCAGCGCGCCGAGCCCCTGCACGCCGAACATGTTGTGCAACCAGCCGATGTTGAGGCCCTGGTTCAGGTTCGCGAGATTGGCGGCCAACCCGGCGGTGGCCGCCGTGCCGCCCGTCGTCAGGTTGATGATGCTGTTGCCCAAACCGCCCGTGGGATTCAGGTTCGTACCGCCGAGGAACTGGCCGCTCGCCACCTGCCACTGGATGCCGAGGTTGCCGGACGTATTCGAGTTGAGCTCGACGATCAGCGCTTCGATATAGACCTGCGCACGCCGTGCGTCGAGCTGGTCGATCACCGAGCGCAGGTTCCGGTACACCGGATCGGACGCGGTGATGATCAGCGAGTTGGTGGCCGAGTCGGCCTGGATCATCCCGCCCGGCTGGTTGTCGTCGCCGCTCTTGTCCTTGTCACCGCCGAGCAGGCCGCCGGTACCGAGGCCACCGCCGGACGAGCCGCCGCCATACCCGGACGACGACGACGAACTGCCCAGGCCGCCCGACGGCAGCGGCGGGGTGCCCGACGTGCCGGTCGAGAAGTTGCCGCTCGACGACGAGCCGCCGTTCTGGTTGAAGCTGTTCGCATCGTTGGACGACGCCGACGAGCCGCTGTCGTTGCCGCCCTTGCCGAGCATCCCGCGCAGCGTCTTCGCGAGCTTCACCGCATCGGCGTTGCGCAGCGGCACGACATGCATGTTGCCGGGCACCGCGCTCGGCGCGTCGAGCTGCTGCACGAGACGCTTCGCGGCCGCGAGGCGCGACGCGTTCGACGCACGCAGCAGCAGCGCGTTGGTGCGCGGGTCGGCCGTGACCGATACCTTCAGCGTCGCGTCGCTGTTGCCGATCGCGCCCGGGTCGAGCATTTTCTGCAGTTGCGCGGCGAGGTCGATCGCGTTCGCGTTGCGCAGCGGCACGACCTGCACCTGCGCGCCCGCGGCGCTGTCGACGCCCGCGATGATCTGCGCGATGCGGCGCACGTTGTCCGCATAGTCGGTCACGACGATCGTGTTGTTCGCCGGGTAGGCCGTCACCGTGTTGTTCGGCGAGATCAGCGGCCGCAGCACCGGCAGCAGGTTGTTCGCCGATTCGTTGTGCAGCTCGAACACCTGCGTGATCACCTGGTCGCCGCGCGCCTGCGGCGCATTGCCGATGTAGGTCGGCACGCCCTGCAGCTTCGCGTCGGCTTCCGGCACGACCTTCAGCACGCCGTGATCCTGCACGAGCGCGAAGCCCTGCATGCGCAGCGCCGACTGCAGCGTCTTCAATGCCTGGTCTTCCGGCACCGGCCGTTCGGCCACGAGATTGAGCTGCCCCTTCACGCGGGGGTCGACGATGATGGTCTTGCCGGTCGCGGCGCCGATCGCTTTCGCGACCTGGTCGATATCCGCATTCACGAAATTGAGCGTGACCTGAGCGTAGGCGGCCTGCGAGACGATGATGCCTGCCACGAGCAGGGTCGTGGCGATACGCCGCATAACGAAGCGATTTCTTGTCATGGATGAATGGGTCGATGCCGGCTCAGGCCACTTCCGGCGGTAGTGCTGGGATCCAAGTCCGAAAGAGGCGACATTAGCAGTTTTTCATGTCCGAAATATCACATTGATCCGAAGACTGTCTCACATACGACAGGTATCCGACGAATCGTATGCAAGATGTAAGGATAGGTGTAACCCTCCGCACGCCGGCCCTCTCCCTGGTTTTCGCGATGAACCGACACGGAAATGCGGTATAACCGGGCTGCCGTATTCCTGCCTGTCGCAATCTGACGGTCTGCCGGTATGATACGGGCGGCGCGTTTCTCGTCGCACTAATAACAGGCACGGGTTTTCCCGAGCTTCGCGCAATTTCCTTTCGTTTCCGCACGATGAACAGACGGTTCGCTTCGATCGCGTTGATCGCCGCCGGCGCGTGGTTCGCCAGCGGCAACGCACGCGCCGACTGTTTCGACGAAGCGGCCAAATATCAGCAGGTCAATCCGCTGATCCTGCGCGCGATCGCGTGGCAGGAATCGCGCAACCGGCCCGAGGCGCTGAACAAGAACACGAACGGCTCGGTCGACTACGGCCTGATGCAGATCAATTCGATTCACCTGCCGACGCTGTCGCGCTACGGGATCGGCCGCGACACGCTGATGGAACCGTGCAAGAACGTGTACATCGCCGCGTGGCATCTCAAGCAGAAGATGAACCGCTACGGCAACACGTGGCAGGCGGTCGGCGCCTATCATTCGGAAACGCCGTCGCTGCGCGACAAGTACGCGCGGCAGATCGCCGGCATCCTGACGCAATGGAAGCTGCTGCCGCCCGCGCAGACCACTCAGGCCGCCCAGGCCGCTCAAGCGCCTCAAGCCGCTCAGTGATTCCGCGCCGCGTCGCCGGCTGACGCCGGGCCGGCCGCGCGCGTTTGATGCACAATGCGGGCTGACGCCGCCGTTTCGCCCGTGCGCGGGCCGATCGCGCCCCGGCAGGGCGCCGCGGCCGCTTTTTCATCTCTTCCGTTGGTGCATATCATCATGAATCCGGCAATGAAACAGCCGTTGCCCGTCACCGTGCTGTCCGGCTTCCTCGGCGCCGGCAAGACCACGCTGCTCAACCACGTCCTCGCGAACCGCGCGGGCCTGAAAGTCGCGGTGATCGTCAACGATCTCGCGGCGGTCAACATCGACGCGTCGCTCGTGCGCGATGCGCAGGCGCTGTCGCACGTCGAGGAACGCCTCGTCGAAATGTCGAACGGCTGCATCTGCTGCACGCTGCGCGACGATCTGCTCGTCGAGATCCGCAACCTTGCGTCCGAAGGCCGCTTCGACGCGATCATGATCGAATCGACCGGTATCGCGGAGCCGATGCCGATCGCCGAAACCTTCACGTTCGTCGACGACGACGGCGCGTCGCTGTCAGCCATCGCGCGGCTCGACACGCTCGTCACCGTGGTCGACGCGTACAACTTCCTGCGCGACTACGGCTCCGACGACGCGCTCGCGACACGCGGCATCGCCGCGTCGGAAGACGACGACCGCACGCTCGTCGAGCTGCTGATCGAGCAGATCGAATTCTGCGACGTGCTGGTGATCAACAAGGCCGACCTCGTCGGCGCGGACGATCTCGCCCGCCTGCAGCACATCCTCGCGCGCCTCAATCCGCGCGCGCACCAGGTCGTCTCGACGTTCGGCAACGTGCCGCTCGACGAAGTGCTGAACACCGGCCGCTTCGATTTCGACGAAGCCGCGAACGCGCCGGGCTGGCTCGCATCGCTCGATCACGATCACACGCATTGCGACGACCCGGACTGCCATGACGACCATCATGCGCACGTGCACGGCGAAGCCGACGAATTCGGCATCGGCAATTTTGTTTACCGCGCGCGCCGGCCGTTTCACCCGGCACGGCTCTGGGCGCTGCTGCATCAGGAGTGGCCGGGCGTACTGCGCAGCAAGGGTTTCTTCTGGCTCGCGACGCGCAACGACATCGCAGGTTCGCTGTCGCAGGCGGGCGGCGTATGCCGGCATGGCCCGGCAGGTTTGTGGTGGGCGGCGCAGGATCGCGCGGAATGGCCGGACGACGACGAGCTGCTCGCTGAAATCCGCACCGAATGGCTCGGCGATCTCGACGATCGCACGGTCGGGGATCGTCGCCAGGAACTCGTGCTGATCGGCATCGCGCTCGACGCCGATGCATGGCGCGCGAAACTCGATGCATGCCTGCTGACCGATGCGGAGTTCGCACTCGGTGCAGCGGGATGGGCGGCGTTCGACGATCCGTTCCCGGCGTGGGACGTCGATTCGCACGACGACGACGATCACGGCGACACGCAGATCGTGCACGCATGATCGCGTGGTAACGGCTTGTAAAATAACCGTTAACTTTTGCAAGAGCGGCGCGAACTGTGGCGAAAATGCCGCGCGCGCCCAACAAAAAACCCGCCGAGAGGCGGGTTTTTCATGGAACAGGCGCGGGTTTAACGCTTGTTGACGGCGTCCTTGAACGCCTTGCCAGCCGTGAACTTGACCGTCTTGGCTGCCGGGATCTTGATGGTTTCGCCCGTCTTCGGGTTGCGGCCCGTACGTGCTGCGCGCTTGCCCGAACCGAAGCTGCCGAAGCCGATCAGCTGAACCGCATCACCCTTCGACACGGCCTTCTTGATGACTTCGAGCAGCGTGTCCAGCGTTTCGCCGGTTTGAGCCTTGCTGGCGCCCGTTTGGGCGGCGACGGCGTCGATCAGTTCCTGTTTGTTCATTAAGGTTCCTTTATCAGGTTAGGTTGACACGAACAGCGCGAACGCGCCGATTATACGTGCGCGAACCGTGCCGTCGAGAGTCAGACTCCGACGACACAGCGCCGAATCCTGGCCCGCGCGACGCGCCCTCCGGCTTGCCGGCGGCCACCCCGCGGTACGGCGTTGCTATGATAGCGCAGCGCAAACCCAATAACGACAAGGGTTTCAAAGATTTTCATCGGTATTTCGCCGAATGAATCGTCGACTGCCCGTTTTTTGACCTGCGCCAACCGGACAGGGTCCGCGGCGTGGTCCGCCCGATCGTCGCGCCGTTGCCCCTTTCCAACGGCCGGTTGGACGGCCTCCCGCAATCCCTTGCCAGGCTTGGCTGCCACGTTTTTTGTTTCGCATGCCCGACCGACTTGTTTCCGCCACGCTCGCGCTTCGCGACGACGGCACGCTCGTCTCGCCCGAGTTCGGCGAGCTTCATCGCGGTGCATCCGGCACGCTCGCTCGCGCGCATCGCACGTTCGTCGCGGGCAACGGGCTGCCCGCGCGCTGGCAGCGCCGCCGAACGTTCACGATCGTCACGACCGCGTTCGGCGCGGGCGCCGGCTTCCTCGCGGCCTGGGTCGCGTGGCGCGACGATCCCGCGCGCTGCGAACGGCTGCACGTCGTCGCGGTCGAACCGCATCCGTTCTCGCGCGACGACCTGCACCGCGCGGTCTCGCATATGGTTGTAGACACAACCATATCGGCAGACGTCGACGCGTTGCTCGATGCCTGGCCGATACTCGTGCCGGGCCTGCACCGGCTCGAATTCGACGAAGGGCGCGTGGTGCTCACGCTCGCGTTCGGCGATACGATCGACTTGTTGAAGAAGCTCGTCGCGCGCGCCGATGCGTTTTTTCTCGACGGCGCCGCGGCATCGGGCGACGGGATTCGCGCACTCGCGAAACTCGCCGGCGAACACGCGACGTTTGCGACGCATGCAAAGTCCGACGACGTGAAACACGCGCTCGGCGA 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 CGCGGTTTCACGCTGATCGAGATCATGGTGGTGGTCGCGATCCTCGGGATCCTGGCGGCGCTGATCGTGCCGAAGATC 
 >PredictedProphage1 -Hit 2 
 GACAACCAGCCGGGCGGGATGATCCAGGCCGACTCGGCCACCAACTCGCTGATCATCACCGCGTCCGATCCGGTGTACCGGAACCTGCGCTCGGTGATCGACCAGCTCGACGCACGGCGTGCGCAGGTCTATATCGAAGCGCTGATCGTCGAGCTCAACTCGAATACGTCCGGCAACCTCGGCATCCAGTGGCAGGTGGCGAGCGGCCAGTTCCTCGGCGGTACGAACCTGAATCCCACGGGCGGTTTGGGCAACAGCATCATCAACCTGACGACGGGCGGCACGGCGGCCACCGCCGGGTTGGCCGCCAATCTCGCGAACCTGAACCAGGGCCTCAACATCGGCTGGTTGCACAACATGTTCGGCGTGCAGGGGCTCGGCGCGCTGCTGCAGTATTTTGCGGGCGTGAGCGACGCGAACGTGCTGTCGACGCCGAACCTGATCACGCTCGACAACGAGGAAGCGAAGATCGTCGTCGGCCAGAACGTGCCGATCGCGACCGGTTCGTATTCGAACCTGACGAGCGGCACGACGAGCAACGCGTTCAACACCTACGACCGTCGCGACGTCGGCCTGACGCTGCACGTGAAGCCGCAGATCACCGACGGCGGGATCCTGAAGCTGCAGCTCTATACCGAGGATTCGGCGGTCGTCGCCGGCACGACGAACGCGCAGACCGGCCCGACCTTCACGAAACGCTCGATCCAGTCGACGATCCTGGCCGACAACGGCGAGATCATCGTGCTCGGCGGCTTGATGCAGGACAACTACCAGGTGTCGAACAGCAAGGTGCCGCTGCTCGGCGACATCCCGTGGATTGGCCAGTTGTTCCGCTCCGAAACGAAGCAGCGCGCGAAAACCAACCTGATGGTGTTCCTGCGCCCGGTGATCATT 
 >PredictedProphage1 -Hit 3 
 ATGCGGCGTATCGCCACGACCCTGCTCGTGGCAGGCATCATCGTCTCGCAGGCCGCCTACGCTCAGGTCACGCTCAATTTCGTGAATGCGGATATCGACCAGGTCGCGAAAGCGATCGGCGCCGCGACCGGCAAGACCATCATCGTCGACCCCCGCGTGAAGGGGCAGCTCAATCTCGTGGCCGAACGGCCGGTGCCGGAAGACCAGGCATTGAAGACGCTGCAGTCGGCGCTGCGCATGCAGGGCTTCGCGCTCGTGCAGGATCACGGCGTGCTGAAGGTCGTGCCGGAAGCCGACGCGAAGCTGCAGGGCGTGCCGACCTACATCGGCAATGCGCCGCAGGCGCGCGGCGACCAGGTGATCACGCAGGTGTTCGAGCTGCACAACGAATCGGCGAACAACCTGCTGCCGGTGCTGCGGCCGCTGATCTCGCCGAACAACACGGTGACGGCCTACCCGGCGAACAACACGATCGTCGTGACCGACTATGCGGACAACGTGCGCCGCATCGCGCAGATCATCGCGGGCGTCGAC 
 >PredictedProphage1 -Hit 4 
 GCGGCCAAATATCAGCAGGTCAATCCGCTGATCCTGCGCGCGATCGCGTGGCAGGAATCGCGCAACCGGCCCGAGGCGCTGAACAAGAACACGAACGGCTCGGTCGACTACGGCCTGATGCAGATCAATTCGATTCACCTGCCGACGCTGTCGCGCTACGGGATCGGCCGCGACACGCTGATGGAACCGTGCAAGAACGTGTACATCGCCGCGTGGCATCTCAAGCAGAAGATGAACCGCTACGGCAACACGTGGCAGGCGGTCGGCGCCTATCATTCGGAAACG 
 >PredictedProphage1 -Hit 5 
 ATGAACAAACAGGAACTGATCGACGCCGTCGCCGCCCAAACGGGCGCCAGCAAGGCTCAAACCGGCGAAACGCTGGACACGCTGCTCGAAGTCATCAAGAAGGCCGTGTCGAAGGGTGATGCGGTTCAGCTGATCGGCTTCGGCAGCTTCGGTTCGGGCAAGCGCGCAGCACGTACGGGCCGCAACCCGAAGACGGGCGAAACCATCAAGATCCCGGCAGCCAAGACGGTCAAGTTCACGGCTGGCAAGGCGTTCAAGGACGCCGTC 
 >PredictedProphage1 -Hit 6 
 TCGCCGAGCGCGTGTTTCACGTCGTCGGACTTTGCATGCGTCGCAAACGTCGCGTGTTCGCCGGCGAGTTTCGCGAGTGCGCGAATCCCGTCGCCCGATGCCGCGGCGCCGTCGAGAAAAAACGCATCGGCGCGCGCGACGAGCTTCTTCAACAAGTCGATCGTATCGCCGAACGCGAGCGTGAGCACCACGCGCCCTTCGTCGAATTCGAGCCGGTGCAGGCCCGGCACGAGTATCGGCCAGGCATCGAGCAACGCGTCGACGTCTGCCGATATGGTTGTGTCTACAACCATATGCGAGACCGCGCGGTGCAGGTCGTCGCGCGAGAACGGATGCGGTTCGACCGCGACGACGTGCAGCCGTTCGCAGCGCGCGGGATCGTCGCGCCACGCGACCCAGGCCGCGAGGAAGCCGGCGCCCGCGCCGAACGCGGTCGTGACGATCGTGAACGTTCGGCGGCGCTGCCAGCGCGCGGGCAGCCCGTTGCCCGCGACGAACGTGCGATGCGCGCGAGCGAGCGTGCCGGATGCACCGCGATGAAGCTCGCCGAACTCGGGCGAGACGAGCGTGCCGTCGTCGCGAAGCGCGAGCGTGGCG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 RGFTLIEIMVVVAILGILAALIVPKI 
 >PredictedProphage1 -Hit 2 
 DNQPGGMIQADSATNSLIITASDPVYRNLRSVIDQLDARRAQVYIEALIVELNSNTSGNLGIQWQVASGQFLGGTNLNPTGGLGNSIINLTTGGTAATAGLAANLANLNQGLNIGWLHNMFGVQGLGALLQYFAGVSDANVLSTPNLITLDNEEAKIVVGQNVPIATGSYSNLTSGTTSNAFNTYDRRDVGLTLHVKPQITDGGILKLQLYTEDSAVVAGTTNAQTGPTFTKRSIQSTILADNGEIIVLGGLMQDNYQVSNSKVPLLGDIPWIGQLFRSETKQRAKTNLMVFLRPVII 
 >PredictedProphage1 -Hit 3 
 MRRIATTLLVAGIIVSQAAYAQVTLNFVNADIDQVAKAIGAATGKTIIVDPRVKGQLNLVAERPVPEDQALKTLQSALRMQGFALVQDHGVLKVVPEADAKLQGVPTYIGNAPQARGDQVITQVFELHNESANNLLPVLRPLISPNNTVTAYPANNTIVVTDYADNVRRIAQIIAGVD 
 >PredictedProphage1 -Hit 4 
 AAKYQQVNPLILRAIAWQESRNRPEALNKNTNGSVDYGLMQINSIHLPTLSRYGIGRDTLMEPCKNVYIAAWHLKQKMNRYGNTWQAVGAYHSET 
 >PredictedProphage1 -Hit 5 
 MNKQELIDAVAAQTGASKAQTGETLDTLLEVIKKAVSKGDAVQLIGFGSFGSGKRAARTGRNPKTGETIKIPAAKTVKFTAGKAFKDAV 
 >PredictedProphage1 -Hit 6 
 SPSACFTSSDFACVANVACSPASFASARIPSPDAAAPSRKNASARATSFFNKSIVSPNASVSTTRPSSNSSRCRPGTSIGQASSNASTSADMVVSTTICETARCRSSRENGCGSTATTCSRSQRAGSSRHATQAARKPAPAPNAVVTIVNVRRRCQRAGSPLPATNVRCARASVPDAPR_SSPNSGETSVPSSRSASVA 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig273

Genome size:  182494
Host's GC content:  67.93
Predicted Codon Position GC:  	1st:  68.68	 2nd:  45.04	 3rd:  82.63

 >PredictedProphage1 
 Length:   10421 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 67.11 	 68.60 	 67.54 	 48.97 	 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	0.7
 Glu	GAA	9	0.3
 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	0.119402985074627
 Gly	GGA	5	0.0746268656716418
 Gly	GGT	2	0.0298507462686567
 Gly	GGC	52	0.776119402985075
 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
 113676	114521	-1	ref|NP_945089.1|gp58 	120bits(302)	3e-26
 115752	116099	-1	ref|NP_612844.1|Gp15 protein	67.0bits(162)	6e-10
 116250	116420	-1	ref|NP_690779.1|ORF46 	37.7bits(86)	0.36
 120784	121185	1	ref|NP_064745.1|gp7 	40.8bits(94)	0.042
 123230	124096	1	ref|NP_945089.1|gp58 	53.1bits(126)	8e-06
 
 DNA sequence:
 GATCCAGTCGCTGAACGCGCGGATCTTCTGCTGGCTGCCGAGGTTCTCGGGGTAGACGAAGAAGTAGCGTGCGCCGGTTTCGAGCACGATGTCGAACGGCCGTTCGAGTCGGCGCGCGCTGACGTCGTCGTCGACGAGCGTCACGTCGCCGATCGCGACGCCGAAGCCCTGCATCGCCGCGTTCGTCGCGAGATCGAGCGTGTCGAACGTCGGTCCGCGCGCGGGATCGACGCCGCGCTCGCCCGCATGGTCGAGCCATGCACGCCAGTCGCGGTGGTCGCGCGTCGGATGCAGCAACGTATGGCGCGCGAGATCGCCGACCGCGCCGAGCGGCGACGCCTGCCGCAACTCGGGTGCGCACACGGGTGTCAGCCGTTCGTCGAACAGCGGCAGCGCGACGACGCCGGGGCCCGGCGACGTCCCGTAGACGATCGCCGCATCGAACGGTTCGCTCGAGAAATCGACGACGTGCTGCCACGCGGTCGTGATCTGCACGTGGAGATCGGGATGTTCGCCCTGGAAGCGCATGATGCGCGGCAGCATCCAGCGCATCACGCAGGTCGGCACCTTCAGCGCGAGATCGGTGCGCTGCCGCGTGAGCTTCATCGAGATGTCCTCGATCCGCGCGAAGCTCTCGTCGACCACCGGCAACAGTTGCTCGCCTTCCGCCGTCAGCGTGAGGCCCTTCGCATGCCGCTTGAACAGCGGAAACCCGTAATGCGCCTCGAGCGTCTGGATCTGCCGGCTCACCGCGCCCTGCGTGAGGCACAGCTGCTCGGCCGCGCGCGTGAAGCTGCGGTGGCGAGCCACCGTCGAGAAGATCTGCAGCGCGTGCAGGGGCGGAAGTCGGCGCATGGCGAACGGGAAACGGAAAACGGCGCGGAAGGACCGCGCGCCGGCGTCGGCGCGCGCTGACCGACACGATAAGCCAAACGCCGGCTTTGCGCGAGACGCCGAAAATTCAGGTCGTCGCGGTGAGCGCGCCCGCCGCGATGCGCGCCGCCGACGCGACGACGTCCGCGCGCGCCGCGGCATCGGCCTGCGGCTGCGTGAACGACACGGCCATCACGATCGGCGCGCGCGACGGCGGCCACAGCACCGCGATGTCGGTCGTCGTGCCGTAGCCGCCGGTGCCGGCCTTGTCGGCGACGCGCCAGCCGGGCGGCACGCCCGCCGCGATGCCGGTCGCCGCGCGTGCGCCGCCCGCCATCCATTCCGTCAGTTGCGCGCGCTGCGGTTCGCGCAGCGTGTCGCCGAGCAGCAGCCGCTGCAGCGTGTCGACCATCGCGACCGGCGTCGACGTGTCGCGCTCGTCGCCGGGCGCGGCCTTGTTCAGCTCGGGTTCCCAGTGATCGAGGCGGAAGGTGGTGTCGCCGCTTTCGCGCGCGAACGCCGTGACGGCCTGCGGACCGCCGAGCACGCCCATCAGCAGGTTGCCCGCGCCCTTGTCGCCCGACTGCAGCATCGCCGCGCACAGCTGCGCGATCGTCATGCCGGTGTCGACGTGGCTTTCCGTAATCGGCGAGCCCGACACGATTTCATAGCGGCGGTACAGGATACGGCGCGGCAGCAGCGACGCGTCGAGCGAGCCGCGCGCGAGCATCGCGGCGGCGGCCATGACCGCATACGTGCCGCACAGCGGGAAGCGTTCGCGCGCATGGTGCGCGATGCGCACGCCGTTCGACGTATCGAGCGCGGCGACGCCGAGCCGCCCGTTCGAGGCTTTTTCGAGTGCGGCGAGTTCGGCCTGGGCAGTATGGGCGCGCCCCTGGTCGGCGACCGGCGCGGACGTGCACGCGGCAACGAACGGCGCAGCCACGGCGGCAAGCAACAGCGAGCGGCGAGTCGGAGAATGTTCCATGGATGAGATCTGTTCTGTCGGAAACGGTGGCGCGAAGCAACGCGGCCGCGCATCGGCGACGCGCGACCGTTCACGCCGACGGCCGGCCCGCGACGGCATTCGCCGCGCTTCCCCGAAAGACGCCCGTCGGCCCCGCGATAGCGGGATTCGCATGAACAAACCTTAGCGTAGCAGTGACCGCCGTCGCGTTCCAGCGAAACGGCCGCGCTTCACCCTTGCGACGAAGGCAGGTACGGCATCGGATTCACCGGCTTGCCGTCGCGTCGCACCTCGAACAGCAGCGCGACGCGCGAGTTGTCGAGGTCGCCCATCTCGGCGATCGCATCGCCCTGATGCACGATGTCGCCCGTCTTCACGAGCAGCTTGCGGTTGTGCGCATAGGCGGTCAGGAAGTCCGCGTTGTGCTGGACGATGATCAGGCTGCCGTAATCGTTCAGGCCGGTGCCTGCGTACATCACGCGGCCGTCGGCCGCGGCGCGCACCGGGTCGCCCGGCCGGCCGGCGATCTGGATGCCGCGGTTCTGTCCGGGCTTGAACCCGTCGACGATCTTGCCGGTTGCCGGCCACTTGAGCGCGACGCCGCCCGCATGGCGCTTCGTTTCCTTGACGACCTGGCGATCGCTCGCGGTCGATGCGCCGGCCTGCGAAGTGGCCTGCGCGGTGGTCTGCGAGTTGCCCTGACTACTCGCCGCGCCATTACTCGCGACAATCTGCGTGCCGGCCGCGCCCGCGGGCGGCAGCGGCTGCTGCTTGACGATGCGCAGTACCTGCCCCATGCGCAGCCTGCCGTTCGCGGCCAGCTTGTTCCAGGTGCGCAAGTCGGCCACGCTGCAATCGTTCGCGGAGGCGATGCCAGTCAGCGTGTCACCGCGTTTCACGACGTACTTTTGCGCGACGAGAATCGGTGCGGCCGGCATCGGCGCGGCCAACTGCGCGGCAGGCGGGCTCGTATCAGCGGGTTTTCCCGCCAGCGTGTCGCTCGGCGGAACGGACTGCGTACTTGCACAACCGGCCATGACGAGCACGGCGGCCAGGCCCGACAGCCACGCCGCCTTAGGGTGAATCTCGCGCGTTTTCATGGACGATCCGACTCCGGTTTGACAATCTTTCAAGCATCTCAAAAACGGAACGGCCGACGTGTAACCGGATGCAAACAATGATGACAAACGATCACGGACCGGATGCCGGCCGGCATTCGCTACCGGTAATACGGTCCGACCCGGAAAAACTTGATGGTCTTTTCGCTGAAGAACGGAAGAATTTTCGTCGTCAAAAACTATGGCCCGCTGATTTCAATAGGCGCGATCCGCGACATTCACCGCAACCATGCGACGATTTCGGCTGCGGCCCACGCGATGCCAATGCACAGGAACAGCAGATGCAACGCGATCTTGAACGACACGCCCCATGACGAATCGATCCGCATGACAGGCTCCCCGGTTGATGTGCGCCCATCATCGGCCGCCGATCGCACCCCGAAAATGCGGAAGCGACGAACCAGGCCTCAAGCTGCCCCTGAGACCGGCGCGGCGGTTCCTGCTAACTTATCGGCCATCCCCACCCATCGCTCCGCCCATCATGCGCTTCGACCTGACCGACCTGCGGCTCTTCCTGAACATCTGCGAAGCCGGCACGATCACGGGCGGCGCCGAACGCACGCACATCACGCTGCAGGCCGCGAGCGAACGCATTCGCGGGATGGAGGACGAACTCGGCGTGCCGCTGCTGCACCGGACCAAGTCTGGCGCGCAGGCCACCGATGCGGGCCGCGCGCTCGAACACCACGCGCGCACCGTGCTGCAGCAGATCGATCACATGCGTGGCGAACTGCAGCAATACGGCCAGGGGCTGCGCGGCCATATCCGGCTGCTGTGCAACACCGCGTCGCTCAGCGAATACCTGCCCGACGCCCTGGCCGATTACCTGCCGAGCCATCCGAAGCTGTCGATCAGCGTCGAGGAACGCTCGAGCCAGGAGATCGTGCATGCGATCCGCAACAAGACGGCCGAGGTCGGCATCGTCGCCGATTCGGTCGGGCTCGGCGGGCTCGAACAGCAGCCGTTCCGCGAAGACTGGCTGATCGTCGTCGTGCCGGCTGCGCATCCGCTCGCGTCGCACGACAAGGTCGCGTTCGACGACATCGCCGACGAAGACTTCATCGGCCTCACCGACGGCAGCGCGCTGCAGGTGCATCTCGCCGATCAGGCGCGTGCGATCGGCAAGCGGATTCGTTATCGCGTGCAGTTGAAGAGCTTCGACGCGATCTGCCGCGTGATCGCGAGCGGCGTGGGCATCGGCATCGTGTCGCGGCATGCGGCCGAGCGCGCGATGCTCACGATGGACGTGCGGCTCGTCGAGCTGTCCGATCCGTGGAGCCATCGGAAACTGACGCTCTGCGCGCGGTCGTTCGACGCGCTGCCGAAGTACACGCGCGAGTTCGTCGCGTTCCTGTCCGGCGGCGCACCGCCGCGCTGACGCGCGCCGCATTCGCGTCGCCCCATCGACATACGGAGGCATGACCATGACCGATACCGATCTCGCCACCCGCTATCGCGCGTATATCGACTGCCTGAACCGGCAGGACTGGACGGCGCTCGGCGAGTACGTGTCCGACGACGTGATCCACAACGACCGGCCGCTCGGCCTCGCCGGTTACCGCGCGATGCTGGAACAGGACTTCCGCGACATTCCCGATCTGCGCTTCGACATCCGGCTGCTCGTGTGCGAGCCGCCGCGTGTCGCGTGTCGCCTTCGCTTCGCGTGTTCGCCGAAGGGGACGTTCATGGGGCTCGCCGTCGACGGCCGCAAGGTCACGTTCGCCGAGAACGTGTTCTACGAATTTCACGAAGGCAAGATCCGCCAGGTGTGGTCGGTGATCGACAAGGCGGCGATCGAGAAGCAGCTTTGAACGTCGTCGAAACGGCGCGGCGTCGCGCGCGGCGGCCGGTGGTCAGGAATGCCTGAATGCACTTCGATTCTTATGGATAACGTTTTCTCTCATTACGTATCGAGAATCGGTTTCCAGGTCACGCTCCGGCCGCCGCTTCAAAGCGCGATTTCTCTCACCCGATGACCATTCGATCAGCAACGAAAATCCTGGCGATTTTCGCATAAGACCGATTTCCCCTCCCGCACTATCCGCTGCCCGCCATTCGGGTTTCTACCGGCGCATCCGATGTGAAAGTTCATTGACATCACGCGGATGGATGCCTAAATTTGGAAAACGTTTTCCAATGCTCGAGCGCGACGCCGGTCATGGCCCGCGCAGGGGGAACGCTTGCCTGCTCGATTTGCGATTCAGGCCGTCCGCCTTCAGGGATCAGGGTTTGCAAGGGCGGCAGCCGGGTACGGGCATCGAGCACGGCATCGGCCACACATGCCCGTGCTTCACCACTATTCAAAACTGGAGACACCATGCATCCGCGCAGCAGATTCGCGCTCGGCGCCGCGCTCAGCGCCCTTTCCGTCGTGTTCGTCAGCGCGTGCGGCGGCAACGACGTGACCGACACGCCGCCATCGCCCCCCTCGTCGACCACGCCCACCACGCCCACGCTCGCGTCGAACTCGTTGCAGGCGCTCGTCTATGGCGCGCCCGACACCAGCGTGCCGGCCGGCACGAACATCCCGGTCACGATGATGGGCCAGATGCGCGCGCTGTTCGACCTGATCCGGAAATCGCCCGATTTCACGCAGGTCGTGATGGATCTCGGCGACGGCACGCCCGTCCACGTGCTCGACACGAACACCGGCGACAAATTCCTGCCCGGCAAGCTCGCGCTCGGCCTGTCGTACATCCTGATCGACATGAAGTCGAAGAACGACCCGCAATACGCGAGCTACCTCGCGACGTACCAGACGATCACGACCGCGATGATGGCGCAGTCGGGCAGCAACTACACGTATGCGAACACGTCGTGGGGCGAGTACTACTACCTCGTCGCGCTGAACAACCTGAAGGCGCACGGGATGCTCAACGAAGTCTTCAGCGACGCGATGCTCGCGACGCTGCAGCAGCGGCTCACCTTCTGCGACATGTTCGGCCCGGATGCGAGCGGCAAGACCAGTACATGCCCGGCGGCCGGCACGCCGATCGACATCGCGTCGCTCAACACCGCTCAGAACTACTACGCGGTGTCCTACGGCATTGCCGGGCTGCGCCAGAAGCTCGGCTGGAGCAGCCCGTCGTTCGCATCGAAGACCGATCCGGCGGTCGCCGCGATGAGCGCGCGCGACGCGCTGCTGTACACGCTGACGAACCACATCCGCAACGACTCGTCGGGCGGGTTCTCCGACGAAGCATCGAACACGCACACGACCTATTACGACCAGGCGCGCTTCGACCGCTACAGCACGCTGCTGATCGGCGAAGTGGTCGAGCGCACGTTCGAGATGGGCAACGAAGCAAACCTCACGCCGGAGCTGAAGGGCTATCTGCGCAAGTCGGTCGACCTGATCCTGCCGCAGCTGAACGCCAACGGCCAGGGCTTCAACTACGGCCGCTCGATCGGCCCGTACGGCGATTCCGCGTTCATGGAGGTGCTGACGGCCGCGGCCAATGCCGGCGTGCTGACCGATCGCGAGAAACAGGTTGCGTATGCATTCATCTACCAGGCCGCGCGGCGCTTCGACACGTACTGGTACGACCCGTCGCTGCCGACGCCGTCGGTGAACATGTGGGTCAAGGGCCGCGGCACCGACACCTATCGCGGCAAGCCGCGCGTGATGGGCGAGAACTTCAGCCTGCTGCACCAGTACCTGTACGTGAACGCATGGTGGAACAAGCTCGGCTTCGGCGGCCAGGCGCCGATGGCCGATGCGGACTACCGCGCGTGGCTCGACGCGCTGCCGCGCTACACGCTCACCTGGTACAACCAGCCGGGCGACGCCGCGCATCCGTACAGCGCCGCGCTGCTCACCGTGCGCGACGGCCGGCGCGTGATCAACCTGAACCTCAGCCAGGCGCCCGACTACGACTCGTACACGCCGTATTACCCGGTGCCGTTCTCCGACAAGCTGATCTACGGCACGACCGACCTCGGCTATGCGCTGCTGGTGCCGCAGGTGACGTACAACGCGAAAACCTACATTCCGGTCACGTACTACAAGAACCTGAACGTGCAGCAGAGCAACGGCCAGGTGATCGTGTCGTTCGATACGACGAAGTTCCGCCTCGCGTCGAAGAACGCCGCGTACACGACGGATCTCGACCTGCAGGTGCACACGGTGCTGACCTTCGCGCACGGCACGGTGTCGCGCAGCGATACGCTGAGTTCGGGCACGCTCGCCGGCAACCTCGCGATCGAGACGGACTTCACGTCGTTCGCGGATTTCGCGTCGACGCAGGCCAACGGCGACGGCGTATCGGTGACGTACGCGAACAGCGCCGCGACCGGCTATGCGACGTCCGGGTTCGACAACTGCGCGCTGTCCGCCTTCGACACGGCGAACGGCGCGACGAATCCGCTGTCGACGACGCCGATCGGACAGTTGCATTCGAACTTCGCGTGCACGACGAAACCGTTCGCACTCGGCGCGGGCGCGACCCGCACGGTCGGGTGGACGCTGAAGTACGCCGATCCGGCGTGAACGGCGCGAACGTCATGCCGTGACCGTTCCCGAAGCCGGTTGCCGAAACCGGCTTCGGGATCATTCAGCGGCCGGAGGCACGTTCACCGCCACCCCGACCCCGCCATATACGCGCCGAGCGCGATCAGCCCGATGAAGAAGCAACGCTTGAACAGCTTCTCGCTCATCACGCGCCGCGCATATTGGCCGCCGGCCATCCCCGCCAGCGCGGGCACGAGCGCGAGCGCCGACACGCCGAGATCGACGGTCTGCAATACGCCCGTCACACGCAACTGAAGGCCGAGCACGATCGTCGACGCGGTAAACGACAGCCCGAGCGCCTGGATCAGATCGTCCTTCGACAGACGCAGCGCCTGCAGGTACGGCACCGCCGGTACGACGAACACGCCGGTCGCGGCCGTCACGACGCCCGTCAGGTAGCCGACCCCGGCCGACAACCATTTTTCATGGCGCCCCGGCGCGGGCAGCCGCGCCGCCGCCAGCCCCCACAGCCCGTAAAGCACCAGCACGACGCCGAGCGCCGCGTGCGTCCACGTGCTGCCGGCCGCGAGCGCCGGCAATCCGCCCGTCAACGTGCCGACCGTCAGGCCGGCGAGCAGCGGCCACAGCCGGCGCAGCAACGCGCCGAACGACGGACCGAGCCACAACTGCCACACGTTGGTGACGAGCGACGGCACGAGCAGCAGGCTCGCCGCGGCCGACGGCGGCATCGCGAGCGTCAGCAGCCCCATCGCGATCGTCGGCAGCCCGAGCCCGATCATCCCCTTCACCGCGCCGGCCAACAGGAAAACCAGCACGACGATCGTCAGCGTATGAATCTGCATGGCAGGCATTCCGTCGTTGAGTACGGCGCCGATGATGCCTGCCCGCCCTGCCGCCCGCCATCTGGCTTTGCCTGAGGCTGGCTCGGGCCGGTTGGCCGGGGCTGTCAGGCCCCGGCGATCCGGCCCCGTGGATCACCCCCGGCCCTGCTCGCTGTCGAGGTGCGCCATCTGCGCGGCCGGATAACGCTCGCCGGCCGCCGCCCCGGCGGGAACCGCCGCTTCGATGCGTTCGAGGTCATCGACCGTTAGTTGCAATTTAGTTGCCAGCAAACCGTCCTGCAGTTGGGTGCGCTTGCGCGCGCCGACCAGCGGCACGATGTCGGCGCCGCGCGACAGCACCCACGCGATCGCGACCTGCGCCGGATTGCTGCGCTTCTCGTCCGCGATCGCGCGCAGCGCATCGACCAGCGCGAGGTTGTGCGCGAGGTTCTCGCCCTGGAAACGCGGGCTGGCCGCGCGGAAATCGCGCTCGCCCTGCCGCGCCGCGCTCCAGCCGCCGCCGAGCAACCCGCGCGACAGCACGCCGTACGCCGTCACACCGATCCCGAGTTCGCGGCACGCGGGCAGGATGTCCGCCTCGATCCCGCGCGACAGCAGCGAGTATTCGATCTGCAGATCGACGATCGGCGCGACGGCGGCCGCGCGGCGGATCGTGTCCGCACCGACTTCCGACAGCCCGATATGACGCACGTACCCGGCCTTCACGAGATCGGCGATCGCGCCGACCGTTTCCTCGATCGGCACGGCCGGATCGACGCGTGCCGGCCGGTAGATGTCGAGGTAGTCGGTGCCGAGCCGCTTCAGCGAATACGCGACGAAGTTCCGGATCGCCGCGGGCCGCGCGTCGTAGCCGGCGAACCCGCCGGCCGGATCGCGCAGCGCGCCGAACTTCACGCTGATCAGCACCTGGTCGCGCGTGCGGCCGCGCAGCGCGTCGCGGATCAGCATCTCGTTGTCGCCCATCCCGTAGAAGTCGCCCGTATCGAGCAGCGTGATGCCGTGGTCGAGCGCCGCGTGCAGCGTCGCGATGCTTTCGTCGCGATCCGCCGGCCCGTAAAAGTCCGACATCCCCATGCAGCCGAGCCCGATCGCCGAAACCTGCGGGCCCGTGCGGCCCAGTCGATGCTTGTCCATATCCGTGTCCTTGCGGTGTTGACTGAATCAACCGGATTCTGAACGCATCGCGGCGCACGATAAACGCGAAACCCCCAACCAATTCATTCGACGATGATTAACAATGGAGCCTGTTCCAATCGCCACGCTCCCGCCCCCGCATGGACCATCTGCAAGCAATGCGCACCTTCGCGCGCGTCGCCCATCTGGGCAGCTTCACGAAAGCGGCCGAGCAACTCCAGTTGCCGCGCCCGACGGTCAGCAACGCCGTCCAGTATCTGGGAAAGCACCTGAAGATCCGCCTGCTGCAACGCACGACGCGGCGCGTCGCGCTGACCGCCGAGGGCGCGACCTACTACGAGCGCTGCGTGCGGTTGCTGGCCGATCTCGACGATGTGGAAACGCTGTTCGAGGATGCCGGCGCGTCGCCGCGCGGCGTGATCCGCGTCGACCTGCCCGAGCGTTTCGCGCTGAACCAGGTGATTCCGGCGCTGCCGGATTTCCACGCGCGCTACCCCGACCTGCGCGTCGTGATCAGCACGACCGACCGCTTCGTCGACCTCGTGGCCGACGGCATCGATTGCGCGGTGCGGGTCGGCGTGCTGTCCGACACGTCGCTCGTCGCGCGGCGCGTCGGCGAGATGGCCCAGATCAACTGCGCGTCGCCCGCCTATCTCGCGCGCCACGGCACGCCGCGCTCGCCGGACGAGCTGCCGGACCACGTCGCGGTCGGTTATTTCTCGAGCCGAACGGGCCGCGAGCTGGACTGGGAATATGCGGACATGGATTCGGGCGAGCTGCACGCGGTGAAGATGCACAGCGTCGTGTCGGTCAACAGCTCGCAGGCGTATCTCGCGTGCTGCCTCGCGGGCCTCGGGCTGATCCAGGCGCCGCGCGACGGGCTCGCGCCGCTGCTCGCCGACGGCTCGCTGGTCGAGGTGCTGCCGGAATGGAATGCGGCGCCGCTGCCCGTGTCGGTGGTGTTCCCGACCGGCCGGCATCTCGCGCCGCGCGTGCGGATCTTCGTCGACTGGCTC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 CTTCCGCCCCTGCACGCGCTGCAGATCTTCTCGACGGTGGCTCGCCACCGCAGCTTCACGCGCGCGGCCGAGCAGCTGTGCCTCACGCAGGGCGCGGTGAGCCGGCAGATCCAGACGCTCGAGGCGCATTACGGGTTTCCGCTGTTCAAGCGGCATGCGAAGGGCCTCACGCTGACGGCGGAAGGCGAGCAACTGTTGCCGGTGGTCGACGAGAGCTTCGCGCGGATCGAGGACATCTCGATGAAGCTCACGCGGCAGCGCACCGATCTCGCGCTGAAGGTGCCGACCTGCGTGATGCGCTGGATGCTGCCGCGCATCATGCGCTTCCAGGGCGAACATCCCGATCTCCACGTGCAGATCACGACCGCGTGGCAGCACGTCGTCGATTTCTCGAGCGAACCGTTCGATGCGGCGATCGTCTACGGGACGTCGCCGGGCCCCGGCGTCGTCGCGCTGCCGCTGTTCGACGAACGGCTGACACCCGTGTGCGCACCCGAGTTGCGGCAGGCGTCGCCGCTCGGCGCGGTCGGCGATCTCGCGCGCCATACGTTGCTGCATCCGACGCGCGACCACCGCGACTGGCGTGCATGGCTCGACCATGCGGGCGAGCGCGGCGTCGATCCCGCGCGCGGACCGACGTTCGACACGCTCGATCTCGCGACGAACGCGGCGATGCAGGGCTTCGGCGTCGCGATCGGCGACGTGACGCTCGTCGACGACGACGTCAGCGCGCGCCGACTCGAACGGCCGTTCGACATCGTGCTCGAAACCGGCGCACGCTACTTCTTCGTCTACCCCGAGAACCTCGGCAGCCAGCAGAAGATCCGCGCGTTCAGCGACTGGATC 
 >PredictedProphage1 -Hit 2 
 CCGGCAACCGGCAAGATCGTCGACGGGTTCAAGCCCGGACAGAACCGCGGCATCCAGATCGCCGGCCGGCCGGGCGACCCGGTGCGCGCCGCGGCCGACGGCCGCGTGATGTACGCAGGCACCGGCCTGAACGATTACGGCAGCCTGATCATCGTCCAGCACAACGCGGACTTCCTGACCGCCTATGCGCACAACCGCAAGCTGCTCGTGAAGACGGGCGACATCGTGCATCAGGGCGATGCGATCGCCGAGATGGGCGACCTCGACAACTCGCGCGTCGCGCTGCTGTTCGAGGTGCGACGCGACGGCAAGCCGGTGAATCCGATGCCGTACCTGCCTTCGTCGCAA 
 >PredictedProphage1 -Hit 3 
 TACGTCGTGAAACGCGGTGACACGCTGACTGGCATCGCCTCCGCGAACGATTGCAGCGTGGCCGACTTGCGCACCTGGAACAAGCTGGCCGCGAACGGCAGGCTGCGCATGGGGCAGGTACTGCGCATCGTCAAGCAGCAGCCGCTGCCGCCCGCGGGCGCGGCCGGCACG 
 >PredictedProphage1 -Hit 4 
 GTGTCGCGCAGCGATACGCTGAGTTCGGGCACGCTCGCCGGCAACCTCGCGATCGAGACGGACTTCACGTCGTTCGCGGATTTCGCGTCGACGCAGGCCAACGGCGACGGCGTATCGGTGACGTACGCGAACAGCGCCGCGACCGGCTATGCGACGTCCGGGTTCGACAACTGCGCGCTGTCCGCCTTCGACACGGCGAACGGCGCGACGAATCCGCTGTCGACGACGCCGATCGGACAGTTGCATTCGAACTTCGCGTGCACGACGAAACCGTTCGCACTCGGCGCGGGCGCGACCCGCACGGTCGGGTGGACGCTGAAGTACGCCGATCCGGCGTGAACGGCGCGAACGTCATGCCGTGACCGTTCCCGAAGCCGGTTGCCGAAACCGGCTTCGGGATCA 
 >PredictedProphage1 -Hit 5 
 CTGCAAGCAATGCGCACCTTCGCGCGCGTCGCCCATCTGGGCAGCTTCACGAAAGCGGCCGAGCAACTCCAGTTGCCGCGCCCGACGGTCAGCAACGCCGTCCAGTATCTGGGAAAGCACCTGAAGATCCGCCTGCTGCAACGCACGACGCGGCGCGTCGCGCTGACCGCCGAGGGCGCGACCTACTACGAGCGCTGCGTGCGGTTGCTGGCCGATCTCGACGATGTGGAAACGCTGTTCGAGGATGCCGGCGCGTCGCCGCGCGGCGTGATCCGCGTCGACCTGCCCGAGCGTTTCGCGCTGAACCAGGTGATTCCGGCGCTGCCGGATTTCCACGCGCGCTACCCCGACCTGCGCGTCGTGATCAGCACGACCGACCGCTTCGTCGACCTCGTGGCCGACGGCATCGATTGCGCGGTGCGGGTCGGCGTGCTGTCCGACACGTCGCTCGTCGCGCGGCGCGTCGGCGAGATGGCCCAGATCAACTGCGCGTCGCCCGCCTATCTCGCGCGCCACGGCACGCCGCGCTCGCCGGACGAGCTGCCGGACCACGTCGCGGTCGGTTATTTCTCGAGCCGAACGGGCCGCGAGCTGGACTGGGAATATGCGGACATGGATTCGGGCGAGCTGCACGCGGTGAAGATGCACAGCGTCGTGTCGGTCAACAGCTCGCAGGCGTATCTCGCGTGCTGCCTCGCGGGCCTCGGGCTGATCCAGGCGCCGCGCGACGGGCTCGCGCCGCTGCTCGCCGACGGCTCGCTGGTCGAGGTGCTGCCGGAATGGAATGCGGCGCCGCTGCCCGTGTCGGTGGTGTTCCCGACCGGCCGGCATCTCGCGCCGCGCGTGCGGATCTTCGTCGACTGGCTC 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 LPPLHALQIFSTVARHRSFTRAAEQLCLTQGAVSRQIQTLEAHYGFPLFKRHAKGLTLTAEGEQLLPVVDESFARIEDISMKLTRQRTDLALKVPTCVMRWMLPRIMRFQGEHPDLHVQITTAWQHVVDFSSEPFDAAIVYGTSPGPGVVALPLFDERLTPVCAPELRQASPLGAVGDLARHTLLHPTRDHRDWRAWLDHAGERGVDPARGPTFDTLDLATNAAMQGFGVAIGDVTLVDDDVSARRLERPFDIVLETGARYFFVYPENLGSQQKIRAFSDWI 
 >PredictedProphage1 -Hit 2 
 PATGKIVDGFKPGQNRGIQIAGRPGDPVRAAADGRVMYAGTGLNDYGSLIIVQHNADFLTAYAHNRKLLVKTGDIVHQGDAIAEMGDLDNSRVALLFEVRRDGKPVNPMPYLPSSQ 
 >PredictedProphage1 -Hit 3 
 YVVKRGDTLTGIASANDCSVADLRTWNKLAANGRLRMGQVLRIVKQQPLPPAGAAGT 
 >PredictedProphage1 -Hit 4 
 VSRSDTLSSGTLAGNLAIETDFTSFADFASTQANGDGVSVTYANSAATGYATSGFDNCALSAFDTANGATNPLSTTPIGQLHSNFACTTKPFALGAGATRTVGWTLKYADPA_TARTSCRDRSRSRLPKPASGS 
 >PredictedProphage1 -Hit 5 
 LQAMRTFARVAHLGSFTKAAEQLQLPRPTVSNAVQYLGKHLKIRLLQRTTRRVALTAEGATYYERCVRLLADLDDVETLFEDAGASPRGVIRVDLPERFALNQVIPALPDFHARYPDLRVVISTTDRFVDLVADGIDCAVRVGVLSDTSLVARRVGEMAQINCASPAYLARHGTPRSPDELPDHVAVGYFSSRTGRELDWEYADMDSGELHAVKMHSVVSVNSSQAYLACCLAGLGLIQAPRDGLAPLLADGSLVEVLPEWNAAPLPVSVVFPTGRHLAPRVRIFVDWL 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig274

Genome size:  181829
Host's GC content:  66.36
Predicted Codon Position GC:  	1st:  67.71	 2nd:  44.62	 3rd:  79.98

 >PredictedProphage1 
 Length:   7230 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 55.66 	 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
 117855	118442	-1	ref|NP_665964.1|putative plasmid partitioning protein Soj	42.0bits(97)	0.019
 118850	119029	-1	ref|YP_024964.1|putative prophage repressor protein	47.8bits(112)	3e-04
 121625	122749	-1	ref|NP_061531.1|integrase 	83.2bits(204)	7e-15
 123075	124364	-1	ref|NP_690795.1|ORF11 	283bits(723)	5e-75
 124653	125084	-1	ref|NP_818445.1|gp145 	95.5bits(236)	1e-18
 
 DNA sequence:
 ACTTTGAATCATAGATTTAAGGTGTGGTGCACCTCGCTCCATCACAGCTTCTGGGATGACCGGGATGATATATCCGTGACTTGCTGCAATGGCGTTCTGTGATACAAGTTTCGTGGCAGGAGGGCAATCAAAGATAATGTAATCATATGTCTCGTCGATTCCCGCCTCTTCTAACCAGCGACACACGAGTGTCCGTTTATCCCACTCGGAGTGAATTGCATTACCATGATGCGATGCTGTTAGATCGATCTCGATATCGTCCAATTGGAGACTGGCTGGAACGATATCGAGGGTAGAATAATGTCGAGCGATTCCGGCTTGTTTTATGGCACTACGTTCAATCAGCGAACTAGTCGGGAATGTCGGGCTCTGTCCGATGAATGGCTTAAAAATTTCATTGACCGTTCGACTACTCGCAACCAAATTTTGCCATATCGGGGCCGTCAAGCTGACGATCGAGAGACTGCTTTGGTGGTCCATGTCCACCATTAAAACTCGTGCTTGATGATACCGGGCTAAACCGGCGGCAAATTGAAATGACAACGTCGTTTTCCCAACGCCACCTTTGAAATTAATAATGCTGACTCGTTTTGCCATTGATGTCCCCGTTTTTTTGTAGTTTCCGTTGCTGGTCAGGCAGTTGCGGAAAACTTCTCTCGCTGGTAGGTAGGCTGCTCACGTCAAGATCGTGTTGCCGTGGCGTATTCTCCGGCGCGTGTATCGGCTCCGATGAACATATTGTACCGTCAGTCAGTGCCGGTGGTTGCGGCGAATGCGCCCATAGCTTGCTTCCGTCATGCCCGGTGCAGGCTGGCATCGTACTTCGACTTGTATCGCTACTTGCGCCCCAGTTTCTTGGCAGGATGCTTGGCCCTTAGCATGTCGGCGAACTGCTGAACGAAATTCACGACGAGTTCCCGCTCGTCGCTATCCAGTCCATCGAGCGCGTCCGCAATCATCGCCAGTTGGTCATCCGGTCGCTTCGATCCGCGCTGCAACAACTGGTCTACCGAGCAGTTGAGTGCATCACTAAGCTGCTGGAGCCGATGCAAAGTCGGCACACGAGTGCCACGCTCCCATCGGCTGACCGCTTCCTGTTCCAGGTCGATCATCTCCGCGAGCTTCGCCTGTGTCAGGCCGCGTGCGCGTCGTTGTTCGGCAATGGCAGTTCCGACACGAGCAGCAAGCAGCGCGTCTTGGGCATCGTCGGGGGGGGCGAGCTAGGGCGGGTAGTCATAGGACGATATGGTCGTCTTCATTCCGATTACGATGAACAACTATTTAGGAATGTTGTATTCCAATATGGTTGAATTTGTCGAGATGTTGACGTATCGTGCAGTGGATGCCTGAGCGGTCGGGGATGACAACGAACGCCGTTAGGCAAGCGATCAATCCAGAAAAATCAACGAACTATGACCACAAACAATTCGCTTTCTCGGTTTCACGCCTTCATGGCAGCCTATGACGGTTGCCGTGCTTCGGCACTCGCAAGTGCGTTGCAGCTAACGCCGATGGCCGCGCGAGCACTCGGCCTGATCAATACATTTCCCGGCATGACCCTGCACGAGTTGAGTTGCATTCTCGGCGGCAGTCAGGCACAAGTGATTGGGGCGGCGTTCGACCTTAAGCACTTCGGCTACATCGACATGACCGATGAGCAAAACGACAATCGGCGGTGCGTGCTCCGGCCCATCCGAGACAAGATGTTCGGCTTCGACGGGTATCAACGGCTTGTGAACAATCTGGCGACGGACGCCGGAATCGCCGATCGTCTGACGGCGTTGCTGCCGCTGTATCAGGACGTGTTGATGAAAGCCTTGGAAGAACTGCAGGGCGACGCGCAGAGCGTCCAATATCAGGCGCAACGGCGGATACTGGCGCGGGTTGTCTAATCAACGCCGACGGCCTTTGACCTCGACGCGATAAACGCCGGTCTAGGTTCGCTATGGAATTTGAGAAGGTGTTCGCAGGGAGGTCATGGCCGGAAGTACGAGGACGAATCGGCGTCATGTCGGTCGATTCGCTCGACCGGCAATGGGTGCTTGTCGCCGAAGAATGCGGCTATCTCATCGCGAAATCGAGGGACGGAAAGGCTGGGTTGCTCGGCCGCATGTGCAAGCGCGACGACAGCAAGTTTTGCATCGAAGTCATCGTGCGCGCCAAGATCGAAAACAATGAGCTTCGTCACTACGAGTTCTGGTATGGCGACGCGGCTGACGAGCTACGTTATGCCCGGCGCCTCCGCGAGTTGATTTCTGGCAACATTCGCGGCCCCGAGCGGGACGGCGACCGATAATGCTTCGACCGACGAAGGAAGATTTTCAACGATGGAGCGGGACCGGGTTTGCGTTCTTCGGAACCTACCTGCATCCGATCCGCGCTGGTACAAATACGTCTGGCAGATATGGACGCCCGATTCGCCGCTCGAAAGCGCGGAGTTCTTCGAGCATGGTCCGCGCTACTGCACGGCGCAATTCCATGAGACGGAGAAACGACTGTCCGAGGCAGGCGTGTCGGGGTTCATCTACAACCGACAGTTACCGCGGCGCGGGCTCGGCAAACCGTTCGATCTGACGCATCCCCGATGGGCAAACCGGGAATGGGCACCAGCATGGGAAGATGATCCCGATCCCGAGTGGAACGGTCACAAGTAATCGGGTGCCGGCTTCCGAGATTCGCGGCCTCGAAAATCCCGGTTTTGTACGCCTTTAATAAGATATGGAAAGTGTCCTATTTCCGGTCACGCCAAGTGCCGGAGAAACCGCCTAATCTCGCCTGTGAGTCGGGATTTTCGGCGGATTTAATATCGGACCGGACACGTCATCGGTTATATTCAGGAGTTGCATCGTGCTTGACGCGATCCACCGGAGATTGGTATGTCTGATGACCCTAGGCTCCTAATGGAGCTTGACCGGACCACTGAGACCGAAGTCGCCAACCGCGCAAAGCGAAGAATACGGCGTGCGCCACCACCTGACGTTGATGACGTGTCGAAATCAATTCACTTCCTACGCGGAGTTGGTTCCCGAGCATCGTTTGTATTGACCAGCTTCTATTTTCTTCTGGCTACCGAAATCGATGGCAAGAGGCCGTGTACCGTTCCCGGCTACCCAGGGGAAGTCCTTCAGAGTTATCTACAATTCGTGTCGCTCAATAATCTCGCCCTTACATGCCGCAAGGTATTCGATCACGGGGCGAAAGGTCTCACCGGCGCACAGTTCGGAAAGCAACGGGACGAAACCCTCAAGGGGCATGCTGAATATTGGGCGAAGAGCTCGCAACGCCCCATCGAGGATGCATGTTCGGCGCTTCATTTCCTGCGCACCTTTTTCGCCAAGTGCTCGAAAACCGATGCCGCTCTGTTCAGAGAAGGAACAACGCTCGGTCGAAGGATCGGGTTTATCAAACAATATGCCGATCACGCTGCCGCCCATCTTTCATTGGATGACTATGAGTTCAACCATCTTGATTTGGCGCACGTTGTTGCAGCACTAGTACTTGTAGGTGAGATCATTCGTAGCTTCGATGCGCCTTACCAACCAACTGACTACTATGATCAAATCGATCAAGCGTCGTTGGATGCTTCGGTTGCCTTGTTCCCCGACACCCCTCAGCTCAGGCTCTTCCAAAATATGAAGGTCGGGTCGCAAGCTAGTATGTGCTGGCAAGTGGGGGAGGCATCCGGGATTCAAATGATGACAGAGCAACTTCCTTACACGATTGGTTGGTTCTGAGTCGGCCCCGTAGGGCCCGCCCGACATTCAAGCAGATTCGAGCAGCGAATCGATGATCTTGACCGCTTTCCGGCTCGCATCGTTCGGGCTCAGATGCGCATAGCGCTGCGTCATTTTCGGATCGCTGTGCCCGAGCAGGACCGATACCTCATAGAGACTGACACCCGCTTTGACCAGCTTGCTCGCGAACGTGTGACGGAGCGTGTGCAGCGTAACGCGCCCGCCGCGTTCCTTGACCAGAACCGGATCGTTGAGCCCAGCGCGCTCGATTGCTTTCTTGATCGACTTCGTGCTGTAGCCGCGCTCGTTGCCGGTGCGGTCTTCGAATACGTATCGCTGTCCGGTCCTGCGTTCTTCCCACCGCCGACGGAGGATCGCTTCGAGTCGGGAGGTCATGTGCAGCACATCTTCATTCCGCACCTTGCTCCGATAGAGGCTGATCGTGCACGCGTCGAGGTTGATCGCCGACCACGGAGTGTTCGCGACCTCCGAGTAACGGCACCCCGTATCGAGCAGGAAAACCGTGATATCGTAGTTATCCTGCATATTTCGCGTCATTTCAGGTGTTTGCGGTTTAGACGCGTTTATACGCGCTCTAAGCCGTTCCGGATCGAGTTCGCGCAATAACGCCGACTCGTCGTTAGAATCCAGATATCGAAGCCTATACGAAGTCCTAAGCTCTGGAAAAACGATCTCACGACTGACTTTGAATCCGAGCTTCGCCATCTCGTTGATCGTCGCGCGAAGCAGTCCGATCTCGTGCTTGATCGTCGCAGGCTTGTCGCCCTCAGCCTTGCGCTTCGCAACGAGAAGATCGAAATACCGCGTTGTCAGTTCATGAAGCAGCGTATCAGGCGACATGCCATAGCAGGGGAGCTTGGCCTTCGTTCTCGGATGAAGCTTATAGCCGAGCGTTTTCCGAACGATCGAGCACATGTTCCGGTGATAGGACGTTTCGCTTCGTGCCTCGACATATTGTTCCAGCGCATCTTTGAGCGTGATGGGCTGCGCATCCCCGAGGTACTGCTCGGCGTGGGCGCGATTGCGCATCTCACGTTCGACCTGAGCGGCCTTCGTCTTGTTCGGCGTCCCGGTCGAGCCGAAGAACTTCTTGCCTTGAATCTGGAACTGGTAGTACCAGTTCTTGCTGTTGTTTCGACGGATGAGTGTCATCGTGTTGCTCCTTACGGAATGTAATTGATGAGCAACACCATCCGGGCTGAGACCGGGGTATGACAACAGCTTCCGCCCATGCCAGATGCAAAAAAATGGACCGCGCGAGAGCGCGATCCGTTCAGAGTTACGTGGGTTCCACCTCCGAGTCGTCGGTCATGGCGGCAAGCACAGTTTTCTGCCAATCCAACTTCCGCTTCTCGATCTCCGTGTCGATGAATTCGTGTCCGACGTAGGCCTTCGTGTTCTCATTGAATTGCAGATCCACGATCAGCCTCAGGCCCTTGTAGACCCGATGGGGTTTCGATGCGGGCTTGTACCCCTTATCTGCCAGGATCATGCCGAACCGCTTGCCGGAATAGGAAAAATTGTACTGCGACTCGCTCCACGCCTTGAAGAACTTGTAGGTGTCGCCGAAATGGATTTCCCCGTCCGGATCATTGCGAGTGAATTCTGACAACCAGCTTTCGACTACATCCATTTCGCCACGGTACTCGGACACTTCGTTCGTGATGGCCTTCGGCTCATTGAGCTTGTTGCCGTTCTCGCGCCATTGCTTGCAGCCCACGAGCGCCCAGTTCAGGATACCCGGGAGTTCGTCGCGCAGCTTGCGCTCAAGGTCGGGGTCGCGTTTCTCGGGCGGAATCGTCACTGTGAACGGGATCAGCTTCATGCGACGCCAGATGCCGTGATCGTTGCCCTTGATCGTCGGCTTGTAGTTACCGGCGAGCCAGAGCTTGAAACGAGGCTTGAACTCGAAGGCATTCCCGTAAAGCAAGCGAGCGGTGATGTCTTCGCCGCCCGTGTACCACTTCACGGTTTTCTCGCTAAAGTGGCGTCCTTCTTCGACCTCACTCATGGCGACCAGACGCTTTCCCGCGAGACGTGCGACTTCGCTGCTCGCTGCGTTTGAACTCATAGCCGCCCCACCGTTCTTGTCGAGCAGCATGTCGCCGTTGGCCTGAGCGCCCAAATCACCGAACAGGGCGCGCAGTACGTTCAGAAAGGTCGATTTCCCGTTTGCGCCACTGCCGAATGCGAAGAACAGGGCGTGTTCCGACGTCAGTGTCGTCAGCGTATAGCCGATAGCGCGGCGCACGTACTCCACAAGCTCAACGTTCCGGTTCATGATCTCAAGCAGGAATGCTTCCCACAACGGACATGTCGCATCCGGGTCGTAATCGACTGCTGCTGTATAGGTAATGTGCAGCTTCGGATCCATCGGCATGAACGAGCCCGTCCGCAAATCGATGAGTCCATTGCGTACTGGGAGCATCCATTCACCCTGATCGAGATCACCCGCAGAAACAGCAATGCCGGGTTCCGACCTGAAGAGCTCCACTGCATATTTCAGGCCCGTATTGCTCTCGGTATATTTCGCGTGCTCGAACATTTCCACCCGGTTTCCCGGGGACAGGCGAGACAACTCCTCGTAGATCAGGGGAAGGAGTTGGCGGGCGAGGAGGAGTACGTGCAGTTCATCGACGCGCTGCCAGACACCGGATTCCCGTTTTTTCAGCCATTGCTTGGTCTGAGGAACGTAACGGAGTTCGTCGCCGAACAGATCGCTCATCCGCCGAGCATTGCCAAGATCGGTCGTGTGCTGATTGCTGCCACTGTTCTCCTGATGCGACCTGATAACGTTCACGGCGACCTGTGATACCTCCGACTCGGAGAGCGGCGGGTTGCAGCAGGCCGCGTTATATTCAAGCAGTTCTTCCTCCAGCCGCTCGTAGTCCAGACCACCGTTAAGCAGCGAGAACGCGTGGAGCATGACCGACTGGTTGCGATTGCCGGCAGGGACGATTGCGGTCTTGCGCGATTTCCGCTTGCGGCGTGTCGTACCCTGCTTGGCGAATTCTTCGAGCAACCATGCAGGAGCAGGCGCAATAGGTACGGTTTCATCGACCCACTCATACGGGTTGCCTTCGATGGTTGATGGCGGAGCGCCGCAATAGCCCCCGTCGGCGCGGATGTCGATGCCATCGCGGAAGCCGACCTTACACTGAATCTTCATGCCTTCAGGGTAAGTGAAAAGCAGGTGGATACCTCCAGATGGCGTGATGACGGTGCGAGTAGCAGGCAACGGACCGTGTTTTTTCTGAAGTGCGACAAGCGACTTTGCGCCAGACTTGTTGTTCTTCACATCGACGTCGATCACGATCAGGCGACCGGACGGAGCGCCAGTTGCATAGGCAATGTTCGAGCTGGGGAATTGCTCCGCCCATGCCCGATGCTGTTCGGGGTCGAGGCTCGCGTCCTTGAATCCGTTCGGCGTGAGGGGGCGCTTTTCGTTCGGAACAATCGGGAAACAGGCGAAGCC 

 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 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig270

Genome size:  164750
Host's GC content:  67.44
Predicted Codon Position GC:  	1st:  68.38	 2nd:  44.91	 3rd:  81.81

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig272

Genome size:  158095
Host's GC content:  66.74
Predicted Codon Position GC:  	1st:  67.94	 2nd:  44.72	 3rd:  80.62

 >PredictedProphage1 
 Length:   13484 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 59.40 	 63.92 	 65.92 	 46.70 	 79.13 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	10	0.133333333333333
 Leu	TTA	1	0.0133333333333333
 Leu	CTG	20	0.266666666666667
 Leu	CTA	4	0.0533333333333333
 Leu	CTT	7	0.0933333333333333
 Leu	CTC	33	0.44
 Lys	AAG	38	0.883720930232558
 Lys	AAA	5	0.116279069767442
 Glu	GAG	31	0.688888888888889
 Glu	GAA	14	0.311111111111111
 Gln	CAG	28	0.756756756756757
 Gln	CAA	9	0.243243243243243
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	4	0.333333333333333
 His	CAC	8	0.666666666666667
 Asn	AAT	5	0.238095238095238
 Asn	AAC	16	0.761904761904762
 Ser	AGT	5	0.142857142857143
 Ser	AGC	11	0.314285714285714
 Ser	TCG	9	0.257142857142857
 Ser	TCA	2	0.0571428571428571
 Ser	TCT	2	0.0571428571428571
 Ser	TCC	6	0.171428571428571
 Trp	TGG	12	1
 Arg	AGG	1	0.0117647058823529
 Arg	AGA	5	0.0588235294117647
 Arg	CGG	17	0.2
 Arg	CGA	8	0.0941176470588235
 Arg	CGT	9	0.105882352941176
 Arg	CGC	45	0.529411764705882
 Ala	GCG	49	0.4375
 Ala	GCA	15	0.133928571428571
 Ala	GCT	13	0.116071428571429
 Ala	GCC	35	0.3125
 Cys	TGT	0	0
 Cys	TGC	8	1
 Asp	GAT	7	0.14
 Asp	GAC	43	0.86
 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	24	1
 Val	GTG	20	0.333333333333333
 Val	GTA	9	0.15
 Val	GTT	9	0.15
 Val	GTC	22	0.366666666666667
 Thr	ACG	30	0.681818181818182
 Thr	ACA	3	0.0681818181818182
 Thr	ACT	3	0.0681818181818182
 Thr	ACC	8	0.181818181818182
 Pro	CCG	23	0.71875
 Pro	CCA	2	0.0625
 Pro	CCT	3	0.09375
 Pro	CCC	4	0.125
 Ile	ATA	1	0.03125
 Ile	ATT	6	0.1875
 Ile	ATC	25	0.78125
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 125190	126356	1	ref|NP_042035.1|integrase 	265bits(677)	9e-70
 130140	130547	-1	ref|NP_042036.1|DNA primase	57.4bits(137)	4e-07
 130701	130964	-1	ref|NP_958698.1|Bbp29 	53.1bits(126)	7e-06
 136219	136770	1	ref|NP_050655.1|Gin 	113bits(282)	6e-24
 138521	138673	1	ref|NP_542261.1|unknown 	60.5bits(145)	5e-08
 
 DNA sequence:
 ATGCCTCTCACTGACATACAGGTGCGGAACGCTAAGGCCAGCGCGGCACCATACAAACTGACGGACGGCAACGGGATGTTCTTGCTCGTCCAACCGAACGGCGCGAAGTACTGGCGCTTGTCCTACCGCTTCCGTGGCAAGCAGAAGACGCTCGCCCTCGGCGTCTATCCGGCCGTCACGCTTGCGACGGCACGGAAGAAGCGCGACGAGGCCCGCGAGCAGATCGCAGCCGGCATCGATCCGGGCGAGGCGAAGAAGGACGCAAGACGGGCCGCCGAGATCGCGGCGGCAAACTCATTCGAAGCGGTAGCCCGCGAGTGGTTCGACTCCCAGCGCCCGGGCTGGAGCGACGGCTACGCGGAGAAGGTGCTGAATTCGCTTGAGGTCGACGTGTTCCCGAAGATCGGTGCTCGCCCGATCGCGGAGATCGACTCGCCGCAGATGCTCAGCATCGTTCGCGAGGTCGAGGCGCGCGGGGTGCGTGAGACGGCGAAGCGAATCCTCCAACGCTCGCGCGCGGTCTTCCAGTACGGGATCATGACCGGGCGATGCTCCAGGAATCCGGCAGCCGACATCGACGCGCAGACGGTCTTGAAGAAGGGGCCCGGCGTACAGCACATGGCCCGCGTGAAGGCGACGGAGATTCCGCAGCTCATGCGAGACATCGACGCTTACCAAGGCGACCTAGTCACCCGGCTCGCGCTCCGCCTGATGGCACTAACGTTTGTGCGGACAACGGAAATGATCCGTGCGGAGTGGTCGGAGTTTGACGAGGCCGCCGCAGAATGGCGCGTACCGCCGGAACGCATGAAGATGCGCGACCCGCACATCGTGCCGCTCTCACGGCAGGCACTCGACGTGCTCGCCCAGCTCCGCGCGCTCAACGGCCAGCATCGATTCGTGTTCTACAGCGTGCAAGGCCGGAGTCACATCTCGAACAACACCATGCTCTACGCGCTCTATCGCATGGGCTACAAGTCGCGGATGACGGGGCATGGCTTTCGCGGACTCGCCGCCACGGCTCTACGTGAACTCGGCTTTGGCCGGGACGTTGTAGAGCGCCAGATGGCGCACGCCGAGCGCAATCAGGTGACGGCTGCCTACGTCCACGCTGAATATCTGCCCGAGCGCAGACGAATGATGCAGGCGTGGGGTGATCATCTCGACCAGCTCAAAGCGGGAGCCGAGGTCATCCGCATTGCGTCAGCCCGTTAATGAATCGCCGTCGCCCTTGCGACTTCGCCCACCTCCCTGCACCAACAACGATCGGAGCGAATACGTGCTGTGGTTGCCCAAACGATGGATCAGTTAGAGCCCATAGTTGCGAGCAAAGTCGAGAGCCTCGCCTGTTACATGTCCACAGGTCCGGTGGTGTTCAGATGTCCACCACCGGCGGCAGAGAATTGGCTTGAAGGGAAATCGATCGAATTTTGGTTCACAACACTCCAGCTTTGCAAGTGCGTCACGAATCGCCTCGTAGCCCTCGAACGTCTTCAGATATTGATCGCGCCAAGCTTCTGCCTCCCAATGGGCCGCAGCTGGTACCGGGAAGCCAATGGCTTGTAACGAGAAGCAGAACTGCTGATCGTTGATGATGTAGATCTCGTGGACGTTCGGGCTAGGGTTGAGGTAGTTCCAACCGAAAATCCAATACGGGTATCTCGTTCCCGCTGCTTCATGGTATTTCACGACATATTCCGAAACTGCTGCGACCACCGCATCCGGATTGATCGTTTCAAGCTTTGCATAGATGTCGCGCCCGGATGTTTTGGGATGCGTCAGATCGCCTCTGATGTCGTTAATGTTAGTGATCAGGTCGAGTGTAGCGGGCCCGAGAAGGAGCGACTTGCCGAGTAATTCCGTGGGCCACTTCTTGATCTTTGCGAGGATCTGCCCCTTCCTCAATTTGTTGAAAATCTCCTCTTCTGAATGCGTTGCGTTCATGTGTGCCCGCATCTTCTCGTTCAAGAATGCTTCAAGCGCAGCGATACCGAAATAGAGCGACGCAGTCAGATGATGCGAGCGCTCCATGCCCGTCTTTGCCTCGCGCGCAGTAACCGCTTCCCGATACAGCGAAGAGAAGTTTTGCCAGACTGGATTGACTGCCCAAAGATTCATAGTCGTCGTGAGATGTGGATCAATCGCGCAATTCAAGGTCGCGGCGGAAAAGCGCGGTTGTGAGATTGTTCGTGGTGTATCTAGGAGAATATGGTATGAATTTTCGTACATGCAGCAATCGTTGATTGATGTAGAAGCATCGAATCTCGATCGGCCCGGATCAGTTGACGGCCGGCGTTCCATCTCGCCCTTCCCTGTATGCCCCCCTTCCGTGCGTTCCCCACCAGCAAAACGGAAACGGCCTAGGCATAGGGCAAGCTTGTGATTTGGCCCCATATTATTATGTGCCCCCCTTGTTTCTGCCGTCAGTAGAGAAAAGACGCGGGTGTGAGCCCCCGCGTCTTTGCCCTAGACGCAGGGTCCCCCGCTTTCCGGTCGCCCCGACACTTGCGGTCGGCGCAACAATGCCCGATCGGGGCGCATCGCGGACACCCCCCTCGAAAACACGCCTCCGACGCCCATCGAATCCCGGAGAGCCGTGCCCCGCATAGCTTCGCGGTCGCTACGGTCGGTCGACGCCTGCCCGCTCAGTGCAAAACGAGTTGGAGATTTGGAGATAAACGCCTGAATCGGTCGCAAAGCCTTGCGGGGTAAGGCTTCGTGTGTCTCCAAACGATTTGGAGAACGCTGGAGATACTGGAGATAAACCAGCCCGGATTGTTACGGTGGCGGCAAGATTCGCGGCAGCTGCCCGCCCGGTTCCGTCTGGCACGTATCGCTCAAAGTAACTTTGACGCGCGGGAGAAATATGCCGCGCAAAGGAATGCCCGCCACCGCCCTCCCGGACGGCGGCGGTGCTGTTCACAGCTCAAGCGTGAAGATCGACGGCAGCACGCGATAGACCATGAACTTGCCGTGACCGGGGATGTACTCCTGCCGGTACGGATAGCCGTCGCTGCGCGGCATCAGCACGCCGCGCTTCATCAGTGCCTTGGCGACGATCTTGTGATCGAAGCCGGCGCACACGTCCTTGCGAAACACGGCCGCTTCGATCAGGTATTCCGTCTCGACGCTTTCGGCATCGTCGGCGCTCATCTTGCCGCCGAACTCGGCGTAATACTCCCGATCGGACGCGATGGGCGTGCGCCGCTCGTCGCGCTTCACATGCTGCTTGAAGCCCGCTCGATGCGGCACATTCGGCCGGTGGTCGTCCTGCGCCCGGTTCATCCAAACGAATCGGTTGTCGCCGTGTGCGGCGAGGAAATGCTGTACCTGCCGCACGGCTTCGGCCTCGTCCGAGTTGCCGGTGCCGCCGCGCAGTTCGAGCCAGCCTTCGAAGCAGCGACGCGCGGCCTCGACCGCTTCGCCTTGCGGCCAACCGGTCAGGCCGTGCGCCGTCGCCAGCTCGCCGGCCACCGCGACAAGGCAGAACCGCTTGGCGACACGCGCGACCTGCGAATGCGAACCGTCCGGTACCCATTGCCCGACCAGCTCGTCAACGCGAACACGCAGATGCTCGGCCAGCTCGCCGGCCTGCGACGACGCCCACTCGATGAACGCGGGGCCGGCCGTGCCGTAGTGCATGCCCGCGTGCCGCTCTAGATGCTCGATCAGCGCGGCCGGCGTCGGGAAGCCGTGCAGCTTCTCCACGACGCCCATTTCGCCGACCTCGGCCGGGATCGCGGGCAAGCGCACTTCGATACCGCCTTTCATGGGCTTGTTGCCCTCGGCCATCAGCGCGGACACGCTCTTTTCGCCATTCGACAGGAACAGCAGCCGCCACGTGAGAACCGGCTTTGCCGAGCCGCTACGCGATGCGCGAGCCTTGCCCGACTCGTTCGCGAGCATGTAGATCACATCGCCAACCAAGCGCGGCTCGACCTGCCCGATTTCGTCGAGGATCAGCAGCGCGTCGCTGTGCTGCGTGGCGACCGCTTCGAGCGCGTTGTCGGTCGCCTTCCAGCTCCGCACATAGTCCGGCGAGCCGAACACGGACGCTGCGATGACGCCGCCCGTCGACTTGCCCTTGGACGTTGTGCCTAGCAGGTGAAAACCGCCCGACTGAAGCCCGGAGAAGTGCAGCAGCGGACCAGCGAAGGCGGTTGCGACGCAGAACAGCAGCCGGCTATTGCCGACGCAGTAGGCTGCAACCTCGCGTTGCCAGTCGTCCAGCGTGCCGCGCTCTTTGAACTGGCTCTGAATCGGCGTATCGGCCTGATAGATCAGCGCCTCTTTGCCGGTGCCGATGACGCGATCGGGCAGCACGAACGCGCCGTGATGCCAGCCGACGCGCGGCACGCAGCGCACGCGCTCGTCCGGCTGCGCCATCTGGACATAGTTCGCGATCTGCGTGCGGGCGATCTGCGTCACGCCAAGCTTCACGCCCATATCGAGCAGCATGCGGCGCAGCTCCGTGCCGTCGCCGGCAAAGAGGCCGGCCGGCACCGCCCACCGTTTCAGGATGCCGTCGCGATCCGTGAATTCGAGCAGGTATCCCCACTCGCTGTTCATCTCGTTGCGCGTCTCCGCGATCACGTCGATCCGCGTGCTGACCCAATGCGGCGGGAGAGGGTCGCCCTGATTGTTGAAGCCGTGAAACCACACGCCCTTGTCGTCGACGACGAACCGCGACTTGCCGTCCTGCGCGCGGGCCGTTTTCGGGCGCTTGGCGGGTTTCGCGGCGACTGGAGTAGCCTTGGCCTTGCCGGCGTCCGCCGAGCCGGCCGGGGCGAGCGCAGCGCGCACGGCGGCGGCCACCGCATCCGGCCCGACGTGCGCAGCCAGGTCGTTGAAGTCGGTGCCGGCGGCCGGGCGGTTCGGACCGAAGTCAGGCACCGCGACGATGCCGGCGACGGCCTCGGCCGCCGCGCGAGCCTTCGTCACGCCCGGATTGCCCTTCGTCGTGTGGTCGTCGTCGGCGCACACGACGATGCGGGCGTCCGGGTACTGGCCGCGCAGCGCCGTCGCCACGGCGTGCAGGTTGCCGGCGTCGAACGCGACGGCGGCCGGATAGCCGGTCGCGGCCGCGAGCGTCGCGCACGTGGCGTAACCCTCGCCAATCAGCAGCGTGGACGGCGCGGAAGATAACGGGCCACCGATCAGCGAGAAGCAGCCCGCCTTGCGGCCGTTCGGCAGATAGCGTTTCTGGCCGTCCGTCAGGACGAACTCCAGCGTCCACAGCTTGCCGTCAGCGTCACGGGCCGGAATGACGAGTGCGCCGTCGCATGCGGCCGTGCCGATGCACAAGCCGCCGCGATAGACGCGCAGCGCGTCGACCGGGATGCGCTTGCGAACGAGATACGGGTGATCGGCCGGTGCAGGCTCGGCCGCCGACCATAGCGATTCGGCGAGCGCCGATGCGGTTTGCTGTTTCTCGGTCAGCTCCGCCAGCTCGGCCGCTTCGCGGGCCGCGCGTTCGGCCTTCTGCCGCTCGCGCTCCGCTGGATCGACCGGCTTCGCCCGATACGCGCGCGGATCGAAGCCGCCGAGCTTGGCGAGGTGAAACAGCGTGTTGATGGTGATCTTGCCGCCCTTGAACGACTTCCACACATCGCGCGCGTCCTTGACGTTGTAGTTCTGCGCGCCTTGGCTCCATTCGTTCCAGAGGGCGAAGCCCTCCTCGCCAAACTCGGCCTTGAGCGCCATCCCCACCTGACTCCACGTGTCGCGGTCGTCGGGCGGAACATAGCCGAGCGCGACTCTCGCCCGCTCGAATTCGGACATGGGTGCGATACTCATAGGTTCCCACTGGACGCGCGTCGGTCGGCTTCCGATTAGTAGTCCATATCGGGCAAGCAGCTACCCGACGCGCGAAGAATTGAATGATGTGACGATGCCTAGCGGCGCAGCGTCAGCCGGCCGCGCGAGGCACCGACAGAACCGCCCCGCCGGCCGTGACGTCGTTGCTGTAGACGTAGCGGCCGAGCCGCGACTCGCCAAGGGCGTCGTTGGCGGCCTCCAGCGCCGCACCGATCGACGGCAGGGACGCGCGGAACAGGCTCAGCACAAGCCAGTAGTCGTCATCGGACATGGCCTTGTCGGCCGCCCAATGCAGGCTGTCGAGCAGTTCCATGGCGTCACTGATCCGCGTGCCGATGCGGTTGTGGTCAGGACGGTTCACCTCGGCCACGAAGTGCGACGCGAGCGGTTGCACGGCATTCTTGTTCGTCTTTGCCATGACCGTCCCCTCAGTGCGTCGTGCGCGGTTCGCGCGTAACGAGGCCGAGCGCGGCGAACAGGTGCTGTTGCACACGCCCCATCAGACCGGCCGCGAACGCTTGCCGGCTGATCGTCACGCGGTGCGCGTCGACGTCGCCCGCGTCCTGCATGGCGGATTCCATGCCGCGCGCGAACGCGGCGGCTTGATGCGCCGCGTAGTCGTGCAGCCGCACGTCGCCTTTCAGGTCGAGCCACGCGTCGGCGCAGATCGCGCCCAGGTCGACGGCGAATTGCAGCTCGATCGGAGCGCCGGTATCGAGCGGCGGTGCGTTGTCGAATCCGTTGATAACCGCGGTTCGGATGCGCTGATCAGTCATGGCACACCTCCGGTTGCGCAGTGCGGCGCATTTCGGCCGAATACCGGCTCGCGACGCTTTGCCCCATGTCGACGAGCGCTCGCTCGTAGGTGCCCTCCGCAAGATGCGAACGGACAGCATCGAACAGGGCTTCGAGCTGGGCGAACTGATGGGCCGCACACATGGCGATCATCGTGACTTCGTTCGGCAGGCGGTATTTAGACATGGCGCACCTCCAGAATCGATGCGAGGAGTCGCCCGACGTCGATCGTGCAATCCAGCTCCGCTTCGCCGCGAATCGGCGTGAGGTTCCAGTCGTGGACGGCCGCATGCGTGAACTCGCCGAATCGCCGGTCGTAGACGCCGCGCCCCGAGACGGGGCCGCCCAAGATCCGCACGCGCCAATCGTGATCAGGCGTCGGGCGAGCCGATGCCACCTCGACCAGCATGCCGATACGCGAGCGAGCATCGCATTTCGTGACGATCGCGAGATCGCCAATCTTGCAGCGCAGCTCAGCCATGACGCACCTCCGCACGGACGAGCGCGGCGATCGCTGCCAGTGCCGCGCCGGTTGCGTCGAGCGCGTCTTGATACGTGCTGGCGGTTGCCGCGTCGCGCAATGCTGCGCGGACGATGGATTGAATGAGGTGGGATTGCTGCCCGGTACGGGCGTGCATGGACTGGCGCATGGATTGCGACCTCCTCTGGTGGGTTGAACCACCCGGACCTCAACGCCAATTGAGGTGGCCGGGCGCATGGCGGCGTTGGCGTACCGGACCCAGAGGAAACCGGCGAGCGCGAGCGCTCCACCACCAAGGCCCGACCGTAGAAGGCGCTTAGTGTGCGGACGTAAAAAAACCGCGCTGAGGCGGTCATCCGCCTCTGGAGATTGCCGGACGCCAATCCGGGTCGCTGTTGTCTCAGCGACTCGCACAGGATACTGCGCACCGCCGCGAAGCGCAAATCGAGGGAGCGATGAGCCAGCGGAAGCGGTACAACGAGGCAGACTTCTCGCTCCTTCACCAAGGCAAAGTCACTTTGACGGGACGTCATGCCGGGGCCTTCGGATCGAGCATGAAAACCGCGTGTTTGAGGAGTTCGACTGCGCGCTTGGCGCGAGACGGAATACGCTCGGCATCGCGCTCAAACACCGTCGCCGCCGTCGCGATCCAGCAAGCCGCTTCGCGCCGCACTTCGTCCGTGCAGCGCCCGCGCGCTTCGGACAAGCGCTCACGCTGACGCTCCAGCTCACTTTCATAGAAAGCCGCGTCCGCATGCTTCTTGGCGTCACGCGCAATTGCGCGCGCGTCCGTTACGTTCAGGCGGTTCGTCATCACACGCCCTCCGTCACTTCATTTGCAACGTCGACAACCCGATAGTTCAACGGATCAGCGAGATAGCGATGGATCTCGCGATTACTCCAGACAGTGCAGCGCTGAGTCAGGCGGATCGAGCGCGGAAACTTCCCCTCACGCTCTCTCTGTCGGACAGTTTCACGGGACAACTGGATGGACGAACGCAGACTTTCCCAGCGCGAGAGACCGTCAAGCGGAAGCGCGGCCGGAGTAGGCAGCGGGGGGATGTTCTTTACGGGCATTTGTGCTCCCTTAAGCATGTCTGTGCCACCATTGGCATCGACAGCCTGCAATTTAAGGGAGTACATCGGGCGAAAACACGGATTGTTTTTTGCCGTTTCGACTTAAAAATCTTCCGACCTATAACTCGTCACTCTCGAAACTCAATCGATGCTTCCGCATGCGCTCAACAAACCCTTCTAAGTCGCCCTCACCCAAAGCTACTTTGCACTGGATAGCAAGGAGCGAGTCGGGAAGCCGCCAACATTCCGCTTGATCTTCGTCAGTGTATTCGAATCGCAGCTCCCACATAGCCCGATCAACGCTGCGAACGTACGCTCGATACTTGTTGCTCTTCTGCGATGTAAATTGATCAGCGGCAAACTGTCCCCGCCAAGGGATTGTCGCGCGATCATCTAGTTGCACCTGCAAACCAAATGCGCTTGCTGACAGGCCGGTTATAAGTTGAGCAACAGACGGAATAAAGCAGGCAGAGCTACCATTAAAGCGAAATATTTCACCAAGGCGTGGACGCGCATTGACCTCATATCGCGATCGGTCGTACTCGCCCACAATTCCCGGATGCTGCGCGGTTGCATCAAGGAGATGCAGAACGTCGGTAAACTCTATTGGTAGTGAAATAGGTGCGCACGTTTCTTCCCGCTCGATTTCGTTGAGTAGGTCGCGGGCCTCATCGAGCACTCGCACAAGCTCCGACACATTCGCCCGTTGTCGTTTGATGGCTTCGCGCGACGCATCTTCATCAACGTTTGCAGCATCCAGCGCCGCATCGAACCAAAGCCGCCACGCGATATCGGCATTCGGCCCACGAGCCCATCCAAGCGACTCGGACCCATAAAACGCCTCCATCCGAGGATCTGTGACGAGCCGTTTCGCAGCCTCAACACTCAACTCTCGATAGGGAGTATCTGCGCTACACACGCCGACGCATGCCTGTCGCACCGGATCAGGCACCCCGCAGCAAAAATTCAGATTCATCGCGCATCCTTCATATGCGCCCTTCACGAAGAGCGCCGAGCCAGCCGGTGAAGGTGTCCGGTTTTCGGGTGGCCGCCCTAGGCTCGACGGAATCCATTTTCTCACGGATTCAATTCTGACACACCCGACCAATAGCACTCAAACAATATCCCAAGCCGCCTCTCACAAACTACCCACGCGAATTATCAGCCAACAAATTGATATCAATCCGTATTTTCGTCCATAATAAAATCAATCGTCTCTCGAATTTCCGGAGTCGCGTTTATTATGCGAAGCCTCTTGTATGCAGACATACCCAACCTCTTTACCGGAGTCGCCACAAGAGCACTTAGAAAGCTATGCGGAGCACTATTAACTTGATCAAAATCAATCAAAATCTTTTTGCCTTGATCTATTGCAGGAAGCAGATATTTATCACGATGACGAACCGCCTCCTCTTTAACTTCAGCATTGGGACCAAAGTAATTAAAAATACTTAAATAATATGTCTCATCACTCTCCACCGCATCTGCCGTTTTCTGCTCGCTATTAGCTGCCTCGCGGAACTCCTGCATCATTTTATGCAACTCAAATTCCGCATCACGATCAAGCTTCACCGTCACCAATGCGAAAGTACCCGGCCAGCCGTATTTCAATTCCCGCGTCGTAATATCACGCGCAGTAACATGAATCACCCCACTCCCCGACACCAAGTACATCTCAGCACCAAGGCGTCGAACGATATTCGACGACAAGAATAGCCCCATTCCAGCGTTATTCTTTGCCTGATACGGATCATAGCGTCCGAACGTTCCAGATACCTTCGGCCTTAACGAAGCTCGGAGGGCCTCCAAGTCATCCGATATTGTCGGGTAAGTTTGCCTGAGATGCGCCTTCACCCCCATGCCGGTATCAGCAACGATGAAATGCACTTCGTTAACTCCTTCGTACCACGTGCACTGACAAATACTCGGCATCCGATTTTGCCTGCCGTAATACTGAAAATGCGACGCCCCATGCTCAAGCGTGTTGTACAACAACTCCGAAAGAACGTATCGCAAGGTATTTTCATACTCAATATTAAATCCTTGCGTGAATTCTTCAATTTTACTTATAGTCAACTTGAAATCAGCAGCCTCTCTCACCGCGATCAACGGTTTGTACGGCTTTGATGGGAAGTTCTGACTTTCATCCAAGAGTGTCTGTACGGTACTCGTCGCCCCCATAAGTCGCCACATCTTGGTTGCGTCTGAGTTTTCAGGATTGAGAACGAATGACACTCGACATCTCTGTGAAACCAGCTTCCAAGCATAGAGGGATATAAGCGACAGTGCCTGGTAGTTTGCAGATTTACACTCTGATAGATCAATCGTAACTGGGCGGTCCCTCAGACCCCAGTCAAATGTCTTCAGCGGCCGATCGAAATCGTAGACATCATGATTTTTGAATGAAAAAACAGACGGAATTTTAATTATTGTCGACCGTTGAGCATTCATTTTTCGCCGCGCAACTTGCAACCCCGTTTTCCAGTCACCCATTTCAATTTACTCTTTCTTTTATCGAGCCCATACCGGTTGTGTCGGCGCATCGGTGCTATCGACAGTGGAACCTACGCACGGACTGGAACATGGAGACGGCGAAATCGCCCTCTCACGCCCGCCTGCCCCCACCCACGGACAGATCGCCTCGTCAGTATCTTAGCGGGGTTTCGCTGGCGCTGTCTCCCAAGACGCAAGACTGCTCCGACAGCAATATTAGAGGGCGATGATGTCCGAAACCGTTCCCTTGCGGACATGGGTACGAATGGATGTTCGAAAATAAGGCTTTGCTATTTTCGTACAGGGGTTATAATTCGTACACCCCTTTTGAACACATTGGAGCCCATGGTGTCCCGAACCTTCGCATACGCTCGCGTCAGCACGGCCGACCAGACGGTAGCTAACCAACTCCGCGAGATCGAGGCGGCTGGCTTCAATGTCGACAAGCGCCGGGTCGTAACGGAAAGCATCTCGGGTAGCGTAAGCGCGGACCAGCGGCCAGGGTTTGCGGACTTGCTCCGCAGACTGGAAGAAGGCGACGTGTTGATCGTTACGAAGCTCGACCGGCTTGGCCGAAATGCTATGGACGTACGCGCAACCGTGGAGACATTGGCGGAGAGAGGCATTCGGATTCATTGCCTTGCGCTTGGCGGCGTTGACCTGACCAGTGCGGCCGGCCGGATGACGATGCAGGTATTGAACGCTGTTGCTGAGTTTGAGCGCGATCTGCTGATCGAACGCACACAAGCCGGCATCGCCCGAGCAAAGGCGGAAGGGAAAGCGATGGGACGTCCCTCTGCGCTCACCAAGCAACAGCAGGACGAAGTTCGCAAGCAGTTGAGTCAGGGGGCGAGCGTGGCGAGTCTAGCGAAGTGCTACGGCACGAGCCGTCAAACGATTATGCGGGTGCGCGATGCAGTTTGATTACTTCAAGTTACTTTGCGCTTGCACCTGTGTGACGCTTCTCCCGCGCGTCATCAGGGATTTCTTGCTCATAGAACCAGTAGTCGTTTTTCAGATCATTTCGAACGACATATTGATTCTTGCAATGAAATCGATGCCGACGGTTGAACTCATCGAGTAGCAGTTTCGAAGCATCTAAATAGCCCGCATACCCCTGCCAGTTTAGGCATAGACACTGCTGAGGGGAAATTGGCATCGTCACTTCTATAGTCTCGCTGCCAAGTGCAGGGCTTCTGAAGAATGGTGGCATTTTATATGCCTCAGGATCGAACCACGTACATGGCCGGTCCGACGTGATAAACCCCGTCTCATCACTGGTACTGTAGATCGCCAAATCCATTCGAAGAAGGATCGGCACGGTGGTACGCAGAACCGGAGCCATCATTTTTTGCAAGGGCTTGGCGGCGAGCTCGCGTACCTGCTCGTGTGTGAACGACTGCCCCTCCCCAGACGAAAGCTCCGAGATACGCGCCATCGATTCGCGCTGCTCGGCGGTTGCGCTCTTCACTTTTGCAGCAAGGTCGTCTGCGATCTTTAAGACGTTCTGCCACTGCGAAGCATGATGATTGCGCGAGGCGGCGGTGCGAAACTGCGCAGCGGCGACAAACGTACACAAATATACGTGCTCCTCAGGTGTCAGCGGTCGTTTGTGATTGAACTTGCTGATGCGCATTCGCGTGAATCTGTCCTCCAGCATCGAAAGCGTTGCTTCGATGCACAGATCACGTCCACCATCCGCCGTTTCGATGGTGTACATATCCGTCTCAGTGAATAGTTTGTGCGGCGCACGCCGATGGCGGCTTGTACCGTCACGCTCGAACACCCACACGTACGGCTCATGTGTCGCTGGGCGATCGGGATCGCACCACGCCTTGAGGTAGGACGCCGGCACGTAGTGTTGCTTCTTGTGACTTTTCCCCATGTCCGAGCCTTTTCTTTTTTGCCATCGGTCACGCGAGACAAAGAAGTGCGCCGAGGTCGAGTGGGCTTACAAACACACGCCAGCCGATCATTTCGAGACTGTGCCGCGATATGACAGTGAATTATAGATCCGGATGCGGAAGCCGCGAAGGCGGGACGGAATGCTGCCGGGCGCTTGACCCAACTCTGCCAGCAAATCCACAAAGAGCTGACTCTGCTCGCGGCCGGAAATGGGGGGCGGGAGATCCTTTGCGCGCAGTGTTCCAGATGGCGGGCAGTTGGCGAGCGATAGAGCGACCATTGGCTGCTCGGCCACATATCTCCAACGTTATCTCCAAGAAAGTATGTGTTCTGGAGATAGACTTGGAGATAACCACATCCCCGCCAGACAAGGCTCACAAGCCGAAACGGGTGTTTATCTCCAAATCTCCAGATATTTTTGCTTCCGGCGGCACGACAAGGGTACGCACCGCGTCTCCCTTCGAGTGATCGAGCGTACCCGGATGCGCCTGTTGGTATTTTTGTTGGTATTTACGGAACGTTGTCGCCCGAATGGCACATAGAGCCTAGAGATATGAATTCTGTCGGGGACCAGCTAGGTTCCCAAAGCCTCCCAAGATTTCCTAAAAAGCCCCGCAAAGCCTTGCTCTGCGGGACTTTTTGCTGCCATCATTGCCCACGACTGCCCAGTACAAGCCAAGCACCTTGGGGGTATCAGTGGGGATATACCCCGAAGTGCTCGGCGTCGATACCCCAACGCAAAATGCCGAAGCAAACCGATCCTCTCACTGACTTGAAGGTGCGTCGCGCGAAGCCTGCCGAGCAGCCTTACCGTCTTGCAGACGGCAAGGGGCTTTATCTCCAGGTCATGCCGAACGGCTCCAAGTACTGGCGCATGAAGTATCGATTCGATGGGAAAAAAACTCGCGTCGTTCTG 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 ATGCCTCTCACTGACATACAGGTGCGGAACGCTAAGGCCAGCGCGGCACCATACAAACTGACGGACGGCAACGGGATGTTCTTGCTCGTCCAACCGAACGGCGCGAAGTACTGGCGCTTGTCCTACCGCTTCCGTGGCAAGCAGAAGACGCTCGCCCTCGGCGTCTATCCGGCCGTCACGCTTGCGACGGCACGGAAGAAGCGCGACGAGGCCCGCGAGCAGATCGCAGCCGGCATCGATCCGGGCGAGGCGAAGAAGGACGCAAGACGGGCCGCCGAGATCGCGGCGGCAAACTCATTCGAAGCGGTAGCCCGCGAGTGGTTCGACTCCCAGCGCCCGGGCTGGAGCGACGGCTACGCGGAGAAGGTGCTGAATTCGCTTGAGGTCGACGTGTTCCCGAAGATCGGTGCTCGCCCGATCGCGGAGATCGACTCGCCGCAGATGCTCAGCATCGTTCGCGAGGTCGAGGCGCGCGGGGTGCGTGAGACGGCGAAGCGAATCCTCCAACGCTCGCGCGCGGTCTTCCAGTACGGGATCATGACCGGGCGATGCTCCAGGAATCCGGCAGCCGACATCGACGCGCAGACGGTCTTGAAGAAGGGGCCCGGCGTACAGCACATGGCCCGCGTGAAGGCGACGGAGATTCCGCAGCTCATGCGAGACATCGACGCTTACCAAGGCGACCTAGTCACCCGGCTCGCGCTCCGCCTGATGGCACTAACGTTTGTGCGGACAACGGAAATGATCCGTGCGGAGTGGTCGGAGTTTGACGAGGCCGCCGCAGAATGGCGCGTACCGCCGGAACGCATGAAGATGCGCGACCCGCACATCGTGCCGCTCTCACGGCAGGCACTCGACGTGCTCGCCCAGCTCCGCGCGCTCAACGGCCAGCATCGATTCGTGTTCTACAGCGTGCAAGGCCGGAGTCACATCTCGAACAACACCATGCTCTACGCGCTCTATCGCATGGGCTACAAGTCGCGGATGACGGGGCATGGCTTTCGCGGACTCGCCGCCACGGCTCTACGTGAACTCGGCTTTGGCCGGGACGTTGTAGAGCGCCAGATGGCGCACGCCGAGCGCAATCAGGTGACGGCTGCCTACGTCCACGCTGAATATCTGCCCGAGCGCAGACGAATGATGCAGGCGTGGGGTGATCATCTCGAC 
 >PredictedProphage1 -Hit 2 
 TATCTCGTTCGCAAGCGCATCCCGGTCGACGCGCTGCGCGTCTATCGCGGCGGCTTGTGCATCGGCACGGCCGCATGCGACGGCGCACTCGTCATTCCGGCCCGTGACGCTGACGGCAAGCTGTGGACGCTGGAGTTCGTCCTGACGGACGGCCAGAAACGCTATCTGCCGAACGGCCGCAAGGCGGGCTGCTTCTCGCTGATCGGTGGCCCGTTATCTTCCGCGCCGTCCACGCTGCTGATTGGCGAGGGTTACGCCACGTGCGCGACGCTCGCGGCCGCGACCGGCTATCCGGCCGCCGTCGCGTTCGACGCCGGCAACCTGCACGCCGTGGCGACGGCGCTGCGCGGCCAGTACCCGGACGCCCGCATCGTCGTGTGCGCCGACGACGACCACACGACGAAGGGC 
 >PredictedProphage1 -Hit 3 
 GAATTCGAGCGGGCGAGAGTCGCGCTCGGCTATGTTCCGCCCGACGACCGCGACACGTGGAGTCAGGTGGGGATGGCGCTCAAGGCCGAGTTTGGCGAGGAGGGCTTCGCCCTCTGGAACGAATGGAGCCAAGGCGCGCAGAACTACAACGTCAAGGACGCGCGCGATGTGTGGAAGTCGTTCAAGGGCGGCAAGATCACCATCAACACGCTGTTTCACCTCGCCAAGCTCGGCGGCTTCGATCCGCGCGCGTATCGGGCGAAG 
 >PredictedProphage1 -Hit 4 
 TACGCTCGCGTCAGCACGGCCGACCAGACGGTAGCTAACCAACTCCGCGAGATCGAGGCGGCTGGCTTCAATGTCGACAAGCGCCGGGTCGTAACGGAAAGCATCTCGGGTAGCGTAAGCGCGGACCAGCGGCCAGGGTTTGCGGACTTGCTCCGCAGACTGGAAGAAGGCGACGTGTTGATCGTTACGAAGCTCGACCGGCTTGGCCGAAATGCTATGGACGTACGCGCAACCGTGGAGACATTGGCGGAGAGAGGCATTCGGATTCATTGCCTTGCGCTTGGCGGCGTTGACCTGACCAGTGCGGCCGGCCGGATGACGATGCAGGTATTGAACGCTGTTGCTGAGTTTGAGCGCGATCTGCTGATCGAACGCACACAAGCCGGCATCGCCCGAGCAAAGGCGGAAGGGAAAGCGATGGGACGTCCCTCTGCGCTCACCAAGCAACAGCAGGACGAAGTTCGCAAGCAGTTGAGTCAGGGGGCGAGCGTGGCGAGTCTAGCGAAGTGCTACGGCACGAGCCGTCAAACGATTATGCGGGTGCGCGATGCA 
 >PredictedProphage1 -Hit 5 
 CTCACTGACTTGAAGGTGCGTCGCGCGAAGCCTGCCGAGCAGCCTTACCGTCTTGCAGACGGCAAGGGGCTTTATCTCCAGGTCATGCCGAACGGCTCCAAGTACTGGCGCATGAAGTATCGATTCGATGGGAAAAAAACTCGCGTCGTTCTG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 MPLTDIQVRNAKASAAPYKLTDGNGMFLLVQPNGAKYWRLSYRFRGKQKTLALGVYPAVTLATARKKRDEAREQIAAGIDPGEAKKDARRAAEIAAANSFEAVAREWFDSQRPGWSDGYAEKVLNSLEVDVFPKIGARPIAEIDSPQMLSIVREVEARGVRETAKRILQRSRAVFQYGIMTGRCSRNPAADIDAQTVLKKGPGVQHMARVKATEIPQLMRDIDAYQGDLVTRLALRLMALTFVRTTEMIRAEWSEFDEAAAEWRVPPERMKMRDPHIVPLSRQALDVLAQLRALNGQHRFVFYSVQGRSHISNNTMLYALYRMGYKSRMTGHGFRGLAATALRELGFGRDVVERQMAHAERNQVTAAYVHAEYLPERRRMMQAWGDHLD 
 >PredictedProphage1 -Hit 2 
 YLVRKRIPVDALRVYRGGLCIGTAACDGALVIPARDADGKLWTLEFVLTDGQKRYLPNGRKAGCFSLIGGPLSSAPSTLLIGEGYATCATLAAATGYPAAVAFDAGNLHAVATALRGQYPDARIVVCADDDHTTKG 
 >PredictedProphage1 -Hit 3 
 EFERARVALGYVPPDDRDTWSQVGMALKAEFGEEGFALWNEWSQGAQNYNVKDARDVWKSFKGGKITINTLFHLAKLGGFDPRAYRAK 
 >PredictedProphage1 -Hit 4 
 YARVSTADQTVANQLREIEAAGFNVDKRRVVTESISGSVSADQRPGFADLLRRLEEGDVLIVTKLDRLGRNAMDVRATVETLAERGIRIHCLALGGVDLTSAAGRMTMQVLNAVAEFERDLLIERTQAGIARAKAEGKAMGRPSALTKQQQDEVRKQLSQGASVASLAKCYGTSRQTIMRVRDA 
 >PredictedProphage1 -Hit 5 
 LTDLKVRRAKPAEQPYRLADGKGLYLQVMPNGSKYWRMKYRFDGKKTRVVL 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig271

Genome size:  156212
Host's GC content:  68.01
Predicted Codon Position GC:  	1st:  68.73	 2nd:  45.06	 3rd:  82.77

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig269

Genome size:  136140
Host's GC content:  66.54
Predicted Codon Position GC:  	1st:  67.82	 2nd:  44.67	 3rd:  80.28

 >PredictedProphage1 
 Length:   6349 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 55.73 	 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
 74593	75174	-1	ref|NP_944360.1|gp51 	107bits(268)	2e-22
 77236	77592	1	ref|NP_490641.1|hypothetical protein	130bits(328)	2e-29
 77717	77830	1	ref|NP_944262.1|hypothetical protein	47.8bits(112)	3e-04
 78219	78599	-1	ref|YP_195210.1|virion structural protein	38.1bits(87)	0.21
 80660	80941	1	ref|YP_164271.1|hypothetical protein	58.5bits(140)	1e-07
 
 DNA sequence:
 ATTGCCCGCACAGAGAAACTGAACCCTGTTCGTGCCGGTTCCCGTGAAAGTAATCGAAGTCCCGGAATCTTGACTGACCTTTACTGCGTTTGCCTCCGTCGTGTCGTTGGCCGTGCATGTATAACTCGACGCGGACGTGTAGACAGCCAAACCCGTGAGCTTGACCGTAGCATGACCGGACGCCAACGCGACCGACCCTTGCACCATGTGCGGAGCATTCATGCCGTTTCCGGTTGTGCTATACAGCGGCATTGAGCCCGTCCCGGCGGCTGAAATATTTCCCTTTGCGGAATAGTTCCCGGCATCCGAAAACGTGTGCTCGTTAACACCGGAGAGATTCTGTAGCGCAAGAAGGCCATTCGCAAATATCGCACGAAGTGACGCAGTCGTCGCATCGCTTCGAATTGCCGCAACCTTGTTCCCTGCGCTACCGAACCATACGACAGCATCTTTTCGTGGCAGCGCGATTGCGTTACCTTCGCCGGTCGTCGTGTTCAAGGCATTACTGTGAAACACGATCCCGTTTTCGAAAGCAGTGTTGTTGTTTACGATTCCGACGGCAGTGCTCGCGTTGGCTGCACCGGTCTTCACATCCGGACGCCCCGATGACAGCCAAAGCCCCGGCGTAATGCCAATCCGGAACATGTTGTACGGATCAACGCCGACTACGGAACCCTGATTAACGACGTCGATTTCATGACCTTGCGTCGTCCCGGCCCCCGGCTTTCTCCGCACTTCGGAATAGGTGGCGTAGGCGGTCTGAACGTGTTTCGTATTGTCATTGATCGCATAGCCGGCAACGCCCTGAGCAGCCATCGACCCGGTCAACGAATTATCCGAGGTGCGCGTTGCCCCCAGCAAACCCATTCCGCCCCCAGCCGATTGCGACCACGTTTGGGCGCAGGCTGTGGTACAGGGGATCAACGAGTTAAGCCAAGTAAGTTGATTGCCGAACGATGCAACGGCGGGCGTCGCATTGGGGGTTGTCGAGGAAAGCTTCGCACCGGGCTGAGAAGTCGACTGCGATTGACCAGTCGCCAACTGGGCATGTGAGGACAATGCGGTCGTCGAAACGAGCGCAGCGAACAAACAGATACGGATGCTCTTCATGGGGGGCAATCAGCGTGGAAGTGAAATGTCGAGGACGAACGTGTATTCGAGCAGGCCATGAGCGATGATCGCGAGCACTTCCAACGCTCTGACGTCGATGCCCGCACAGTATGCATCGAACACGAAAAACGGCACTTCGCGCGATTGTGACGGCCGGACGCGCACCAGTCGAATTCCAGCTTCGAAAAGGGTCGCGCTTCGGCGCGCAATCGCTCCTCGATGCGCGCGTGCCGGTGCGCGGCCGGTCCTTCATCTCCCGAAAATGAAGGACCATCATAGCGACGGTCGATTGTTGATAGTTCTTACTTAACGTAAGATCGTCAACATCCCCGCACCACATCGATGGAGACCGGAATGGTGAAGGCGGCGTTGAAGGTAATCGGCAGGCCGATCTGGAAGCGGATGCAGTTCCGTATCAATGCCGCGATCGATGGACGTATCGAACGTGACCGAGCAGAAATTGAACGGCTTAAGCAGGTGATCGTTGGCCTACAAAAAATGGTCGAATCCCTGTACCTCGAGCGCGGGTGCGAAAGCGAACATTTCGATCTGGACAAGCGCATTGCCCATGCGATCGGGCAACGAATCTTCGTTCCATCCGACCCGGTCTTCGACGATCAAGCGCCGTTCATGCAGTATTCGACGTGCAGCGCAGCCGATATGCTTCACCCGGAGCATGCCCGAATTTGCGCGATGCTCGGCCTCCCTCCGATGTACCAGCGAAAATTTTGGGAATGGACATACATCATCCATCATCTGAATCGGCTAGGCATGCTCAAACCAGGCAGGCGCGGACTTGGTTTCGGCGTGGGTCAGGAGCGGTTGCCGGCGCTTTTCGCGAAGCTGGGATGCTCGATCGTCGCCACTGATGCGCCGCCGGAAATCGGACAATCTAGCGGATGGTCCCAAACCGGACAACATAGCAGTGCTCTCGACGAGCTACGGTTCCCGGCCATTGTGGCCGATAAAATCTTCGATCGGTCAGTGACGCATCAGTATTGCGACATGAACGCCATTGCCCCGTCGCTCCGCGATTTTGATTTCAACTGGTCGTCCTGCTGCTTCGAGCACCTTGGCAATCTGGAGGCCGGACTGCAGTTCGTCATCAACAGCATGGACACACTGAAGCCCGGTGGGGTTGCGGTTCACACGACGGAATACAATCTTTCGTCGAACGACGACACTTCCCGCGAAGGTGGGACCGTGATTTATCGAAAACGCGATATGGAAGAACTCGTCACGCGATTGCGCGACCGAGGATACGAGGTTGAGACGTTCGCGCCGGCACCACACGCACACGCGCTCGATTTTCATGTCGACGCACCGCCATATAGCAATAACCCTCATCTCAAATTGAGGTTGGCCGGCTATACAACCACTTCAGCCGGGATATGCGTACGTCGCATTGGCTGATGCCCTACCTAGTCGACGGTTCCGCGTATCCTCGACCTTCATCTGGCGAAGCATCGGCGCACCAAGGTCGCCGGCGCCGATCGCGTTGTGCTTGTTCAGAAGTCGATTCCGTGCCGCTTCAGTTGCGGCGCCTTCCACTTCCCGCGCACCAGGTCGATCAGGTATAGACGGTTGCTCGCGGCGAACGAGAAGACCGGCGCCGTGATACGCGCGCTCGATAGTACGTGGCGCCGGCCGTTCACCACGCTCGAGCTGGCGGTACTGCAATCGCTTGTCGAGCCGGAGGAGTACCTCGAGCTCGACGGGGTGCCCGACCAGGCATGGCGCGAGCGTATCGGCAACGTCGTGCCGCCCGACGCCGCGCAGGAGATAGCCGAGGCAATGGGCACCACGCTGCTGCTCGTTGAATCCGGCGAAACGTTGCAGCTTTCATCGACACCGGTCTCGATGCGCCCTATCGCCACCGCACTGACCGTCGTACCGCAGACCTTCTAAGACGGAGGCACCTGATGCCCTGCACCCCTTTCGCCTTCCCGGCCGCATGTCCGGAATCATCTGCACGCGAGGTCGCAAGCACGAGCATCGCTGCTCGGTCGATGGCTGCAACGTGCTGAGTGGCTTCCACTGCGATTTCCAGACGAAGCCGGGTAAGACTTGCGATCGGCACCTGTGCGCCGCGCATGCGCATTAGATCGGGACTGACGTCCATTTCTGCCACCCACCTTGCGGAGTCGAGCGGAAGGAGCAGGGTGACCTTTTCGCATGACCACCCAGGCTCACACCTGTTCTTTTGGGCTGCCACGCTTCAATACGAGAAGGCCCTCGCTCGGAGGACCTTTATCTTCACGCCATCGGCTCAACGTACGAATAGCAGATCCTTAGAACGGAATTGAGATTGGCTTCGCCGTACAAGCAAAGCAGTAGTTGCCACCACCGTGATCAAGATAGTCCGGGTGATTGAAGTGAGCAAGACGATCCCAGCTTACAGTCGGCGCATAGACAACAAGGTTTCCATCAGGCTGGAACGCAAAGTAATTATTGGAATTCACTTCCGTGTTCGTTTGCCAAATCGCAGTGCCCGCGTCGTTGGTCAGCGTGAAATTCCCATCGTTCTGCATCCAAGCTGCAGTAACACCTCTGCCCGGGGTTCCTGAATTCCAAATTGCACCCCCGTTCTTGTAAAGAACGAAATTACCATCAGCTTGCAAAATCAAGAAATACTGACCGACCGTGTAGCTCGTGCCGACGAGGATTCTGTTATTGGTGTGTAGTATACGTCCCTGATTTGTCTGAATAGAACCGGTATCGCTGGTATGACTTTGCCATACCGGACGATCCCAATAAAGAGCGAGATTGCCGTCATTTTGAACATTCAGATATGCACCCGGGTGCTGGGTATTGAAATAGAGCACAGGTACATTGGCTGAAGTGTACAGAACGAAATTTCCGTCCGGCTGCACGACTGCTCGCGTAACACCCTTCCCCGCAACCTGTGCAGACCAGACTACGCCGCTCGGACCATACAACACCAGGTTGCCATCGGACGCTTGCATGTCGAGGCAGTACTGGCCATTTTCAGAACAAACCTGCGCACCTAGATTTAGGGTGGCCCCAGAAGGAATCACCGTTGCAATTGCCGATGACATATACAGCATTAGCATTCCGAAAAATACAACAATCCCCTTTTTCACTGATTTCCTCTCGTAAATGTATGTTTCGCTTTATTTGCATCGAGCCAGACGCATAGCGAGATTACCACACTTAAAAGAATATTACAGCGAAACCAATTAAGTGAAATTATTACAAAACTTTCTTTTATAATTTACAACAATTAAAACCATTGTTTATATATTAGATGCCCTATCGCCCACAGGCATCCTTATCAGCTGCGATTCGAATCATGAGCACCCGAAACGAAAAAAACCCGTGTATGTGGAACGCGAGCGGGCAAAAAAAACGGAACAGCAATCGAGGCACGAGGACTGTCCTCAGCAGATAACGGCACGCCCGCCGAGAACCTTAGCCAAGATAAGGGCCCCGCTTCCGTACAGGCGAGCGGGGCAACAGCTCAGCGACCGGGAATGGACAGTACCTTTACAGGGGTTGTCCCGGCCGCCGAAAGCATTGGCGAGCTGGATGCCGGCGGCGGCAATGAGACGAGTTCGAAATTACGCCTCGCCCGAGGCAACCATTAACGAACTCTGACGGCACTTTTGTTCCGCTCTCAGTCAGGTCGACTGAAGGGTTTGGTCAGCAAAGTCAGAAGGCGGCACCCGGATAACCCGGTGTCGGGAACCCGAGGCCGGTTGTACCAACGCCGACGGGCGAAAAAGGATTTCCGTTGAGGGGGTGCGGCGGGCAAACACCGACACAGATACCGCTGCCCGGCCCGTTATTCGATGTCGACGTCGATGTCGGAGCCGTAACCAGGCCAAACTTTGTACTCCATGCCGCTGTCGGCGCGTAAATCACCAGGTTGCCATCCGATTGTAAAACGAGTTGCGCTCCATTGGCTCCGTTAGTCTTAGTCGACCAAAGAGCCGTCGATCCTGCATAAATTACAAAATTTCCGTCGCTCTGCATAACAGCATACGTAGCACCTTTTCCCTGAGTGCCAGTCGACCAAATCGGATTACCGCCATTCTTATAAAGAACGAGGTTGCCGTCCGCCTGAAACACGAGCATGTATTGGGCGACAGTGACAGTTTGACCAGCCGACATCGTGGAGCCCGAAGCTAGATATTTGCTCTCGGCCGATTGTTGGGTCGCGGGATCACTGGTATTACTTGCCCAGGCCGGACGGGGCCAGTAGATCACCACGTTCCCGTCATCCTGCACTGCGAGGAACGCGCCCGGATGCGCCGTTTTGGACGACCATGCAGCCGTGTTGTCGGCACGATAAATGACAAGATTTCCGTCGCCCTGCATTACCGCCCTGTTGCCGCCAGATCCCGATGTCTGCGATTGCCATACTGCGCCCGTCGGTCCATAGACGACCAAGTTCCCGTCCGTTTGCATCGCAAGGTGATACTGGCCGTTATCCGAGTAGACAACATTTCCAGCCGACAACGTTTCATTTGAGCCAAGGATCTTCGCGCTCGAAAGTATCGGCATTAAAGCTACCAAGCAAACAATCAACGACGTAACAAACCTCATAGCAACCCCTAGGTAATGGTTTTAGATAAATCCATGTTGGATTCGTGATCGTTACAGTTTGTTGCAGCGGCAGAATAGCACAAGGATGTGCCTTTCTGATTTGAGGAATTCCGTAAGGTAATTGTTAAGAAAGACAGGTCTTTAATCCATTTACCCCCGAGCATCGAAGCTCCATTAGCGAGCTTTCTGCTACGTCGCACTGTGAAAAATAGGTGCGTCCACCGATTTCCTGAAGATCACCATGACCACCGATAAGAGCCGCGCTGATGCGCTGACGGCACAAGTTGCACTTGCCGCGATCGAAATGTTGGAAACCGGCCGCGAGTACCGCTTCGACGGCGCGGTGCCAAACGCCAAACGCGACGGTGTGCTGCCGGCGTGGTGGCGTCGCCCGTCGATCTTCATGCCGAGCACCGCCGCGCGCACGCTGTTCGAAGTGCCTGGCGTGTGCGTGGAGCGCCTTCAATCGATCAGCGACGTAAATGCGATCTCCGAAGGAATTGAGCGGACATCCGACGGCTTCAGCGTCGACGGCAGCCGCCACTTCCCCGCAGCTCGGGCGCGCGACTCGTTCGCGTCGCTCTGGGGCGGCATCAACGCCGAAGCCGGCCACGGCGGGGGGGACACGAACCCGCTCCTGTGGGTCGTCGAATTCAGAAGGATCACCCCG 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 GGTGCAGCCAACGCGAGCACTGCCGTCGGAATCGTAAACAACAACACTGCTTTCGAAAACGGGATCGTGTTTCACAGTAATGCCTTGAACACGACGACCGGCGAAGGTAACGCAATCGCGCTGCCACGAAAAGATGCTGTCGTATGGTTCGGTAGCGCAGGGAACAAGGTTGCGGCAATTCGAAGCGATGCGACGACTGCGTCACTTCGTGCGATATTTGCGAATGGCCTTCTTGCGCTACAGAATCTCTCCGGTGTTAACGAGCACACGTTTTCGGATGCCGGGAACTATTCCGCAAAGGGAAATATTTCAGCCGCCGGGACGGGCTCAATGCCGCTGTATAGCACAACCGGAAACGGCATGAATGCTCCGCACATGGTGCAAGGGTCGGTCGCGTTGGCGTCCGGTCATGCTACGGTCAAGCTCACGGGTTTGGCTGTCTACACGTCCGCGTCGAGTTATACATGCACGGCCAACGACACGACGGAGGCAAACGCAGTAAAGGTCAGTCAAGATTCCGGGACTTCGATTACTTTCACGGGAACCGGCACGAACAGGGTTCAGTTTCTCTGTGCGGGCAAT 
 >PredictedProphage1 -Hit 2 
 AGTTGCGGCGCCTTCCACTTCCCGCGCACCAGGTCGATCAGGTATAGACGGTTGCTCGCGGCGAACGAGAAGACCGGCGCCGTGATACGCGCGCTCGATAGTACGTGGCGCCGGCCGTTCACCACGCTCGAGCTGGCGGTACTGCAATCGCTTGTCGAGCCGGAGGAGTACCTCGAGCTCGACGGGGTGCCCGACCAGGCATGGCGCGAGCGTATCGGCAACGTCGTGCCGCCCGACGCCGCGCAGGAGATAGCCGAGGCAATGGGCACCACGCTGCTGCTCGTTGAATCCGGCGAAACGTTGCAGCTTTCATCGACACCGGTCTCGATGCGCCCTATCGCCACCGCACTGACCGTC 
 >PredictedProphage1 -Hit 3 
 TGCAACGTGCTGAGTGGCTTCCACTGCGATTTCCAGACGAAGCCGGGTAAGACTTGCGATCGGCACCTGTGCGCCGCGCATGCGCATTAGATCGGGACTGACGTCCATTTCTGC 
 >PredictedProphage1 -Hit 4 
 GGGAAGGGTGTTACGCGAGCAGTCGTGCAGCCGGACGGAAATTTCGTTCTGTACACTTCAGCCAATGTACCTGTGCTCTATTTCAATACCCAGCACCCGGGTGCATATCTGAATGTTCAAAATGACGGCAATCTCGCTCTTTATTGGGATCGTCCGGTATGGCAAAGTCATACCAGCGATACCGGTTCTATTCAGACAAATCAGGGACGTATACTACACACCAATAACAGAATCCTCGTCGGCACGAGCTACACGGTCGGTCAGTATTTCTTGATTTTGCAAGCTGATGGTAATTTCGTTCTTTACAAGAACGGGGGTGCAATTTGGAATTCAGGAACCCCGGGCAGAGGTGTTACTGCAGCTTGGATGCAGAACGATGGG 
 >PredictedProphage1 -Hit 5 
 CGCCCGTCGATCTTCATGCCGAGCACCGCCGCGCGCACGCTGTTCGAAGTGCCTGGCGTGTGCGTGGAGCGCCTTCAATCGATCAGCGACGTAAATGCGATCTCCGAAGGAATTGAGCGGACATCCGACGGCTTCAGCGTCGACGGCAGCCGCCACTTCCCCGCAGCTCGGGCGCGCGACTCGTTCGCGTCGCTCTGGGGCGGCATCAACGCCGAAGCCGGCCACGGCGGGGGGGACACGAACCCGCTCCTGTGGGTCGTCGAATTCAGAAGGATCACCCCG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 GAANASTAVGIVNNNTAFENGIVFHSNALNTTTGEGNAIALPRKDAVVWFGSAGNKVAAIRSDATTASLRAIFANGLLALQNLSGVNEHTFSDAGNYSAKGNISAAGTGSMPLYSTTGNGMNAPHMVQGSVALASGHATVKLTGLAVYTSASSYTCTANDTTEANAVKVSQDSGTSITFTGTGTNRVQFLCAGN 
 >PredictedProphage1 -Hit 2 
 SCGAFHFPRTRSIRYRRLLAANEKTGAVIRALDSTWRRPFTTLELAVLQSLVEPEEYLELDGVPDQAWRERIGNVVPPDAAQEIAEAMGTTLLLVESGETLQLSSTPVSMRPIATALTV 
 >PredictedProphage1 -Hit 3 
 CNVLSGFHCDFQTKPGKTCDRHLCAAHAH_IGTDVHFC 
 >PredictedProphage1 -Hit 4 
 GKGVTRAVVQPDGNFVLYTSANVPVLYFNTQHPGAYLNVQNDGNLALYWDRPVWQSHTSDTGSIQTNQGRILHTNNRILVGTSYTVGQYFLILQADGNFVLYKNGGAIWNSGTPGRGVTAAWMQNDG 
 >PredictedProphage1 -Hit 5 
 RPSIFMPSTAARTLFEVPGVCVERLQSISDVNAISEGIERTSDGFSVDGSRHFPAARARDSFASLWGGINAEAGHGGGDTNPLLWVVEFRRITP 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig268

Genome size:  135559
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/burkhoderiaAUlc.txt
Sequence Header:  >Contig267

Genome size:  127863
Host's GC content:  67.71
Predicted Codon Position GC:  	1st:  68.54	 2nd:  44.98	 3rd:  82.27

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig266

Genome size:  125506
Host's GC content:  67.01
Predicted Codon Position GC:  	1st:  68.11	 2nd:  44.79	 3rd:  81.08

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig265

Genome size:  125164
Host's GC content:  67.49
Predicted Codon Position GC:  	1st:  68.41	 2nd:  44.92	 3rd:  81.90

 >PredictedProphage1 
 Length:   12510 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 69.43 	 69.46 	 72.24 	 46.33 	 89.80 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	0	0
 Leu	TTA	0	0
 Leu	CTG	31	0.484375
 Leu	CTA	1	0.015625
 Leu	CTT	1	0.015625
 Leu	CTC	31	0.484375
 Lys	AAG	16	0.888888888888889
 Lys	AAA	2	0.111111111111111
 Glu	GAG	11	0.478260869565217
 Glu	GAA	12	0.521739130434783
 Gln	CAG	6	0.6
 Gln	CAA	4	0.4
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	6	0.333333333333333
 His	CAC	12	0.666666666666667
 Asn	AAT	1	0.166666666666667
 Asn	AAC	5	0.833333333333333
 Ser	AGT	3	0.130434782608696
 Ser	AGC	3	0.130434782608696
 Ser	TCG	15	0.652173913043478
 Ser	TCA	0	0
 Ser	TCT	0	0
 Ser	TCC	2	0.0869565217391304
 Trp	TGG	5	1
 Arg	AGG	0	0
 Arg	AGA	0	0
 Arg	CGG	6	0.157894736842105
 Arg	CGA	2	0.0526315789473684
 Arg	CGT	2	0.0526315789473684
 Arg	CGC	28	0.736842105263158
 Ala	GCG	43	0.623188405797101
 Ala	GCA	2	0.0289855072463768
 Ala	GCT	0	0
 Ala	GCC	24	0.347826086956522
 Cys	TGT	0	0
 Cys	TGC	3	1
 Asp	GAT	6	0.1875
 Asp	GAC	26	0.8125
 Gly	GGG	6	0.157894736842105
 Gly	GGA	0	0
 Gly	GGT	1	0.0263157894736842
 Gly	GGC	31	0.815789473684211
 Phe	TTT	2	0.133333333333333
 Phe	TTC	13	0.866666666666667
 Tyr	TAT	1	0.166666666666667
 Tyr	TAC	5	0.833333333333333
 Met	ATG	11	1
 Val	GTG	21	0.538461538461538
 Val	GTA	1	0.0256410256410256
 Val	GTT	1	0.0256410256410256
 Val	GTC	16	0.41025641025641
 Thr	ACG	18	0.642857142857143
 Thr	ACA	1	0.0357142857142857
 Thr	ACT	0	0
 Thr	ACC	9	0.321428571428571
 Pro	CCG	18	0.782608695652174
 Pro	CCA	0	0
 Pro	CCT	1	0.0434782608695652
 Pro	CCC	4	0.173913043478261
 Ile	ATA	0	0
 Ile	ATT	0	0
 Ile	ATC	21	1
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 71449	71673	1	ref|NP_445672.1|putative helicase	37.0bits(84)	0.43
 71837	72370	1	ref|NP_445672.1|putative helicase	45.8bits(107)	0.001
 77728	77931	-1	ref|NP_046945.1|gp49 	38.5bits(88)	0.15
 78956	79150	-1	ref|NP_945089.1|gp58 	44.7bits(104)	0.002
 83647	83958	1	ref|NP_817650.1|gp61 	49.3bits(116)	8e-05
 
 DNA sequence:
 ATCAAGGCCGGCCGGTCGACGCTCGTGGCCGCGCCGACCGGCTCCGGCAAGACACTCACCGCGTTCCTGTGCGCGCTCGACGATCTGGTGCGCGATGCGCTCGCGCACGACGGCACGCTGCCCGATGCGACGCTGGTCGTCTACGTGTCGCCGCTGAAGGCGCTGTCGAACGACATCCACGTGAACCTCGACGCGCCGCTCGCCGGCATCGCCGAATCGCTCGCGCAGCTCGGCCTGCCGGTGCCGGCGATCCGCACCGCGGTGCGCACCGGCGATACGACGCAGGCCGAGCGCACTGCGCAAGCGCGCGCCGCACGTCCTCGTCACGACCCCCGAATCGCTGTACGTGCTGCTGTCGTCCGCGTCGGGGCGGCAGATGCTGTCGAACGTGCGCTCGGTCATCGTCGACGAAATCCATGCGCTGGCGTCGTCCAAGCGCGGCAGTCATCTCGCGCTGTCGCTTGAACGCCTCGACGCGCTGACCGGGCGCGCGCTGCCGCGCATCGGGCTGTCGGCCACGCAAAAGCCGATCGACGCGGTCGCGCGCCTCCTCGTCGGCGGGCCGGCCGACGCGCCGCGCGACTGCGCGATCGTCGACACGGGCCACACGCGCGAGCGCGACCTCGCGCTCGAACTGCCGAACGTGCCGCTCGAACCGGTCATGGCCACCGACGTGTGGGAACAGGTGTACGACCGCATCGCCGGGCTCGCGGCCGCGCATCGCACGACGCTAGTGTTCGTCAACACGCGGCGTACCGCCGAGCGCATGGCGCGCCATCTCGCCGACCGGCTCGGCAAGGACGCGATCGCCGCGCATCACGGCAGTCTCGCGAAGGAGCACCGCTTCGACGCCGAGCAGCGCCTGAAGCGCGGCGAACTGAAGCTGCTCGTCGCCACCGCGTCGCTCGAACTCGGCATCGACATCGGCGACGTCGATCTCGTCTGCCAAGTTGGCTCGCCGCGCGGCATCGCGCCGTTCCTGCAGCGTGTCGGCCGCTCGGGGCACCACGTCGGCGGCGTGCCGAAGGGGCGGCTCTTTCCGCTGTCGCGCGACGAGCTGGTCGAATGCGCGGCGCTGCTCGACTGCGTGCAGCGCGGCGAACTCGATGCGCTGCGGATTCCCGAAGCGCCGCTCGACGTGCTCGCGCAGCAGATCGTCGCCGAAGTCGCGTGCGCGGAATGGCAGGAAGACGCGCTGTATGCGAGCTTCACGCGCGCCGCGCCGTACGCGCGGCTCGCGCGCGAGCGCTTCGACGAAGTGATGAAGATGCTCGCCGAGGGATTCACGAGCCGGCGCGGCGTGCGCGGCGCGTACCTGCACCGCGACGTGGTCGGCGGCACCGTGCGCGGCCGCCGCAACGCGATGATGACCGCGACCACTTCCGGCGGCACGATCCCCGATATGGCCGACTACGCGGTGCTGCTCGAACCGCAGGGCATCCAGGTCGGCACCGTCAACGAGGATTTCGCGATCGAGAGCCTGGCCGGCGACGTGTTCCAGCTCGGCAACCAGTCGTACCGGATCATTCGCGTGGAAACGGGCCGCGTGCGCGTGGAGGATGCGCAGGGCCAATCGCCGAGCATTCCGTTCTGGCTCGGCGAGGGGCTGGGGCGCAGCGATGAACTGTCGGCGGCGGTCGGCCGGCTGCGTGCGCGGCTCGACGGGCTGTTCGCGGACGGCGATCGACAGGCGCGGACCAACGCGGCGAAGCACGCGAACGTCACCGAGGCCGGCAAGACGGCCACCCGCGGCAAATCCCGAAAAGCGGCCGCCGAGACTGACGCGCCGCCCGCCTCGCCCGACAACGCGCCCGGCGGCACCGCGCTCGCCCCCACCGAAAGCCGCCTCGCGCCCGCGTTGCGCTGGCTCGTCGACGATCTCCACCTGTCGCCCGACGCCGCGCGCCAGATCGCCGACTACCTCGCCCGCACCCGCGCCGCGCTCGGCGCATTGCCGACGCAGGACACGCTCGTGATGGAGCGGTTCTTCGACGAATCGGGCGGCACGCAGCTCGTGATCCATTCGCCGTTCGGCAGCCGCATCAACCGCGCATGGGGGCTCGCGCTGCGCAAGCGCTTCTGTCGCAACTTCAACTTCGAATTGCAGGCCGCTGCAACCGACGACGCGATCATCCTGTCGCTGTCGCTCGCGCACAGCTTCGCGCTCGACGAGGTGTGGCGCTACCTGCGTTCGGCCAGCGCCGAGCACGTGCTGATCCAGGCGCTGCTCGATGCGCCGATGTTCGGCGTGCGCTGGCGCTGGAACGCGACCACCGCGCTCGCGCTGCCGCGTTTCACCGGCGGCCGGCGCACCGCACCGCAACTGCAGCGGATGAAGAGCGACGATCTGCTCGCGACGGTGTTTCCCGACCAGGTCGCGTGCCTCGAGAACATCGTCGGCGAACGCGAGATTCCGCATCACCCGCTCGTCGACCAGACGCTCGACGACTGCCTGCACGACGCGATGGACACCGACGGCTGGCTCGCGCTGCTGCGCCGGATCGAAAGCGGCGCGATCGAGCTCATCGCGCGCGACTTGCCCGCGCCGTCGCCGCTTGCGGCCGAGATCCTGAATGCGAAGCCCTACGCGTTCCTCGACGATGCGCCGCTCGAGGAGCGCCGCACACAAGCCGTGCAGTCGCGCCGCTGGAGCGACCCCGAAACGGCCGATGACCTCGGGGCGCTCGACGCCGACGCGATCGATGCGGTACGCGACGAAGCGTGGCCGCTCGTGCGCGACGCCGACGAAATGCACGATGCGCTGCTCACCCTGGCCTGCGTCGCCGACGACGAGGCGCACGCGCACGCAGGCTGGCCCGAGCGACTCGCGGAACTCGCGGAACGCCGCCGCGCGACGAAACTCGCGACGCCGGGCGGCGCCGCGCTGTGGGTGCCGGTCGAGCGGCTCGTCTGCATGCGTGCGCTGCATCCGGACGCCCGCGCGACACCCGCGCTCAAGGTGCCGGCCGCGTGCGCGCAGCCGTGGGAAGCCGATGCGGCGCTCGTCGACGTGATCCGCGCGCGGCTCACCGGCTTCGGGCCGCTCACGCTCGATGCGATCGCCGCGCCGCTCGGCCTGCCGCCCGCGTCGATCGCGACGGCGCTCGCCGCGCTGGAACGCGAAGGCTACGTGATGCGCGGCCGCTTCACGCCGGGCGCGACGACCGACGAATGGTGCGAACGCCATCTGCTCGCGCGCATTCATCGCTATACGGTGAAGCGGCTGCGCCGTGAGATCGAACCGGTCGAACGCGCCGATTTCATGCGCTTCCTGTTCCACTGGCAGCACCTGACACCCGACACGCGCGGCACCGGCCGCGACGCGCTGGCAGCCGTGGTCGAACAGCTCGAAGGCTACGAGGCCGCGGCGAGCGCGTGGGAAGACGCGCTGCTGCCCGCGCGGCTCACCGACTACACGGCGGGCGGCCTCGACGAGCTGTGCCGCTCGGGCAAGCTGGTATGGACCCGCATCGGCGCGCCGGCGCGCGCGGCCGGTACGCCCGTGAAGACCACGCCGATCGTGCTGCTGCCGCGCCGCCATCTTTCCGCATGGCAGGCGCTGCGTGACCCTGATGCGCAACCGGCACAGTCCGCGCGCGCCACGCAAGTGCGTGACGCGCTCGCCGCGCTCGGCGCGATGTTCTTCGATGCGCTGCTCGACGAGCTACACATGCTGCCCATCGAGCTCGAACAGGCGCTCGGCGAACTCGTGTCGGCCGGCCTCGTGAATGCGGACAGCTACGCGGGCCTGCGCGCGCTGCTGAAGCCGGCCGTCAAGCGCAGCGCGACCTATGCGCCACGCACGCGACGCGGCGGCGCGCTGATCGGCGGGATGGACGACGCAGGGCGCTGGGCGCTCGTGCAACGTCAGGCCCCGCCGGACGATGACGCGCCCACGCCGAAACGCGGCCCTACCACGACCGATCCCGACGCGCTCGAACATATCGTGTGGACGCTGTTGCGCCGCTACGGCGTCGTGTTCTGGCGATTGCTCGAACGCGAAGCCGACTGGCTGCCGAGCTGGCGCGAACTCGTGCGCGTGCTGCAACGCCTCGAAGCACGCGGCGAGATTCGCGGCGGACGCTTCGTCGCCGGGTTCGCGGGCGAGCAATTCGCGCTGCCCGAGGCCATCCCGATCCTGCGCGAACTGCGGCGGCAACCGGGCGACGGACAATACGTATGCGTGACGGGCGCCGACCCATTGAATCTCGCCGGCACGCTGCTGCCCGGCGACAAGGTGCCGGCGCTGGCCGGCAACCGCGTGCTGTTTCGCGATGGCGTGCCCGTCGCATCGCTGGTATCGGGTACGTTCCACTACGCGCCCGACCTGCCGCCCGCCGCGCGCGAGGAGGCACGTCTGCGGCTCGCGCGTTCCTGCTGACATCGGCTGACACGCACGCGGCACCGGACTACTGATCGCCGCGCCGCGCGAGCGTCATCGTTCGGGTAGCATCGAACGATGGACCGCGCGAACTTCCGCGTGTCGCCCACACAAAACAAGACCTTCCGGAGACTGCCGCTCATGCCTTCGCATGCCGATTCGCCCGCTGCCCATCATGCGGGTTCGCTGACCATTTTCCAGGGCGCCGCGCTCTATATCGGCGCGGTGCTCGGCACCGGCGTGATCGCGCTGCCCGCGCTCGCCGCCGACGTCGCCGGGCCCTCCTCGCTGCTCGCGTGGGCCGCGCTCGTCGTGCTGTCCGGGCCGCTCGCGGCCACCTTCGCCGCACTCGGCGCCCGCTATCCCGATGCGGGCGGCGTGTCGACCTACGCGCGGCGCGCATTCGGCCCGAAGGCCGCGGCCATCGTCGGCTGGTGCTTCTATTTCGCGGTGCCGGCCGGCGCGCCGGCCGCCGCGATGTTCGGCGGCGCCTACGTCGCGGCCGTCACGGGCGGCGGACATACGACGGTCATCGTCACCGCCGCCGCACTGATCGCGACCGTATCGGCCGCGAACGCATTCGGCGTCACAGTGTCGGGCCGCATGCAACTCGTGTTGTCGGCACTGCTCGTCGCGCTGCTGCTCGCCGCGGTGCTTGCGTCCGCGCCGCATGCGCGCGCCGCGAACCTGCATCCGTTCGCCCCGCACGGCTGGCTCGCGGTCGGCCAGGCCGCCGCGCTGCTCGTGTGGAGCTTCGCCGGCTGGGAAGCCATCACGCACCTCGCCGCCGAATTCCGCCGGCCGGCGCACGACATGCCGCGCTCGGCCGGCATCGCGGTCGTGGTCGTCGGGTTCCTGTATCTGTCGGTTGCGGCCGCGAGCGTGACGGTGCTCGGGCCTTCCGCGGGCGCATCGGGCGCGCCGCTCGCCGAACTGATCGCGGGCGGCATCGGCGGCCATGCGCAGGTGCTGGCCGCCGCCGCCGCGCTGCTGCTCACGCTCGGCACGATGAACGCGTATTTCGCCGGCGCGGCCAAGCTCGGCGCGGCGCTCGGACGCGACGGCGCGTTGCCTGCGTGGCTCGCTCAGGGCAGCCAGGTCGGCGGCGTGCCGCGTCGCAGCCTCGGCGTGATCGCGGTGCTGGCGGCCGTCGCGCTGGCCGCCACGGCGCTGTCGGACGTCGGGCCGAAGCCGCTCGTGCTCGTGACGTCCGGATGTTTCGTGATGGTGTACGGGCTCGGCGCGGCCGCCGCGCTGAAGCTGCTGCCGCGCGGCGGCATCGCGTACCGCTGCGCGTGGATTTCGCTGATTGCGGTCGCCGGGCTGTTCGTGACGACCGGCTGGTATTTCCTGTGCCCGCTGCTGCTTGCGGGCGGTGCGCTGCTTTATCTGCAGATCACCGGCCCGCGTCGATGACCCGGCAAGCGCCCGCGGGTCGACGCCCGCCAGCTCGCCACACCCGTCGCGCGAACCATCACGCCGATCCGGCCGCCGCGCGCCGTTCGTTCGCGCCGCTCAGGCCGGCACCAGCTCGAAGCTGAGCCGTTTGCCGAGCGCGGCGGCCGCGCTCGCGAGCGTCGCGAGCGTGAGGCTCGTGTCGGTTTCGTCGAGCAGGCGGTTGAGTGCGGCGCGGCTGGTTTTCATCCGCGCGGCCATCGCGGTTTTGGTGATGTGCTGCGCCTTCATTTCCTGCCCGATCTGCCACGCGATCACGCGCTTGATCGCGGTGGCGGTGGCCGCTTCGAGATTGCCGTCCGCTTCGAGGAAGGCGTCGAAATCGCTGCCGATATACGGATTGTTCGTGGTCGTCATGTCGTACTCCAGGTGCATGGCGTTGCCGGCCGCCCGACCGTCGGAGACGGTGCGTTCCGGCACAACCGGGGAATTCAGATGGCGCGCGTCAGCGTTTTCAGGCGCGCGACGGTCACGTCGAGATCGTCCGACGGCGTGCCCCGCGACTGCTTGAAGAAGCCGTGCAGCAGCACCATCGTGTCGCCGACGACCGTGAACAGCACGCGTGCGCTTCGCCCCGGCACCATCACGCGGATCTCCCACAGATCCTTCGCCATCTTCCGGACCAGCGGCATGCCGAGCGGCCAGCCGAGTTGAACGGTCTTGATCTCTTCGCCGATCGCCCTTCGCTCCGCTTGCCCGAGCGCATGGAGCCATTCGCGCACCGGCTCGTGGCCGCGGGCCGTCCGGAAGAACCGCACGCCGAGCGTGACCTGAATCTGCTGTCTCGCCATCGTCTTGTCGTCCATCGTATCAAAAACGGTACGATATGCCAAGCACCCCGACGACGGCTACTGACCGGATGGCCAATCCTACGGCAACAAAAGAAATCGGCCCGGTGGATCGCCCCGGGGCCCGATGAGATCAACGCTTGCCGCGAGCAGGCTTGCGCGCCGCGCGTGGCGCCCGGTGCGGGCGTGCATCGCCGAACCGCGACCGCGCGATGTCGCGCACCGCGTCGATCAGCGTGCGCGCGACCGGCGACGGCTGCGCATCGGTACGCAGCACGAGCCCGACCGGCTCGTCGGTGCCCGCCGCCGGCAGCGGCAGGCGCGCCAGCGCACCGGCCGACAGGTCGTATTCGGCTGCATAGAGCGGCACGAACCAGACCGCGTCGTTCTCGAGCGCCAGCGCGCGCGCGACCGATACCGACAGCACCTCGATGAACGAATCCAGCGGCGGCGCGCCGCATGCGCCGAGCAGTTGCTCGGCGGACTGGCGGATCAGCGTGCCGAACGGCGGCAGCACGACCGGATAGCGCGCCAGCTCGGCGGCCGGCGCCGCGCTCGCGAGCAGCGGATGCCCGGCGCGCACGACCGCGACGAGCGGCTCGTTGTACAACTGCTCGAACGCGAGCCCGATCATCCGCTCCGGCTCCGACAGCCGCCCGATCGCGCATTCGATCGCCCCGGCTTTCAGACGCTCGAGCAACTCGGCGTTCGCGGCCGTCGCGATCCGCACGACGATGCGCGGCCAGCGCGCGGTCAGCGCCTTCATCAAGGCCGGCGCGAGCGAGGCCGCGACGGTCGGCAGCATGCCGATTTCCAGTGTCGCGGCCGCCGCCCCGCCCTCGCGCGCCAGCAGCCCGACGCCCTGCCGCAGCGCCAGCACGCACGCATTCGCGTGCGGCATGAACAGTTGCGCTTCGCGGGTGGGCTGCGCGCCGTGCCGGCCGCGCTCGAACAGCTTCACGCCGAGGATCGCCTCCAGCTCGGCGATCGTCTTCGACACGGCCGGTTGCGTGATCGACAGGCTTTCGGCCGCCTTCTGCACGCCGCCCAGCTGCGCGACCGCGAGAAAGCATTGCAGGTGCCGGAATTTGACGCGGCCGTCGGCGATACGGTTATTCATAACGGGTGGTTATGCGAATCACGATGAATCGCCATTTTGCATAACTTTCCGGAAAGGCCCAAGCGTTCGGCGTGGCGTCATCCGTGGCGCCGCAGCGCGTGGAATCCCGTCGGCTCCCAGATCCGTTTCGCAATCAGCAGGGCCGTGCCGTGCTTCTGCCCGAGCGGCGCGGACGACGACTCCGCATGCAGCGCCGCCGCCTTGCTGGCGAGCCGCCGCAGTTCCTGCTCGAGCTCCGCGGCGGCCGCGTCCGTCAGCATCCCTTGCAGGAACGTCATCGTCTCGCCGGGGCCGTCGAAGCGGCTGCCGAGAAAGTCGTCGAGCACGTGCGCGTGAAAGTAACGGCGGATCGGCCCGCCCGGCAGCCAGTCGAAATCGCGCGCGACCCGCACGCGAATCCGGTCGCCGGGCAGCAGCGCGATCACGTTCATCCGGTCGAGCATCAGCAGGTATTTCACGCATTCGGCCTGCGTGAGCCGATAGGCCGCCACGATGTCCTGCACGGTCCAGTAGTTGATCGCGCAGACGGCGACCAGCAGCAGCTTCTCGTCCGACACGAGCAACGCCTCCTGCTGCTCGGTCAGCACGCGCAGGCGCGGCGCGGATGCCGACGCTTCCTGCACGAGCTCGGCGAGCGTATAGCCGAGCAGCTGCGCGATCTCCGCGACGCGCTCCAGCGTGAAGCGGCCGCTCGCGAACAGCCGCTTCACGCTCGTCTCGGAGACGTCGAGCGCGCGCGCGACGTCCCGGTAAGTCATTCCCTGCGCCTTGAGCTGGCGCTTCAGCGTTTCGATGAGTTGGGCGGTCTCGGTCATGTCGGTATCAAAAAATGATGCTCGAGGTCGGATATTAGGCTACTCACGCATCCACATCAGCACTTTTGGATACTTGTCTGCATAATCCGCTCCGTCCTGTCATGCAACGACGGAGCCGAAATGACCACCCGAATCGACACAGCCGCCTGCGAACCACACCCCACCGCACCGCGCGATGCACGCGACACCGATCGCACGATGCCGCTCGCCACCGTGCGCACGCTGGCCGCCGGCGCGCACGTCGGCGATCTCGTGTTCATCCGCGTGCCGGCCGGCGCACCGGATGCCACGGCCGGCTCGGCCGGCACGTGGGCCAACCGCTTCGGCATCGTCGTCGATACGTCGGGCGACGAACCGCTGATCGCCGAGCCCACGGTGTTCGCGTGGACGAAGCTCACGCCGCTGTCGCGCTTCGTCGCCCGTACAGACGGCGGACGCATCGCGCTGGCGCGCCGCGTCGCGGCAGCGTCGGCCGACGCACAACGCCGCATCCATGCGCTGGCCGAACAGCGAATCGACGCGCTGCTCGGCAGCCGCTTCAACCCGCAGGTGCAGCGCGGTTTCTGCGCGCAGTACGTGACCGACGTGCTCGGTGCCGGCCACGCGGCGACACCGTCGGCCCTGCTGCGCGGCGGCACACTGGCGCTCGAATTCGACGGGATCGTGTTCGATCCCCGCCATCCATGACGACGAGCACGCTCGGGGAGACCGGATAACAACGAGAACAAACGACAAAAAACAGCGACGGGCTGGCTGGAGGGCCGTGCACGGGGTCGTCACCGACGACGCGAAGCCCGATCGCTTTTTTCCGCCGGACGGGCTTCCTGTCCGGCGGATTTTTCATTGCCCGGGCGAACATAACGAATGGTTATGCGATTCGCGAGAAAAGGTCATTTTTCATAACTTTCCGGATTGGCCAAAGTCTTGCCATCCACCTCGCCCAATACTTACCAGGAGACGCCCGATGGATTCCCCCACGATCCTCACGCCGCGCGACTGGCCGTCGCATCCGGCCTATGTCCACCCCGAGTACCGTTCGTCCGTGAAGCGCGGCCCGACCCGCCCGCTGATCCCGCTGAAGGAAAAACTGCGCGACCAGTACGCGCCCGTCTACGGCGCGGAAGATCTCGGCGCGCTCGACCACGACCTGACGAAGAACGCCGTGAAGAACGGCGAGCCGCTCGGCGAGCGGATGGTCGTCACCGGCCGCGTGCTCGACGAAGGCGGCAAGCCCGTGCGCAACACGCTCGTCGAAGTGTGGCAGGCCAACGCGGCCGGCCGCTACGTGCACAAGGTCGACCAGCACGACGCGCCGCTCGACCCGAACTTCCTCGGCGCGGGCCGCTGCCTGACCGACGACGAAGGCCGCTACCGCTTCCTGACGATCAAGCCCGGCGCGTATCCGTGGGGCAACCATCCGAACGCGTGGCGCCCGAATCACATCCACTTCTCGCTGTTCGGCGATTACTTCGGCTCGCGTCTCGTCACGCAGATGTACTTCCCCGGCGATCCGCTGCTCGCGTACGACCCGATCTTCCAGGGCACGCCGGAAGCCGCGCGCGAGCGCCTGATCTCGCGCTTCTCGATGGACATCACCGAAGAAGGCTATGCGCTCGGCTACGAATTCGACATCGTGCTGCGCGGCCGCGACGCCACCCCGATGGAGCGCTGAACCATGACGACGCTAAAGCAAACCCCTTCGCAGACGGTCGGCCCGTACTTCGCGTACGGCCTGTGCCCGCAGCAATACGACTACGACCTGAAAAGCCTGTTCACGCCGACGATCGCCGCGCCGCACGCCGAGGGCGAGCATGTGCTGCTGGTCGGGCAGGTGTTCGACGGCGACGGCAACGTGGTCGGCGACGCGGTGCTCGAATTCACGCAGGTGGATGGCGCGGGCCGCTACCCCGCGTCGCGCGACGACATCGCGAAATCCGGCTTCACGGGCTTCGCGCGAGTCGGCACGGGCACCGACCCGCAGCAGCGCTTCGTCGTCGAGACGGTGAAGCCGGGCCGCGTCGCCGCCGACGAGGCGCCGCACATCAACGTGACCGTGATGATGCGCGGCATCCTCACCCATGCGTTCACACGCGTGTACTTCGACGACGAAGCCGCCGCGAACGCGGTCGACCCCGTGCTGAACGCGGTGCCGGCCGAGCGCCGCGCGACGCTCGTCGCGAAACGCGACGCGCAGCCGGGCCGGCCGGTCGTCTACCGCTTCGACATCCGCATGCAGGGGCCGGAAGAAACCGTGTTCTTCGACGTTTGACGCACGCACGCGCCCGCGCTTGACGGCTTCGGCGCAACCGCTTCGCCGTGTGGCGCGATACCGACGGGCATCGCGCCACACGGCGTTTTTGCGCACGGCGCCGCCATCATTCGATGGTGCACTGCATCGTGACCAACGGGGCTGCGGATGCCTGTCGTTATCGGCTTCCCGCCCCGATATCGAACGCGCCATCGAAACGCATGCTGCGACAGCACATCAATCGGCGGATCGACACGATATCGTTTGCGCGTTATGCGGCGTATGCTTCGTTATCCGCAACGAGCTGACAGGATTAAATCAGACGAAGCAACAATGACATGCATCATGCGCGACGCTGCCCCTGAGGCGGCCCGCGCATTTTTTTCAGACAGAGTGCCTTTAAACGCGTCTGGCCGAAGTTGGCGGACGCGTATTTTTTGGTGGCGACCGGCTAGCGACGAATCTCGAGATAGCGGCTCGGCGTGTCGCCGAGAATGCGGCGAAACGCCGACGTGAACGCACTCGCGCTCGCGTAGCCGAGATCGAGCGCCACGCGCGTCACCGGCTGCCCGTCGGTCAGGCGGGCAATCGCCGCGAGCATGCAGACCTGCTGGCGCCAGGCGGCAAAACTCACGCCCGTCTGCGCGCGGAACTGCCGCGTGAACGTGCGGCGGCTCACGCCTGCGTCGGCCGCGACCCGGTCGAGATCGGCGTCGATCGACGGCGCCGCGAACAGGTGCCGGCACACCTTCGCCAGCCGCGCATCGGCCGGCAGCGGCGCATGCAGCGACAGGCGCGGCATCGTCGCGATTTCCGCGACCAGTAGATCCATCAGCTTGCCCGCGCGACCGTCGACGTCGTACATGGCCGGCAGGTCGATCGCATCGTCGAGCAGTTGCCGCAGCAGCGGCGACACGCCATACACGCCGCACTGGGCCGGCAGCCCGGCCGCCTGCGCGGCGTCGACGGACACGAACGCATTGAGCATCGTGACCGGCCCGGTCATGGTCATTTCGTGCCGCACGCCGGCCGGCACCCAGCACGCGCGCTGCGGCGGCACCAGCCAGCGCCCGTGCGGCGTCGACACGCTGATCGTGCCGCGCGACGCGAACGCGAATTGCCCGCGCACGTGCGCGTGATCCGGAAACGTCGTGCCCGCCGCAAAGTCGTTGGCGAGCACGACCACGCTCCGGGGAATGTGTTCGTAGGGATCTAGCAGCGTATTTCTCACGGCCCGAATTCCATCATCAATGACCCGATATCGAAGGCGGGTCGCCTTCGAACGATCTACGATCCGCTCCACCGTTGCGCGACCTCGCGGCCGGGACACCCGCCGGCCTGGTCGGCCGGATGGCAACCTCATCGGAGCGGACATGCCCAATACGTTTCATCGCGTGGGGAAAGGCCCCCACCCTGTTCTCGTGCTGCACGGCTGGTTCGGCGACGCCCGCGCGTTCGAACCGCTCGAAGCCTGGCTGTCGCGCGAGCACTTCAGCTATGTATTCATGGACTACCGAGGTTACGGCCGTATGCGCGACGCACACGGCAACTACACGATCGACGAGATCGCCGCCGATACGCTCGCGCTCGCCGACGCGCTCGGCTTTCCGACCTTCAGTCTCGTCGGCCATTCGATGGGCGGCATGGCGATCGAGAAGATCGCCGCCATCGCGCCCGACCGCGTGCGCGCGCTGGTGGCGATC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 ATCAAGGCCGGCCGGTCGACGCTCGTGGCCGCGCCGACCGGCTCCGGCAAGACACTCACCGCGTTCCTGTGCGCGCTCGACGATCTGGTGCGCGATGCGCTCGCGCACGACGGCACGCTGCCCGATGCGACGCTGGTCGTCTACGTGTCGCCGCTGAAGGCGCTGTCGAACGACATCCACGTGAACCTCGACGCGCCGCTCGCCGGCATCGCCGAATCGCTCGCG 
 >PredictedProphage1 -Hit 2 
 GTGCGCTCGGTCATCGTCGACGAAATCCATGCGCTGGCGTCGTCCAAGCGCGGCAGTCATCTCGCGCTGTCGCTTGAACGCCTCGACGCGCTGACCGGGCGCGCGCTGCCGCGCATCGGGCTGTCGGCCACGCAAAAGCCGATCGACGCGGTCGCGCGCCTCCTCGTCGGCGGGCCGGCCGACGCGCCGCGCGACTGCGCGATCGTCGACACGGGCCACACGCGCGAGCGCGACCTCGCGCTCGAACTGCCGAACGTGCCGCTCGAACCGGTCATGGCCACCGACGTGTGGGAACAGGTGTACGACCGCATCGCCGGGCTCGCGGCCGCGCATCGCACGACGCTAGTGTTCGTCAACACGCGGCGTACCGCCGAGCGCATGGCGCGCCATCTCGCCGACCGGCTCGGCAAGGACGCGATCGCCGCGCATCACGGCAGTCTCGCGAAGGAGCACCGCTTCGACGCCGAGCAGCGCCTGAAGCGCGGCGAACTGAAGCTGCTCGTCGCCACCGCGTCGCTCGAACTCGGCATCGAC 
 >PredictedProphage1 -Hit 3 
 GGCTGGCCGCTCGGCATGCCGCTGGTCCGGAAGATGGCGAAGGATCTGTGGGAGATCCGCGTGATGGTGCCGGGGCGAAGCGCACGCGTGCTGTTCACGGTCGTCGGCGACACGATGGTGCTGCTGCACGGCTTCTTCAAGCAGTCGCGGGGCACGCCGTCGGACGATCTCGACGTGACCGTCGCGCGCCTGAAAACGCTGACG 
 >PredictedProphage1 -Hit 4 
 CTGCAATGCTTTCTCGCGGTCGCGCAGCTGGGCGGCGTGCAGAAGGCGGCCGAAAGCCTGTCGATCACGCAACCGGCCGTGTCGAAGACGATCGCCGAGCTGGAGGCGATCCTCGGCGTGAAGCTGTTCGAGCGCGGCCGGCACGGCGCGCAGCCCACCCGCGAAGCGCAACTGTTCATGCCGCACGCGAATGCG 
 >PredictedProphage1 -Hit 5 
 CGCGTGGGGAAAGGCCCCCACCCTGTTCTCGTGCTGCACGGCTGGTTCGGCGACGCCCGCGCGTTCGAACCGCTCGAAGCCTGGCTGTCGCGCGAGCACTTCAGCTATGTATTCATGGACTACCGAGGTTACGGCCGTATGCGCGACGCACACGGCAACTACACGATCGACGAGATCGCCGCCGATACGCTCGCGCTCGCCGACGCGCTCGGCTTTCCGACCTTCAGTCTCGTCGGCCATTCGATGGGCGGCATGGCGATCGAGAAGATCGCCGCCATCGCGCCCGACCGCGTGCGCGCGCTGGTGGCGATC 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 IKAGRSTLVAAPTGSGKTLTAFLCALDDLVRDALAHDGTLPDATLVVYVSPLKALSNDIHVNLDAPLAGIAESLA 
 >PredictedProphage1 -Hit 2 
 VRSVIVDEIHALASSKRGSHLALSLERLDALTGRALPRIGLSATQKPIDAVARLLVGGPADAPRDCAIVDTGHTRERDLALELPNVPLEPVMATDVWEQVYDRIAGLAAAHRTTLVFVNTRRTAERMARHLADRLGKDAIAAHHGSLAKEHRFDAEQRLKRGELKLLVATASLELGID 
 >PredictedProphage1 -Hit 3 
 GWPLGMPLVRKMAKDLWEIRVMVPGRSARVLFTVVGDTMVLLHGFFKQSRGTPSDDLDVTVARLKTLT 
 >PredictedProphage1 -Hit 4 
 LQCFLAVAQLGGVQKAAESLSITQPAVSKTIAELEAILGVKLFERGRHGAQPTREAQLFMPHANA 
 >PredictedProphage1 -Hit 5 
 RVGKGPHPVLVLHGWFGDARAFEPLEAWLSREHFSYVFMDYRGYGRMRDAHGNYTIDEIAADTLALADALGFPTFSLVGHSMGGMAIEKIAAIAPDRVRALVAI 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig262

Genome size:  111558
Host's GC content:  68.46
Predicted Codon Position GC:  	1st:  69.00	 2nd:  45.18	 3rd:  83.54

 >PredictedProphage1 
 Length:   10343 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 66.03 	 65.42 	 55.56 	 48.18 	 92.52 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	5	0.0568181818181818
 Leu	TTA	1	0.0113636363636364
 Leu	CTG	54	0.613636363636364
 Leu	CTA	0	0
 Leu	CTT	1	0.0113636363636364
 Leu	CTC	27	0.306818181818182
 Lys	AAG	35	0.972222222222222
 Lys	AAA	1	0.0277777777777778
 Glu	GAG	16	0.484848484848485
 Glu	GAA	17	0.515151515151515
 Gln	CAG	23	0.884615384615385
 Gln	CAA	3	0.115384615384615
 End	TGA	0	0
 End	TAG	1	0.5
 End	TAA	1	0.5
 His	CAT	1	0.125
 His	CAC	7	0.875
 Asn	AAT	5	0.208333333333333
 Asn	AAC	19	0.791666666666667
 Ser	AGT	1	0.0135135135135135
 Ser	AGC	24	0.324324324324324
 Ser	TCG	43	0.581081081081081
 Ser	TCA	1	0.0135135135135135
 Ser	TCT	0	0
 Ser	TCC	5	0.0675675675675676
 Trp	TGG	10	1
 Arg	AGG	4	0.102564102564103
 Arg	AGA	0	0
 Arg	CGG	13	0.333333333333333
 Arg	CGA	1	0.0256410256410256
 Arg	CGT	4	0.102564102564103
 Arg	CGC	17	0.435897435897436
 Ala	GCG	66	0.628571428571429
 Ala	GCA	6	0.0571428571428571
 Ala	GCT	2	0.019047619047619
 Ala	GCC	31	0.295238095238095
 Cys	TGT	0	0
 Cys	TGC	7	1
 Asp	GAT	3	0.15
 Asp	GAC	17	0.85
 Gly	GGG	7	0.0760869565217391
 Gly	GGA	1	0.0108695652173913
 Gly	GGT	6	0.0652173913043478
 Gly	GGC	78	0.847826086956522
 Phe	TTT	2	0.04
 Phe	TTC	48	0.96
 Tyr	TAT	4	0.181818181818182
 Tyr	TAC	18	0.818181818181818
 Met	ATG	20	1
 Val	GTG	33	0.559322033898305
 Val	GTA	0	0
 Val	GTT	0	0
 Val	GTC	26	0.440677966101695
 Thr	ACG	41	0.621212121212121
 Thr	ACA	1	0.0151515151515152
 Thr	ACT	2	0.0303030303030303
 Thr	ACC	22	0.333333333333333
 Pro	CCG	38	0.844444444444444
 Pro	CCA	0	0
 Pro	CCT	0	0
 Pro	CCC	7	0.155555555555556
 Ile	ATA	0	0
 Ile	ATT	4	0.0481927710843374
 Ile	ATC	79	0.951807228915663
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 98874	98954	-1	ref|NP_932452.1|hypothetical protein	38.9bits(89)	0.10
 99133	99699	1	ref|YP_024939.1|gp19 	38.1bits(87)	0.17
 103948	104832	-1	ref|NP_817564.1|gp117 	332bits(850)	6e-90
 107618	108616	1	ref|NP_945090.1|gp59 	140bits(352)	3e-32
 109022	109216	1	ref|NP_945090.1|gp59 	38.9bits(89)	0.10
 
 DNA sequence:
 GTACGCGGGAATCGCATAGGCCGCGACGACCCCGACGATCGCCAGCACGATCATCAGTTCGATCAGCGTGAAGCCGGCCAGCCGCCAGCGCGACGACGGCCGGTTCGCGTGCCGCAGATCGGCGGCAACGCGACGGAACAGGGAAACGGAAAAGGCTTCGAACATGAACAGGCTCCGGAAACGAAAAACGCCTGCCGATACAGGCAGGCGTCTCGATCGTAGCCAGCGGGCCGCGAAGCCGGCAGTCAGCCGGATGGCCAGTCAGTGCGCGTGCGGCACGCTGCGGCGTTTCCTGAGCGCATAACCGATCGCGACGACGAACAACGCGCCGACGATGCTCGCGCCGTAGACCACTTCCGGCGCATCAAGCACCGGCCAGCGGTCGCCGACCGGGTCGTTCACGATCAAGCCGCCCGCGATCCAGCCGAGCAGCCCGGCGCCGAATGCCACGACGACCGGGAAACGGTCGAGCAGCTTCAGCACCAGCGTGCTGCCCCACACGATGATCGGCACGCTGACGATGAGCCCGAAGATCACGAGCGCGATCCGGTGCGACGGATCGGCCTGCTCGGCCGCGCCGGCGATCGCGATCACGTTGTCGAGGCTCATGACCGCGTCGGCGATCACGATCGTCTTCACGGCGTCCCACAGCCGGTCGGCCGGCTTGATGTTGTCGTGCGCGTCGGCGGCCGGCGCCATCAGCTTGATGCCGATCCACAGCAGCAGCAGGCCGCCGCCGAGCTTCAGGAACGGCACGTCGAGCAGCGCGACCGCGAACGTGATCAGCGCGACACGCAGCAGGATCGCCCCCGCAGTGCCCCAGACGACGCCGCGCAGCCGCTGGTTCGCCGGCAGGTTGCGGCACGCAAGCGCGATCACGACCGCGTTGTCGCCGCCGAGCAGGATATCAATGATGACAATCTGGAGAATGGCGCCCCAGTGCAGCGAGGTCAGGAATTCGAGCATAGCGGAGAGGAAAGGACAACGGCCGCCTCGCGGGCGGCCCGGTTCATCGTAGGCGCATGCAGAACGCATGCCCGGTGCTTACGAATTCATTGCGGGAGCATAACAAAAAACGCCGGCAAAGCCGGCGTTTTTTGCAGGACGAGCCCAATGGAAATGATTACAGCGCCTTCTTCAGCAGACGGCCCATTTCCGACGGGTTGCGCGTGACGGTGATGCCGCACGCTTCCATGATTTCCAGTTTCGCTTCGGCCGTATCCGCACCGCCCGAGATCAGCGCGCCGGCGTGGCCCATGCGCTTGCCCGGAGGCGCCGTGACGCCCGCGATGAAGCCGACCACCGGCTTCTTCATGTTGTCCTTGATCCACTCGGCGGCGTTGGCTTCGTCCGGACCGCCGATTTCGCCGATCATCACGACCGCATCCGTATCCGGATCGTCGTTGAACATCTTCATCACGTCGATGTGCTTCAGACCGTTGATCGGGTCGCCGCCGATACCGACTGCCGACGACTGGCCGAGGCCGAGTGCCGTCAGCTGGGCAACCGCTTCATACGTCAGCGTGCCCGAACGCGACACGACGCCGATGCGGCCCTTGCGGTGGATGTGACCCGGCATGATGCCGATCTTCAGTTCGTCCGGCGTGATCGTGCCCGGGCAGTTCGGCCCGAGCAGCAGCGTCTTGCGGCCTTCGCGACGCATGCGGTCCTTCACTTCGATCATGTCACGGACGGGGATGCCTTCCGTGATGCAGATCGCGAGATCCAGGTCGGCTTCGACCGCTTCCCAGATCGCAGCGGCCGCGCCTGCCGGCGGAACGTAGATGACCGACACGGTCGCGCCGGTTTCCGCCTTCGCTTCCTTGACGCTCGCGTAGATCGGAATGCCTTCGAAGTCTTCGCCGGCCTTCTTCGGGTTCACGCCCGCGACGAATGCTTCGCGGCCGTTTGCGTATTCACGGCAGGCGCGCGTATGGAACTGACCGGTTTTGCCGGTAATGCCCTGCGTGATGACCTTCGTGTCCTTGTTGATCAGAATCGACATGTATTTTGACCTCTGTTCGATGGGCGTCGCGTGCAAACCGCGCCGCCCTACGTGTTCATTAGCGCGTGCTTACTTGCCTGCGGCAGCCGCGACGACCTTCTGCGCAGCCTCTTCCATGCTGTCCGCCGAGATGATCGGCAGGCCCGAATCGGCCAGCATCTTCTTGCCGAGGTCCTCGTTCGTGCCCTTCATGCGCACGACCAGCGGCACGTTCAGGTTCACGGCCTTCGAACCGGCGATCACGCCTTCCGCGATCACGTCGCAGCGCATGATGCCGCCGAAGATGTTCACGAGGATCGCCTTCAGGTCCGGGTTCTTCAGCATCAGCTTGAACGCTTCCGTGACCTTCTCGGTCGTCGCGCCTCCGCCGACGTCCAGGAAGTTCGCCGGTTCGCCGCCGAACAGCTTGATCGTGTCCATCGTCGCCATCGCGAGGCCCGCGCCGTTCACGAGACAGCCGATGTTGCCGTCGAGCGAGATGTACGCGAGGTCGAACTTCGACGCTTCGATTTCAGCCGGATCTTCTTCGTCCAGATCGCGGTACGCGACGATTTCCGGGTGACGGAACAGCGCGTTCGAGTCGAAGTTGAACTTCGCGTCGAGTGCGGTGACCTTGCCGTCGCCGGAGACGTTCAGCGGGTTGATTTCGGCCAGCGATGCGTCGGTTTCCCAGAATGCCTTGTACAGGCCTTGCAGGATCGCGCGCGCTTGCGGAATCGACGCAGCCGGCACGCCGATCTTCGCGGCGAGGTCGTCGGCCTGCGCGTCCAGCAGGCCCGTCGACGGCTCGACGATGACCTTGTGGATCAGTTCCGGGTGCTTCTCGGCGACTTCTTCGATGTCCATGCCGCCTTCGCTCGAGCCCATCAGCACGATCTTCTGCGAGATGCGGTCGACGACGAGGCTGACATACAGTTCCTGCTTGATGTCGGCGCCTTCCTCGATCATCAGACGGTTGACCTTCTGGCCTTCCGGACCGGTCTGGTGCGTGACGAGCTGCATGCCGAGGATCTGGTTCGCGTATTCGCGGACCTGCTCGATCGACTTCGCCACCTTCACGCCGCCGCCCTTGCCACGGCCACCCGCGTGAATCTGAGCCTTCACGACCCATACCGGGCCGCCGAGCTCTTCCGCCACCTTGACGGCCTCGTCAACCGAGAACGCCGGCTTGCCGCGCGGTACCGCGACTCCGAATTTCCGCAGGATTTCCTTACCCTGGTACTCGTGAATCTTCATGCGTGATTCCCTTCAGTCTGAGAGTTGGATGAAAAGTCGCTTAAGACGCTTCTTCGAATGATTTCCGTTCATTCCTTCGTGCTGCCTTCACCGGGCAGATCCGGCCGAATCGGGCCGTACCAGCGCGGGTAGTACTGCCGCACGACCTCACCGTCGAATCGCAGCGCGCGGCAGCGGCCGAGCTGGAAAGGCGGTTCGGCGTGCGCGCCGTCGTGATCCGGCCCTTCGCCGCCCTCCTCGCGCACGTTCCACACGTCACCGGCGAACGCCTGGATCGCGGCCGTCGGCAGCACGGCGCACAGTTCGGTGAGATGGGAACAGCCTGCGACGCCGGCGAGCAGCCGGTTCGCGTTGCGGCGGAAATTGCGGAAGAGATTGAGCCCGATGAGGGCCCGATAGGTGGGCGGGGCGGATTGACAATGACCAGGATAGGGCACCCATTCCGAAGACGCTTCGGCGTCGACGACATTGAGGTCACGATCGATGGTCACGCGCAGCCAGAGTTCGTGGATCGGCAGACCCTGGGGCCGGATGCCCGACGCAAGCGCGACATCGCGCGGCTTGTGGTCGGTCAGGCAGGCTTCGATGTCCCACAAGCCGTCGCCGCGCTCGTAGGCTTCCGCTCGGATTGCGCGTCGATGTCGCAACTGACGGGGCACGGGCTCGGATAGCGGCATGCTGGAGGTTGAGGCCGAAGAGGAAAACCCGTGGATTTTAGCATATTGGGTATTTGAGACAGTTTGCCGCGACGGCGGGTATTCCCGCCTGTCCGGAAGCGGTTGCAATGCAGCAAAATCGCGCGCCACGCGCGCGACCGGGCGGCTCAGTCGTCGATCGGGAAATCGTCGCCGACCTTCAGCAACTTCACGATGGTCGCGCTCGAGAAGCCGCGCGCGGCCAGGAAGCGCGCCTGCTTCGCGCGTTCGGCGGGCGTTTGCGGCAGTGCACCGAATTTCTTGCGCCAGACAGCCTGCGCGCGCGTCAATTCGGTCTCGCGCAATTGGGCATTCACCTCTTCGACGAGACTGTCGCCGACCGCATGGCGCTTCAGCTCGCTGACGATGCGCGCGACGCCGACACGCGACGCGCGACGATGCACGAGGCTCTCGGCGAAGCGCGCGTCGGACAGCCAGCCTTCCTGTTCCAGCGCATCGAGCACCGGTTCGATGGACTCGCCTTCGTCGACGTAGGGTGCGAGCTTGCGCGCGAGCTCCGCGCGGCTGTATTCACGCCTCGACAGATAGCCGAGCGCGCGGCCCTTCAACGACCGCGGCGGCTTCGACGACTTGCGCTCGCTGGCGCCCGGCGCGTCGCTCGAAGCAGCGCCGCTGGAAGATGCGCCGAAAGACGCACCGGCTGCGCGGCGTGTGCGGCGCGGATGCTGGCTGCTGCGCGTATAGACATCTTCCGTCGCGGGCGCATCGGCTGTGCGATTGCTCGGGGCGCGATCGCCCGGGAAGCGGACACCGGACACGCGACGGCGGGAGCGATCATGCGCGTCGAACGACTCGTCGTCGTCGAACGGATCGTCCGGTGCGGCAATCTCAAATGAAACGAGGGCATCGTCGGATGCCCTCGTCGCAGTGCGGTTCGCGGCGTTGCCGCCTGCGCCCCGCCGGTCGGCGCCCGAGGAACCGGCTCGCCGGCCGGAGCGACCCGCCGTTTCGGGCACGTCGCTCTCCTCCGGCTCGCCAGCCTGACCTCGGCGCACAACCATTACTCTTCTTCGTCCAACGCCTCGGCTTCGTTGGCTACGCCATCGGGCATGCTGACGACACCGAGCGATTCGCGGATGCGGTTTTCGATCTCGCGTGCGATTTCCGGATTCTCGCGCAGGAATTCACGCGCATTGTCCTTGCCCTGGCCGATCTTCTCGCCGTTGTAGCTGTACCAGGCGCCGGCCTTGTCGACGATCTTCGCCTGCACGCCGAGATCGATGATCTCGCCCTGACGCGAAATACCTTCGCCGTACAGGATGTCAAAGATCGCTTCGCGGAACGGCGGCGACACCTTGTTCTTGACGACCTTCACGCGGGTTTCGTTGCCGATCACCTCGTCATTCTTCTTGATCGAACCGATCCGGCGAATGTCGAGACGCACCGACGAATAGAACTTCAGCGCGTTGCCGCCCGTGGTGGTTTCCGGGTTGCCGAACATCACGCCGATCTTCATCCGGATCTGGTTGATGAAGATCACCAGGCAGTTCGTGCGCTTGATCGTGCCGGTCAGCTTGCGCAGCGCCTGCGACATCAGGCGAGCCTGCAGACCCGGCAGCGAATCGCCCATCTCGCCTTCGATTTCGGCCTTCGGCACGAGCGCCGCGACCGAGTCGATGACGATCATGTCGATCGAGCCCGAGCGCACCAGCGCATCGGTGATTTCGAGCGCCTGCTCGCCGGTGTCCGGCTGCGAGATCAGCAGTTCCGGCACGTTCACGCCGAGCTTCGACGCGTACTGGACGTCGAGCGCGTGCTCGGCGTCGATGAACGCCGCGGTGCCGCCGATCTTCTGCAGTTCAGCGATGACTTGCAGCGTGAGGGTGGTCTTACCGGACGATTCCGGACCGTAGATCTCGACCACCCGGCCGCGCGGCAGGCCGCCGACGCCCAGCGCGATGTCGAGACCCAGCGACCCCGTGGAGACGACCTGGATATTCTCGGCCGCCTCGCCGTCGCCCATGCGCATGATCGAGCCCTTGCCGAACTGCTTCTCGATCTGTGCGAGTGCGGCCGCCAGCGCCTTGCTCTTCTCGGCGGTCATCCCGGAGCCCTTCTTGCTATCTTCCATGAATCGTCCTTTGCTATGATGAGCAGCGTCTGTTGGAGGCGCGCCCGCTTCAAGCGCTGCCCACGAATGCAGACACTGTATAAAAAAACAGTGTTTTGTGCAAGCCCGCAATGCAAAGCGTTGTGCACGAATAACTTCGGAGACAGCCGCGCCGGCGCGAACGCCCTGCCGGCACCGGTCAGCAACATGCGAATTCTCATCGCCGAAGACGACAGCATACTCGCGGACGGCCTCACCCGGTCACTCCGCCAATCGGGCTATGCCGTCGATCACGTGAAGAGCGGCGTCGACGCCGACACCGCGCTGTCGATGCAGACTTTCGACCTGCTGATCCTCGATCTCGGGCTGCCGAAAATGTCCGGGCTCGACGTGCTCAAGCGCCTGCGCGCGCGCAATTCCAATCTCCCCGTGCTGATCCTGACCGCCGCCGACAGCGTCGACGAACGCGTGAAGGGGCTCGACCTCGGCGCCGACGACTACATGGCCAAGCCGTTCGCGCTCAACGAGCTCGAGGCGCGCGTGCGCGCGCTGACCCGGCGCGGCGCCGGCGGCGGCCCGACCGTCGTGCGCCACGGCTCGCTCGCGTTCGACCAGGTCGGTCGCATCGCGTACGCGAACGATCACGTGCTCGATCTCTCCGCGCGCGAGCTCGGCCTGCTCGAGGTGCTGCTGCAGCGGATCGGCCGGCTCGTGTCGAAGGAACAGCTCGTCGATCACCTGTGCGAATGGGGCGAGGAAGTCAGCAACAACGCGATCGAAGTCTACGTGCACCGGCTGCGCAAGAAGATCGAACCGAGCGGCGTGCGGATCTCGACCGTGCGCGGCCTCGGCTATTGCCTCGAGAAGGTCGCGCCCGCGACGCCGGCCGACACGGCGGCGCCCCAGCCCGCGGCGGCCGGCACGCCGCTGCGCTGACGCCGGGCGGCGCCGCGATGGCCACGCCGGCCCATTCCCCTTCCCGCCACCCGACCGGCGCGCCGTCGTCGGCTGCCGACGAGGCGCGCGACGCGCGCTACGAGAACCCGTTCGCGCCGCCCGACGAGACCGAATCGCCCGAAACGCCGCGCCCGCGCTCGCTGTTCGGCGAAATCCTCGACTGGATGCTCGCGCCGCTGCTGCTGCTGTGGCCGATGAGCATCGCCGTCACCTATCTCGTCGCGAAGACGATCGCGAACAGCCCGTTCGATCGCGCGCTCGAGACCAACGCCTACGTGCTCGCGCGCCAGATCCATCCGGTCAACGGCGTCGCCGAGCTGACGCTGCCGGAGCAGACGCGCGACTTCCTGCGCGCGGACAACATCGACAGCGTCTACTTCCAGGTGCTCGGCACGCGCGGCGAGCTGGTCGCGGGCGAGGCCGACATGCCGCTGCCGCGTGACGAGGACCGCCCGCCGCCGGGCGTCGTCGTGTTCCGCGACGACCTGCTGCGCGGCAACGACGTGCGCGTCGCGTATACGACCGTCGCGCTGCCGCAGACGAGCGGCGCGCAGCCCGTGCTCGTGCAGGTCGGCGAGACGCTCGACAAGCGCAATGCGCTCGCCAACGACATCATCAAGGGCGTGATCCTGCCGCAATTCGTGATCCTGCCGCTCGCGATCCTGCTCGTCTGGTTCGGGCTGTCGCGCGGGCTCGCGCCGCTCAACGCGCTGCAGGCGCACATCCGCGCGCGGCGGCCCGACGACCTGTCGCCCGTCGAGGCGCAGCGCGCGCCGCCCGAGATCGAGCCGCTCGTCACGTCGTTCAACGACCTGCTCGCGCGCCTCGAACAAAACATGGCGCTGCAGAAACGCTTCATCGCCGATGCCGCGCACCAGATGAAGACGCCGCTCGCGGGCCTGCGCACGCAGGCCGAGTTCGCGCTGCGCCACCCGGTGCCGCCCGACGTGCAGCGCTCGCTCGAGCAGATCGCGACGAGCTCCGAGCAGGCCGCGCGGCTCGTCACGCAACTGCTGGCGCTCGCGCGCGCCGAGAACCGCGCGAGCGGGCTGACGTTCGAGCCGGTCGAGATCGGTTCGCTCGCGCGGCGCACCGTGCGCGACTGGGTGCAGGCCGCGCTCGCGAAACGCATGGACCTCGGGTACGAAGGCCCGGACGACGATGCGCCGCTCGAGGTCGACGGCAACCCGGTGATGCTGCGCGAGATGCTCGGCAACCTGGTCGACAACGCGATCCGCTATACGCCCGAAGGCGGCCGCATCACGGTGCGCGTGCGGGCCGAGCGCGCGGCGCGGCGCGTGCATCTCGAAGTCGAGGATACCGGCCCCGGCATCCCGGCCGGCGAGCGCGAGCGCGTCGTCGAGCGTTTCTACCGGATCCTCGGCCGCGAAGGCGACGGCAGCGGCCTCGGGCTCGCGATCGTGCGCGAGATCGCCACGCAGCACGGCGGCACGCTGACGCTCGACGATCACGTCTACCAGCACGCGCCGCGCCTCGCCGGCACGCTGGTGCGCATCAGCCTGCCGCTCACCGATACCGCCCCGGATTAACCCTGACGCGCGCCGCCACGGCACGGCGCCAATACGCAGAAACCGGCGCTTTACCGGACGTTCACGCCACGATCGACACGCGAAGCGACCGATTCGACACGGGTTAACGCGCAGTCGTTTTGTACGCGCAAGTCAGTGCGCCGTAAGTTTCCGTGCCAATAATCGTCGACAGGCCCGCCCCTCCCAAGGCGGCCGCACATCTATATCAAGGGACTTGGAGACGATTCATGGCAACGTTAGGCGGGCAAATTTCGCACTCGCCGATGACGGGCGAAGAGAAGAAGGTGATCTTCGCGTCGTCGCTCGGCACCGTGTTCGAGTGGTACGACTTTTACCTGGCCGGCTCGCTCGCGGCCTACATCAGCAAGAGCTTCTTCTCCGGCGTCAATCCGACCGCCGCGTTCATCTTCACGCTGCTCGGCTTCGCCGCCGGCTTCGCGGTGCGGCCGTTCGGCGCGATCGTCTTCGGCCGGCTCGGCGACCTCGTCGGCCGCAAGCACACGTTCCTCGTGACGATCGTGATCATGGGCGTCTCGACGTTCGTGGTCGGCTTCCTCCCGGGCTACGCGTCGATCGGCATCGCCGCCCCCGTGATCTTCATCGCGATGCGGCTGTTGCAGGGCCTCGCGCTCGGCGGCGAGTACGGCGGCGCGGCGACCTACGTCGCCGAGCATGCGCCGGCCAACCGGCGCGGCTTCTACACCGCCTGGATCCAGACGACGGCCACGCTCGGCCTGTTCCTGTCGCTGCTCGTGATCCTGGGCGTGCGCACGTTCATCGGCGAGGAAGCGTTCGGCAACTGGGGCTGGCGCGTGCCGTTCGTCGCATCGATCCTGCTGCTCGGGGTGTCGGTGTGGATCCGGCTGCAACTGAACGAATCGCCGGTGTTCCTGCGCATCAAGGCGGAAGGCAAGACGTCGAAGGCGCCGCTGACCGAAGCGTTCGGCCAGTGGAAGAACCTGAAGATCGTGATCCTCGCGCTGATCGGCCTGACGGCCGGCCAGGCGGTCGTGTGGTACACGGGCCAGTTCTACGCGCTGTTCTTCCTCACGCAGACGCTGAAGGTCGACGGCGCCAGCGCGAACATCCTGATCGCGATCGCGCTCCTGATCGGCACGCCGTTCTTCCTGTTCTTCGGCTCGCTGTCGGACAAGATCGGCCGCAAGCCGATCATCCTTGCCGGCTGCCTGATCGCCGCGCTGACCTACTTCCCGCTGTTCAAGGCGCTCACGCACTACGCGAACCCGCAGCTCGAACTCGCGACGCAGAAGGCGCCGATCACGGTCGTCGCCGATCCGGCTACCTGCTCGTTCCAGTTCAACCCGGTGGGCACGTCGAAGTTCACCACCTCGTGCGACATCGCGAAGAGCGCGCTCGCGAAGGCCGGCCTGAACTACGAGAACGTCGCGGCGCCGGCCGGCACGCTGGCCGAAATCAAGGTCGGCGACACGGTGATCCAGACCTACGACGGCAAGGCGGCCGACGCGAAGGCGCAGGGCGCGGCGTTCGACAAGACCCTCGCGTCGACGCTGAAGGGGGCCGGCTACCCGGCGAAGGCCGACCCGGCGCAACTCAACTGGCCGATGACGATCGTGATCCTGACGATCCTCGTGATCTTCGTGACGATGGTCTACGGCCCGATCGCCGCGATGCTGGTCGAGATGTTCCCGACGCGAATCCGCTACACGTCGATGTCGCTGCCCTATCACATCGGCAACGGCTGGTTCGGCGGCTTCCTGCCGGCAACTGCGTTCGCGATCGTCGCGGCGAAGGGCAACATCTACTCGGGGCTCTGGTATCCGATCGTGATCGCGCTGGCCACGTTCGTG 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 CTGGCCGGCTTCACGCTGATCGAACTGATGATCGTGCTGGCGATCGTCGGGGTCGTCGCGGCCTATGCGATTCCCGCGTAC 
 >PredictedProphage1 -Hit 2 
 AGTCAGTGCGCGTGCGGCACGCTGCGGCGTTTCCTGAGCGCATAACCGATCGCGACGACGAACAACGCGCCGACGATGCTCGCGCCGTAGACCACTTCCGGCGCATCAAGCACCGGCCAGCGGTCGCCGACCGGGTCGTTCACGATCAAGCCGCCCGCGATCCAGCCGAGCAGCCCGGCGCCGAATGCCACGACGACCGGGAAACGGTCGAGCAGCTTCAGCACCAGCGTGCTGCCCCACACGATGATCGGCACGCTGACGATGAGCCCGAAGATCACGAGCGCGATCCGGTGCGACGGATCGGCCTGCTCGGCCGCGCCGGCGATCGCGATCACGTTGTCGAGGCTCATGACCGCGTCGGCGATCACGATCGTCTTCACGGCGTCCCACAGCCGGTCGGCCGGCTTGATGTTGTCGTGCGCGTCGGCGGCCGGCGCCATCAGCTTGATGCCGATCCACAGCAGCAGCAGGCCGCCGCCGAGCTTCAGGAACGGCACGTCGAGCAGCGCGACCGCGAACGTGATCAGCGCGACACGCAGCAGGATCGCCCCCGCAGTGCCCCAGACG 
 >PredictedProphage1 -Hit 3 
 CAGATCGAGAAGCAGTTCGGCAAGGGCTCGATCATGCGCATGGGCGACGGCGAGGCGGCCGAGAATATCCAGGTCGTCTCCACGGGGTCGCTGGGTCTCGACATCGCGCTGGGCGTCGGCGGCCTGCCGCGCGGCCGGGTGGTCGAGATCTACGGTCCGGAATCGTCCGGTAAGACCACCCTCACGCTGCAAGTCATCGCTGAACTGCAGAAGATCGGCGGCACCGCGGCGTTCATCGACGCCGAGCACGCGCTCGACGTCCAGTACGCGTCGAAGCTCGGCGTGAACGTGCCGGAACTGCTGATCTCGCAGCCGGACACCGGCGAGCAGGCGCTCGAAATCACCGATGCGCTGGTGCGCTCGGGCTCGATCGACATGATCGTCATCGACTCGGTCGCGGCGCTCGTGCCGAAGGCCGAAATCGAAGGCGAGATGGGCGATTCGCTGCCGGGTCTGCAGGCTCGCCTGATGTCGCAGGCGCTGCGCAAGCTGACCGGCACGATCAAGCGCACGAACTGCCTGGTGATCTTCATCAACCAGATCCGGATGAAGATCGGCGTGATGTTCGGCAACCCGGAAACCACCACGGGCGGCAACGCGCTGAAGTTCTATTCGTCGGTGCGTCTCGACATTCGCCGGATCGGTTCGATCAAGAAGAATGACGAGGTGATCGGCAACGAAACCCGCGTGAAGGTCGTCAAGAACAAGGTGTCGCCGCCGTTCCGCGAAGCGATCTTTGACATCCTGTACGGCGAAGGTATTTCGCGTCAGGGCGAGATCATCGATCTCGGCGTGCAGGCGAAGATCGTCGACAAGGCCGGCGCCTGGTACAGCTACAACGGCGAGAAGATCGGCCAGGGCAAGGACAATGCGCGTGAATTCCTG 
 >PredictedProphage1 -Hit 4 
 GCAACGTTAGGCGGGCAAATTTCGCACTCGCCGATGACGGGCGAAGAGAAGAAGGTGATCTTCGCGTCGTCGCTCGGCACCGTGTTCGAGTGGTACGACTTTTACCTGGCCGGCTCGCTCGCGGCCTACATCAGCAAGAGCTTCTTCTCCGGCGTCAATCCGACCGCCGCGTTCATCTTCACGCTGCTCGGCTTCGCCGCCGGCTTCGCGGTGCGGCCGTTCGGCGCGATCGTCTTCGGCCGGCTCGGCGACCTCGTCGGCCGCAAGCACACGTTCCTCGTGACGATCGTGATCATGGGCGTCTCGACGTTCGTGGTCGGCTTCCTCCCGGGCTACGCGTCGATCGGCATCGCCGCCCCCGTGATCTTCATCGCGATGCGGCTGTTGCAGGGCCTCGCGCTCGGCGGCGAGTACGGCGGCGCGGCGACCTACGTCGCCGAGCATGCGCCGGCCAACCGGCGCGGCTTCTACACCGCCTGGATCCAGACGACGGCCACGCTCGGCCTGTTCCTGTCGCTGCTCGTGATCCTGGGCGTGCGCACGTTCATCGGCGAGGAAGCGTTCGGCAACTGGGGCTGGCGCGTGCCGTTCGTCGCATCGATCCTGCTGCTCGGGGTGTCGGTGTGGATCCGGCTGCAACTGAACGAATCGCCGGTGTTCCTGCGCATCAAGGCGGAAGGCAAGACGTCGAAGGCGCCGCTGACCGAAGCGTTCGGCCAGTGGAAGAACCTGAAGATCGTGATCCTCGCGCTGATCGGCCTGACGGCCGGCCAGGCGGTCGTGTGGTACACGGGCCAGTTCTACGCGCTGTTCTTCCTCACGCAGACGCTGAAGGTCGACGGCGCCAGCGCGAACATCCTGATCGCGATCGCGCTCCTGATCGGCACGCCGTTCTTCCTGTTCTTCGGCTCGCTGTCGGACAAGATCGGCCGCAAGCCGATCATCCTTGCCGGCTGCCTGATCGCCGCGCTGACCTACTTCCCGCTGTTCAAGGCGCTC 
 >PredictedProphage1 -Hit 5 
 GGCCCGATCGCCGCGATGCTGGTCGAGATGTTCCCGACGCGAATCCGCTACACGTCGATGTCGCTGCCCTATCACATCGGCAACGGCTGGTTCGGCGGCTTCCTGCCGGCAACTGCGTTCGCGATCGTCGCGGCGAAGGGCAACATCTACTCGGGGCTCTGGTATCCGATCGTGATCGCGCTGGCCACGTTCGTG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 LAGFTLIELMIVLAIVGVVAAYAIPAY 
 >PredictedProphage1 -Hit 2 
 SQCACGTLRRFLSA_PIATTNNAPTMLAP_TTSGASSTGQRSPTGSFTIKPPAIQPSSPAPNATTTGKRSSSFSTSVLPHTMIGTLTMSPKITSAIRCDGSACSAAPAIAITLSRLMTASAITIVFTASHSRSAGLMLSCASAAGAISLMPIHSSSRPPPSFRNGTSSSATANVISATRSRIAPAVPQT 
 >PredictedProphage1 -Hit 3 
 QIEKQFGKGSIMRMGDGEAAENIQVVSTGSLGLDIALGVGGLPRGRVVEIYGPESSGKTTLTLQVIAELQKIGGTAAFIDAEHALDVQYASKLGVNVPELLISQPDTGEQALEITDALVRSGSIDMIVIDSVAALVPKAEIEGEMGDSLPGLQARLMSQALRKLTGTIKRTNCLVIFINQIRMKIGVMFGNPETTTGGNALKFYSSVRLDIRRIGSIKKNDEVIGNETRVKVVKNKVSPPFREAIFDILYGEGISRQGEIIDLGVQAKIVDKAGAWYSYNGEKIGQGKDNAREFL 
 >PredictedProphage1 -Hit 4 
 ATLGGQISHSPMTGEEKKVIFASSLGTVFEWYDFYLAGSLAAYISKSFFSGVNPTAAFIFTLLGFAAGFAVRPFGAIVFGRLGDLVGRKHTFLVTIVIMGVSTFVVGFLPGYASIGIAAPVIFIAMRLLQGLALGGEYGGAATYVAEHAPANRRGFYTAWIQTTATLGLFLSLLVILGVRTFIGEEAFGNWGWRVPFVASILLLGVSVWIRLQLNESPVFLRIKAEGKTSKAPLTEAFGQWKNLKIVILALIGLTAGQAVVWYTGQFYALFFLTQTLKVDGASANILIAIALLIGTPFFLFFGSLSDKIGRKPIILAGCLIAALTYFPLFKAL 
 >PredictedProphage1 -Hit 5 
 GPIAAMLVEMFPTRIRYTSMSLPYHIGNGWFGGFLPATAFAIVAAKGNIYSGLWYPIVIALATFV 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig261

Genome size:  106466
Host's GC content:  67.20
Predicted Codon Position GC:  	1st:  68.23	 2nd:  44.84	 3rd:  81.41

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig264

Genome size:  91971
Host's GC content:  62.21
Predicted Codon Position GC:  	1st:  65.16	 2nd:  43.50	 3rd:  72.96

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig260

Genome size:  90786
Host's GC content:  67.57
Predicted Codon Position GC:  	1st:  68.46	 2nd:  44.94	 3rd:  82.03

 >PredictedProphage1 
 Length:   11501 
 Number of hits =   6 
 GC	Coding	First	Second	Third
 68.32 	 70.50 	 72.39 	 49.55 	 89.55 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	3	0.0428571428571429
 Leu	TTA	0	0
 Leu	CTG	38	0.542857142857143
 Leu	CTA	0	0
 Leu	CTT	2	0.0285714285714286
 Leu	CTC	27	0.385714285714286
 Lys	AAG	16	0.941176470588235
 Lys	AAA	1	0.0588235294117647
 Glu	GAG	32	0.680851063829787
 Glu	GAA	15	0.319148936170213
 Gln	CAG	18	0.9
 Gln	CAA	2	0.1
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	4	0.266666666666667
 His	CAC	11	0.733333333333333
 Asn	AAT	1	0.111111111111111
 Asn	AAC	8	0.888888888888889
 Ser	AGT	0	0
 Ser	AGC	12	0.375
 Ser	TCG	15	0.46875
 Ser	TCA	2	0.0625
 Ser	TCT	0	0
 Ser	TCC	3	0.09375
 Trp	TGG	8	1
 Arg	AGG	4	0.0526315789473684
 Arg	AGA	0	0
 Arg	CGG	21	0.276315789473684
 Arg	CGA	2	0.0263157894736842
 Arg	CGT	6	0.0789473684210526
 Arg	CGC	43	0.565789473684211
 Ala	GCG	59	0.627659574468085
 Ala	GCA	6	0.0638297872340425
 Ala	GCT	0	0
 Ala	GCC	29	0.308510638297872
 Cys	TGT	1	0.166666666666667
 Cys	TGC	5	0.833333333333333
 Asp	GAT	5	0.15625
 Asp	GAC	27	0.84375
 Gly	GGG	9	0.183673469387755
 Gly	GGA	2	0.0408163265306122
 Gly	GGT	5	0.102040816326531
 Gly	GGC	33	0.673469387755102
 Phe	TTT	6	0.260869565217391
 Phe	TTC	17	0.739130434782609
 Tyr	TAT	3	0.230769230769231
 Tyr	TAC	10	0.769230769230769
 Met	ATG	7	1
 Val	GTG	29	0.517857142857143
 Val	GTA	1	0.0178571428571429
 Val	GTT	2	0.0357142857142857
 Val	GTC	24	0.428571428571429
 Thr	ACG	19	0.558823529411765
 Thr	ACA	0	0
 Thr	ACT	1	0.0294117647058824
 Thr	ACC	14	0.411764705882353
 Pro	CCG	29	0.878787878787879
 Pro	CCA	0	0
 Pro	CCT	1	0.0303030303030303
 Pro	CCC	3	0.0909090909090909
 Ile	ATA	1	0.0344827586206897
 Ile	ATT	1	0.0344827586206897
 Ile	ATC	27	0.931034482758621
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 38202	38381	1	ref|NP_945089.1|gp58 	39.3bits(90)	0.065
 39716	40063	-1	ref|NP_945089.1|gp58 	41.2bits(95)	0.017
 40308	40556	1	ref|NP_817650.1|gp61 	39.3bits(90)	0.065
 42944	43498	1	ref|NP_945089.1|gp58 	70.9bits(172)	2e-11
 46207	46557	-1	ref|NP_945089.1|gp58 	52.8bits(125)	6e-06
 49376	49702	1	ref|NP_052288.1|hypothetical protein	59.3bits(142)	6e-08
 
 DNA sequence:
 CCGATGGACAAGCTGGATCAGGTCAGGATCTTCCTGCAGGTTGCCGAGATGGGCAGCTTCATCAAGGCCGCGCATGCGCTCGACGTGCCGCGCGCGACCGTGTCGGCGGCCGTCCAGCAGCTCGAGACGGCGCTCGGCACGCGTCTGTTGCACCGCACGACCCGCCAGGTGCAGCTGACCGCCGACGGCGCGCTGCTGCTCGAGCGCGGCCGGCGCCTGCTCGCGGAGGCCGACGAACTCGACCGCCTGTTTCGGCGCCGCGACCGTGACGTGGTCGGGCGGCTGAACGTCGACGTGCCGAGCCGGATCGCGCGCCGCGTCGTGGCGCCCGCGCTGCCGTCGCTGTTTCGCCGCCACCCGAAGCTGCAACTGTCGCTCGGCTCGACGGACCGCTCGATCGACCTCGTGCAGGAGGGCGTCGATTGCGCGATCCGCGTTGGGCGGCTCGCGGACAGCAGCCTCGTCGTGCGGCCGCTCGGGCAGTTCACGCTGATCAACTGCGCGAGCCCCGACTATCTGCGCGAGTGCGGCGTACCCGAGCATCCGGACGCGCTCGCGCACGGGCACTGGGCGATCGGCTATGCGTCGCCGACGACCGGGCGCGAGCTCGGCTGGGAATACTGCGCGGACGGGCAGCGGCACACGCTGACACTGCCGAGCCGCGTGATCGTCAACAACGCCGAAACCTATATCGCCGGCTGCATCGCCGGAATGGGCTTGATCCAGATTCCGCGCTTCGACGTCGAGCATCTGCTCGCAAGCGGCGCGCTCGTCGACGTGATGCCCGGCCACCGCGCCGAGCCGATGGACGTATCGGCCGTGTATCCGCACCGCCGGCATCGCTCGCGCCGGCTCAACGCGTTCATCGAGTGGTTCGGCGCGTTGATGGCGGATGCGTTGAACGACGCGGGCGCGCGCGGCAGCGGCGACTGACGGCGGCATCGTGCCGGTATCCAGTGGGCAGGCCTGCTGCTCGCCGGCCGATCGGCTCCGGTGCGAGGCGGCCCGTGCGACGAGCGCACAGCGCGTGTTCAGGCGGCGAACTGCCGCGTGCGCCCGGTGGCCCGCACCGCGTCGATCAGCGCGGCGCCGGCGCCTGAGGGTTTCGACGCGAATGCGTAAAAGCGTGCGGCCGGCAGCGCCGGCAGGCCGTCGTGCGGCCCGCATTCCCGCAAGCCGTCGCGCAATTGGCTGCGTGCGAGTGCCGTGACCGCGAAGCCGGCGAGCGCGGCCGACATGCAGCCGGCCATGCTCGCGCTTTCGAACAGCACGCGAAACGGCCGCAGCGCCGCGGCGAGCGCGGACACCGCGGCTTCCCGGTACACGCACGGTTCCGGAAACAGCGCGAGCGGCACGCCTTCCTCGGCGTCGAGCGCCGTATCGGCCGCGAAGGCCCAGACGAGCGGCTCTTCCCACAGCAGTTCGCCAGGCGTGTCGACCTGTCGGCATTGCTTGCCGAACACGACGTCGAGCCGGCCGAACGTCTGCTCCCGCAGCAGCGATGCGGTGATGCCGACCTTCAGTTCGATCGATGCGCGCGGATGGCGGTCGCGGAAGGTGCGCAGCACCTGCGGCAGCCACGTGCCCGCGAAATCCTCCGACGCGCCGATCCGCAGCGGCCCGTGCGCCGGCGCGCCGCGCAGCCGTGCCCGCACCTCGCGTTCCATGTCGACGATGTTGCGCGCGTACGCGTACAGCGTGTCGCCGGCCGGCGTGAGCGCGATCCGGCGGGTGGTGCGCGCCAGCAGCACGGTGCCGGCCGCCTGTTCGAGCCGCTTGATGTGGCCGCTCACCGCGGACGGCGTCAGCGCGAGGCGTTCCGCGGCCGGCGCGAACCCGCGGCGGTCGACGACCTCGAGAAAGGTGCGCAGCAGCGCGATGTCGAGCGTGGTCGACGCGGGGTCGGTCGGCGGTTGCATGGATCGATTCAACGCAAGAATTGAAGAATGAATCATGATACTCCGTGAATTGTGATGAAAGACCGACCTACCATCGTAGGTTCACGGTGACTTCACGGAGTACACGATGACGACCTATGCGCATGCGACGACCGCGTCGCTCGACATTGCCTATCTCGAATGGAATCCGCGCGGCGAACGCGTGGCCGTGCTGCTGCACGGCTGGCCGGACAGCCCGGTCGGCTGGGAGGCGGTGGCATCGGCGCTCGCCGCACGCGGCTACCGCGTGCTCGCCCCTGCGTTGCGCGGCTTCGCGCCGACGCGCTTTCGTGACGCGTCCGTGCCGCGCAGCGGCCAGCTCGCCGCGCTCGGGCGCGACCTGCTCGAATTCGTCGATGTGCTCGGTATCGAGCGGCCCGTGCTGGTCGGACACGACTGGGGCGCCCGCGCGGCCGCGAACGCATGCGGGCTACGCGACGGTGTTGCCTCGCAGCTCGTGATGCTGTCGGTCGGCTACGGCACCAACGATCCCGCCCAGCCGCTGTCGCTGCAGCAGGCGCGCAACTACTGGTATCACTGGTTCATGGCGACGCCGCGCGGCGAGCAGGCGCTGCGCGACGACCGCCGCGCGTTCGCGCGCCTGATGTGGGATACGTGGTCGCCGCCGGGCTGGTATCGCGACAGCGATTTCGACGCGGCGGCCGCCGCGTTCGACGGACCCGACTGGATCGACGTCGTGCTGCATTCGTACCGGCAGCGCTGGGGCTTCGCGCCAGGCACGCCGGCTTATGCCGACGACGACGCGCGGCTGAACCCGGCGCCCGTGCTGACGGTACCGACGCTCGTGCTGCACGGCGGCGCGGACACCTGCAATCATCCGGACAGCTCGGTCGGGCGCGAGCGGTTCTTCGCCGGGCGCTACGAGCGGCAGGTGCTCGACGGCATCGGGCACTTCCCGCAGCGCGAATCCGCGACGGCGGTCGCTGACGCGATTCTCGGCTTCTGCGAGCGGGATTGACGCGCGCCGGCCGGCCCGGCGCGCGAAGAAATCAGCCGTCGACACGCGGCGCGAGCAGATCGGCGAGCCCGATGTTCCGGAACATCTCGCGGCGGATGCGATCGCCGACACGGAACACTTCCTCGGCGCCGTCCTGCGACGGGTCGACGAACACGCGGTAGGGGCGCTTGCCGGCCGGCGCCGCGACGAGCTCGGCAATCGCCGTGGCGACGGCGCCGGCGTCGGCGTCCGCCGGTTCGAGCGCGGCGAGGCCCGTCAACGCCTGATCGGCGACGCCCGCGTACGGCCCGCTGTCGTACGCAGCCTGCACGGCGGTATCGGCCGGCTTGCCCGCATGGAGGAAGTGATTCGTGCCTCGGGTGAACGCGCCCGGCACGACGATCGACGTTTCGATGCCCCAGCGGGCGAGTTCGGCGGCGTAGGACACCGCGAGCGAGTCCATCGCGGCTTTCGCGGCGAAGTAGGGGGCGAGGAACGGCGGGGTGCCGCCGCGCGCCGACGAGGACGACACCCACACGAGCAGGCCGCGGCCCTGGCGGCGCAGGTGCGGCAGCGCCGCGCGGTTCACGCGCTGGGTCGACACGACGTTGACGTCGTAGAGCTGCGCAAGCTGCTCCGGCGTGAAGGCTTCGGCCGGCCCGAACACCATGTGGCCGGCGTTGTGGACGACGACGTCCAGACGGCCGTTGTCGGTGATCACGCGCTCGATGGCGGCGTCGACCGATGCGTCGTCGCCGACGTCGAGTTCGAGGCTGCGCAGGTCGACGCCGTGTTCCTGCGCATAGGCCGCGACGGCGGCGGCGCGCGGCGCGTTGCGCCCGGCGCGCTCGCGCATCGATGCATAGACCGTGTGACCGGCGCGCGCGAGCGCCTGGACCGTCAGCAAGCCGAAGCCGCTGGACGCGCCGGTGACGAGGACGACTTCCTTCATGAGCGATCTCCTGGCAGAAAGATGAGGTGGCGGCGAGGGGGCGTCAGCACATGCCGCCGTTGGCGCGCAGGATCTGGCCGTTGATCCACGCGCCGTTCGGGCCGGCGAGGAACGCGACGACGCGCGCGATGTCGTCGGGCTGGCCGAGCCGCTCGAGCGGGTTCAGCTTCGCGAGCCGCTCGACGAGTTCCGGGCTCTTGCCCTGCAGGAACAGCTCGGTCGCGACCGGCCCGGGCGCGACGGCATTCACGCGGATGCCGCGCCCGCGCATTTCCTGCGCAAGCACCTGCGTGAGGCTTTCGACCGCCGCCTTGCTGGCGACGTACACGCCGTAAGTCGGCATGCGCATGCCGATCACGCTGGTCGACAGGTTGATGATGCATCCGCCGTCGCGCACCCGCCTGGCCGCTTCGCGGCAGACGTTGAAGGTGCCTTTCACGTTGATGGCGAGCGTTTCGTCGAACAGCGCATCGTCGCAGTCGGCGATGGTCGCGAGCTTCATCACGCCCGCGGAATTGACCACCACATCCAGACCGCCGAATGCGTGTTGCGCGGCGTCGAACAGCGCGGCCACGGCCGCCGGGTCGGCGACGTTCGCCTGCACCGCGATCGCATGGCCGCCGTCGGCGACGATCGCGTCGACCACTTCGCGGGCCGGGCCGGCGCTCCCGGCATAGTTGACGACGACCCGGAAGCCGTCCCGGGCGAGTTGGCGGGCGATTTCCGCGCCGATGCCGCGCGACGAACCCGTGACGACGGCGACCTGTTCCGATGTGCTCATGTCCTGCTCCTGATGACTGGATGAATGCCGTTCGATCCGGCGACAGGACAACTGTAGGCTTCCGCGATCAATAAAAATAATGAATAATGATCAGTCGATGAATGACTGAAAGTATGTCTCATGGGATTCGACAGCAGGCTGCTCAGCGGTATCGGTGTGCTCTCCGCGGTGATAGAGGCCGGCACCTTCGCGCGGGCGGGCGAGGCGATGGGGCTGACTCAACCGGCGGTGAGCCGCGCCGTTGCCCGGCTGGAAGAGCGGGTCGGCATCCGGATCTTCAACCGGACGGCCCGCGCGATCACGTTGACCGACGAAGGGCGACGCTTTTACGAGGCGGTCGCGCCGCTGCTGGCCGGCATCGAGGAGGCGGCGCTCGACGCCGGCCAGTCGAAGGCGCGCGTGAGGGGGCGGCTGCGGGTCAACGTGGACGGCACGTTCGGCCACTACGTGCTGGCGCCGCGGATGGCGGAATTTCTCGACCGCTTTCCCGATCTGTCGGTCGAGATCAGCGTGCGGGACCGGATGGGCGACCTCGTCGCCGACGGTTTCGACGTGGCCGTGCGCTTCGGTATCCCGGAGCCGTCGTCATATCGGGCGCGACTGCTGCTCGAGACGCGTGTGCTGACCTGCGCATCGGCGGCCTACGTCGCGCGTCATGGCGAACCGCGTCATCCGCGCGATCTCGCGGACGGGCATCGTTGCGTGCTGATCCGCGATCCGGTGACGGGGCGACCGTACGAATGGGAGTTTCATCGCGGCAAGGAAGTGGTGCCGGTCGACGTCGCCGGCAGGTTGACCGTCAACGATACGGGCGGGCTGCTCGGCGCTTGCCTGGGCGGTGTCGGCATCGCGCAACTGCTGGAGCTCTATGCGCGGGAGATCCTCGCCGACGGGCGGTTGGCGCAGTTGTTGCCCGAGTGGGCCGACGAGACTTTTCCGCTTTATGCGTATCACCACGCGTCGAATCTCGTTTCGGCCAAGGTTAGGGTGTTTCTCGACTTCGTCCGCGAGTTGATGGCCTGAGTCTGCCGAGCGAACGGCGGCCGTCGGGTCATTCGGTGCGATGCGGAATGTTGTCCGGGAACGGATAGGGCGCATGCGGGCCGGGCCAGTCGGGTACGGGCGGCGCGCTCAGCACGTCGCACCCGCCGAGCACGAGCGCCAGCACGCCGCGGCAGGTCCGGCATGCAATCGCGCGCATGGACATGGGCGGCCTCCATGGTCGGCATTCCCTGATGCTTGGACTACCGGAGCGGGCCACCTGTTGCGGCGAATGCGGGCGCAACAACAAAAAACCCGCGAAGCGGCGAGCTTGCGCGGGTTTCGACAGTGGCAGCGCTTTCGACAGTGGCAGCGCATAACGCTGCGAAATTCTGGTGCCCAGGGCCGGAATCGAACCGGCACGCCTTGCGGCGGGGGATTTTGAGTCCCCTGCGTCTACCAATTTCACCACCTGGGCTTGATCCTGGCCGCGCGCCCGATGCAGATTGTGCGCGGCGAAACGCGAATTATGGCGGAAAACCGGGCACCGGGCAAGCAGCCCGGCGACCGGCTGCTTCTGCTACTGGCTCAGGTACACGAACCGGCCCTGCTTCACGATCCCCATCACGCTCGCGCGCTGGTCGAGCCCCACGTGATCCTTGTCGCTGGTATTGACGACGCCGTTCGGCACGACGAGCTCGTGCGCGCGTTCGAGCTCGCGGCGCAGCGCCGCGCGGAACGCGGGCGTGCCGGGTTGCGCCGCTTTCAGCGCGCGGCCGACCGCATCGGCGAGGCGCGGGTACACGCCCGCCGCATCGCCCGCGAACTGCGTGACCGTGCCGGCGCCGTATTTCGCCTCGTACGCGTCGACGAACGCGAGCGCGGCCTGGCGGGCCGGGTGGTCGGCCGGCAGCGTGCGGGCGACGACCACCGGCTGGGTCGGAAACAGCGTCCCGTCCACGTCCTTGCCGCCGAGCTTGATGAATTCCGGCGTCGCGATCCCGTGCGTCTGGTAGATCGGGCCCTTGTAGCCGCGCTCGATCAGCGTGCGCTGCGGCAGCACGGTCGGCGTACCGGCGCCCGCGATCAGGATCGCGTCCGGCTTCGCCGCGATCAGTTTCAGCGCCTGGCCGGTGACGCTCGCGTCGGTGCGGTTGAAGCGCTCGGTCGCGATCACGCGGATCTTGCGCAGGTCCGCGAAGCGCGTGAATTCGTTGAGCCAGCTGTCGCCGTAGCTGTCCGCGAAGCCGATGAAGCCGACCGTCTTCACGCCGTGGTTGGCCATGTAGCGGGTCATCACGTCGGCCATCGCGCGGTCGCTCTGCGCCATCTTGAATGCCCAGGTCCGCGCGCCCTCCTGCGGCTCGACGATCGAGCCCGAGCCGACCAGCGTGATCATCGGCGTCTGCGCGGCCGCCACTGCGTCGAGCGCCGCGAGCGCGGCCGGCGTGATGTTCGGGCCGACCACGACGTCGACGTGATCCTCGTCGACCAGCTTGCGGATGTTGCGTACCGCCGCGCCCGGGTCGGACGCGTCGTCGAGCACCGTGACCTGCACGGGTTGCCCGGCGATCGTCTTCGGCCACATCAGGATCGCGTTCTTGCTCGTGATGCCGATCGCGGCGGCCGGGCCGGTCGACGACAGGTCGACGCCGACCTTCAGGTCGGCATGCGCGGCCGCGCAGGCCAGCACGAGGGCGGCGCCGGCGGCGCGGCGGGTGCGGCGCAACAGGGTGGGACGTCGCAACAGGGCGGGAAGCGTCATGCGGGAATCTCCATCTCCGTCGGGCAACGAAAAGGGGCGCAATGTGCGCCCCCGTGTTCATACCTGTCCGTCAAAGCTCGTACGATTCGGCTTCGCCCTTGAGCGCCTGCTCGATCAGCTTGCGGTTCAGCGTGGGCGACAGCAGTTCGACCAGCGTATACACATAGCTGCGCAGGTAGGCGCCCTGCTTGAGCGCGACGCGCGTCACGTTGCTGCCGAACAGGTGGCCGACCGGGATCAGCCGCAGGCCGCGATCGCGCTCGGGATTGAACGCAATGTCGGCCATGATGCCGACGCCGAGGCCGAGTTCGACATAGGTCTTGATCACGTCGGCGTCGATCGCCTCGAGCACGATGTCCGGCGACAGCCCGCGCAGCGCGAACGCATGGTTGATCTTCTTGCGGCCGGCGAACGCATCGTCGTAGGTGATCAGCGGGTATTGAGCGAGATCGTCGAGCGTGACCGGCTTGCGTTCGAGCAGCGGGTGGTCGGCCGGCACGACGGCCGCGTGATGCCACTGGAAGCAGGGCAGCGACACGAGCTCCTTGTAGTCGGAGATCGCCTCGGTCGCGATCGCGAGATCGGCCTGGTCGTGGATCACCATCTCGGCCACCTGCGTCGGACTGCCTTGCAGGATCGACAGGTGCACCTTCGGGAAGCGCTTCTTGAACTCGGCGATCGCGGCCGGCAGCGAGTAGCGGGCCTGCGTGTGGGTCGCCGCGATGGTCAGGTTGCCCTGGTCCTGCGCTGCATAATCCTTCCCGACCCTTTTAAGGCTTTCCACTTCCTGGAGAATCCGCTCGACCGACGCGAGGATGATCCGGCCCGGCTCGGTGAGTGAGCGCACGCGCTTGCCGTGCCGCGTGAAGATCTCGACGCCCAGCTCGTCCTCGAGCTCGATGATCGCCTTCGATACCCCCGGTTGCGACGTGTAGAGCGCCTTGGCGGCCTCGGTGAGGTTGAAATTCTGCCGGACGGCCTCGCGCACGAAGCGAAATTGGTGCAGGTTCATTTATAACCCTTCCGCATATCAACAGAATTTTTTAGTCGTTTGAAATATAAGGCGAGTTTATTACGATTCACCGGAGTTTTTCAAATATGGATATCTGTTTTCGTCATTAGCAATCCAGCCGGCAGCGGTTGGCGGCGGTGACGACGGAACGGAGATTCGGGCGCGACGTGGCTAGGACGTCGCGCAGTCACCACGAAAACCCTGGGGTCCCCGAATGTATCAGTACGACCAATACGACCAGACGATCGTCGACGAGCGAGTCGCGCAGTACCGCGATCAGGTGCGCCGCCGGCTGTCGGGCGAGTTGAGCGAAGACGAATTCCGTCCGCTGCGTCTGCAGAACGGCCTGTACATGCAGCGCCACGCGTACATGCACCGCATCGCGATTCCGTACGGCAACCTGCGCAGCGACCAGCTCCGGATGCTGGCGCGCATCGCCCGCGAACACGACCGCGGCTACGGCCATTTCTCGACCCGCTCGAACATCCAGTTCAACTGGATCGAGCTGGAAGACACACCCGAAATCCTCGCGAAGCTCGCGTCGGTGCAGATGCATGGCATCCAGACGTCGGGCAACTGCATCCGCAACATCACGGCCGACCAGTTCGCCGGCGTCGCGCAGGACGAGGAGATCGATCCGCGTCCGTGGGCCGAGATCCTGCGCCAGTGGTCGACGTTCCACCCCGAATTCGCGTGGCTGCCGCGCAAGTTCAAGATCGCGGTGTCGGGCTCGAAGCGTGACCGCGCGGCCGTGCAGATCCACGACCTCGGCGTGTACCTGAAGAAGAACGCGCAGGGCGAGGTGGTCGCGAGCATCCTCGCGGGCGGCGGCCTCGGCCGTACGCCGATCGTCGGCGCGGTGATCAAGGAAGACCTGCCGTGGCAGCACCTGCTCACGTACTGCGAAGCCGTGCTGCGCGTGTACAACCGTTACGGCCGCCGCGACAACCTGTACAAGGCGCGCATCAAGATCCTCGTGAAGGCGCTGTCGCCGGCGAAGTTCGCGCAGCAGGTCGAGGAAGAATGGCAGCACCTGAAGGACGGCCCGTCGACGCTCACGCAGGCCGAAATCGACCGCGTGTCGCAGTACTTCCAGCCGCCCGTCTACGAGAAGCTGGCCGACACCGACGCGTCGTTCGAACAGCACCTGCTCGAGAACAAGGCGTTCGCGCGCTGGGTCGAGCGTAACGTCGCGCCGCACAAGGTGCCGGGCTATGCGGCCGTCACGCTGTCGCTGAAGGACCACCGCGTGGCCCCGGGCGACGCGACCGACGCGCAGATGGATCTGGTCGCCGACTGGGCGGACGCGTATTCGTTGGGCGAGCTGCGCGTGTCGCACGAGCAGAACCTGATTCTCGCGAACGTGAAGAAGCGCGACCTGTTCGCGCTGTGGGAAAAGGCGAAGGCGGCCGGTTTCGCGACGCCGAACGTCGGCCTGCTGACCGACATCATCGCGTGCCCGGGCGGCGACTTCTGCTCGCTCGCGAACGCGAAGTCGATCCCGATCGCGCTGGCGATCCAGCAGCGTTTCGACGATCTGGACTACGTGTACGACCTCGGCGACCTGTCGCTGAACATTTCCGGTTGCATGAACTCGTGCGGTCACCACCACGTCGGCAACATCGGCATCTTGGGCGTCGACAAGGACGGCGCCGAGTGGTACCAGGTGTCGCTCGGCGGCGAGCAGGGCACGGGCCGCAACGGCGCGCGTCTCGGCCGCGTGATCGGGCCGTCGTTCTCGGCGGAAGAAGTGCCCGACGTGATCGCGAAGCTGATCGATACGTTCGTCGAGGCGCGCATCGACGGCGAGCGCTTCATCGACACGTATGATCGCATCGGCATCGCGCCGTTCAAGGAGCGCGTGTATGCGGCGCGCCAGGCAGTGAACGCGTAATCAACCGGGTAGAGGGAATTTGCAGATGGCTTCGATTATCAAGAACCGCGCAGTGATCGACGACGCATGGCAGGTCGTACGCGCGGCGGAAGACGGTACGCTGCCCGCGGTCGACGCATTGCCGGCCGGCAAGGTGCTGGTGCCGTTCGCGTTGTGGCAGGCCGGGCGCGCGGCGCTCGTCGCCGCGAAGACGAAGGACGAACTCGGCGTGTGGCTCGCGCCGGACAGCGAACCGGCCAATCTCGTGGCCGACTTCGGCGCGATCTCGCTGATCGCCGTCGACTTCCCGCGCTTCGCGGACGGCCGCGGCTACAGCATCGCGCGCCTGCTGCGCGAGCGTCATGGCTGGACCGGCGAGCTGCGCGCGATCGGCGACGTGCTGCGCGACCAGTTGCTGTACATGTCGCGTTGCGGCTTCGACGCGTTCGCGGTGCGTGCCGACAAGGACATCCACGACGCGCTGAATGCGTTCACGGAATTCACGCAGCGTTACCAGGGCGCGTTCGACGAGCCGGCGCCGCTGTTCCGCCGCCGCGAGGCGGCTGCCGCCAAGGTGAGCGCATGAGCACCGCGACCGCCCCCGCGCTGACGCCGGAACTCGCCGCCAAGGTCGAGCGCCTCGACGCGCTGCTCGCGCAGATCGGCGAGCGTCACGACAAGGTGAAGTTCGCGAGCAGCCTCGCCGCGGAAGACATGCTGCTCACGCACGCGATCCTGTCGAAGGGCGTGTCGATCGGCATCTTCTCGCTGAACACGGGCCGCCTGCACGCGGAGACGCTCGGCATGATCGACCGCGTGCGCGAGCGCTACGGCTACGAGATCGAGCAGTTCCACCCGCGGCAGGACGCGGTCGACCAGTATGTCGCCGAGCACGGCCTGAACGCGTTCTACGAGAGCGTCGAGCTGCGCAAGTCGTGCTGCCACATCCGCAAGGTCGAGCCGCTGAACCGCGCGCTGGCCGACGTCGGCGCGTGGGTGACGGGCCAGCGCCGCGAGCAGTCGGTCACGCGCGCGGAGCTGCACGAGGAAGAACAGGACGAAGCGCGCGGGATCGCGAAGTACAACCCGCTCGCCGACTGGACGGAAGCCGACGTGTGGGCGTACCTTAAGGCGTTTGACGTGCCGGTCAACCCGCTGCATGCGCGCGGCTATCCGAGCATCGGCTGCGAGCCGTGCACGCGCGCGATCCGTCCCGGCGAGGACAGCCGCGCGGGCCGCTGG 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 CCGATGGACAAGCTGGATCAGGTCAGGATCTTCCTGCAGGTTGCCGAGATGGGCAGCTTCATCAAGGCCGCGCATGCGCTCGACGTGCCGCGCGCGACCGTGTCGGCGGCCGTCCAGCAGCTCGAGACGGCGCTCGGCACGCGTCTGTTGCACCGCACGACCCGCCAGGTGCAGCTGACC 
 >PredictedProphage1 -Hit 2 
 TTTCTCGAGGTCGTCGACCGCCGCGGGTTCGCGCCGGCCGCGGAACGCCTCGCGCTGACGCCGTCCGCGGTGAGCGGCCACATCAAGCGGCTCGAACAGGCGGCCGGCACCGTGCTGCTGGCGCGCACCACCCGCCGGATCGCGCTCACGCCGGCCGGCGACACGCTGTACGCGTACGCGCGCAACATCGTCGACATGGAACGCGAGGTGCGGGCACGGCTGCGCGGCGCGCCGGCGCACGGGCCGCTGCGGATCGGCGCGTCGGAGGATTTCGCGGGCACGTGGCTGCCGCAGGTGCTGCGCACCTTCCGCGACCGCCATCCGCGCGCATCGATCGAACTGAAGGTC 
 >PredictedProphage1 -Hit 3 
 GTGCTGCTGCACGGCTGGCCGGACAGCCCGGTCGGCTGGGAGGCGGTGGCATCGGCGCTCGCCGCACGCGGCTACCGCGTGCTCGCCCCTGCGTTGCGCGGCTTCGCGCCGACGCGCTTTCGTGACGCGTCCGTGCCGCGCAGCGGCCAGCTCGCCGCGCTCGGGCGCGACCTGCTCGAATTCGTCGATGTGCTCGGTATCGAGCGGCCCGTGCTGGTCGGACACGACTGGGGCGCCCGCGCGGCCGCG 
 >PredictedProphage1 -Hit 4 
 TGTCTCATGGGATTCGACAGCAGGCTGCTCAGCGGTATCGGTGTGCTCTCCGCGGTGATAGAGGCCGGCACCTTCGCGCGGGCGGGCGAGGCGATGGGGCTGACTCAACCGGCGGTGAGCCGCGCCGTTGCCCGGCTGGAAGAGCGGGTCGGCATCCGGATCTTCAACCGGACGGCCCGCGCGATCACGTTGACCGACGAAGGGCGACGCTTTTACGAGGCGGTCGCGCCGCTGCTGGCCGGCATCGAGGAGGCGGCGCTCGACGCCGGCCAGTCGAAGGCGCGCGTGAGGGGGCGGCTGCGGGTCAACGTGGACGGCACGTTCGGCCACTACGTGCTGGCGCCGCGGATGGCGGAATTTCTCGACCGCTTTCCCGATCTGTCGGTCGAGATCAGCGTGCGGGACCGGATGGGCGACCTCGTCGCCGACGGTTTCGACGTGGCCGTGCGCTTCGGTATCCCGGAGCCGTCGTCATATCGGGCGCGACTGCTGCTCGAGACGCGTGTGCTGACCTGCGCATCGGCGGCCTACGTCGCGCGTCATGGCGAACCGCGT 
 >PredictedProphage1 -Hit 5 
 GAGGCCGTCCGGCAGAATTTCAACCTCACCGAGGCCGCCAAGGCGCTCTACACGTCGCAACCGGGGGTATCGAAGGCGATCATCGAGCTCGAGGACGAGCTGGGCGTCGAGATCTTCACGCGGCACGGCAAGCGCGTGCGCTCACTCACCGAGCCGGGCCGGATCATCCTCGCGTCGGTCGAGCGGATTCTCCAGGAAGTGGAAAGCCTTAAAAGGGTCGGGAAGGATTATGCAGCGCAGGACCAGGGCAACCTGACCATCGCGGCGACCCACACGCAGGCCCGCTACTCGCTGCCGGCCGCGATCGCCGAGTTCAAGAAGCGCTTCCCGAAGGTGCACCTGTCGATCCTG 
 >PredictedProphage1 -Hit 6 
 AGCGTCGAGCTGCGCAAGTCGTGCTGCCACATCCGCAAGGTCGAGCCGCTGAACCGCGCGCTGGCCGACGTCGGCGCGTGGGTGACGGGCCAGCGCCGCGAGCAGTCGGTCACGCGCGCGGAGCTGCACGAGGAAGAACAGGACGAAGCGCGCGGGATCGCGAAGTACAACCCGCTCGCCGACTGGACGGAAGCCGACGTGTGGGCGTACCTTAAGGCGTTTGACGTGCCGGTCAACCCGCTGCATGCGCGCGGCTATCCGAGCATCGGCTGCGAGCCGTGCACGCGCGCGATCCGTCCCGGCGAGGACAGCCGCGCGGGCCGCTGG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 PMDKLDQVRIFLQVAEMGSFIKAAHALDVPRATVSAAVQQLETALGTRLLHRTTRQVQLT 
 >PredictedProphage1 -Hit 2 
 FLEVVDRRGFAPAAERLALTPSAVSGHIKRLEQAAGTVLLARTTRRIALTPAGDTLYAYARNIVDMEREVRARLRGAPAHGPLRIGASEDFAGTWLPQVLRTFRDRHPRASIELKV 
 >PredictedProphage1 -Hit 3 
 VLLHGWPDSPVGWEAVASALAARGYRVLAPALRGFAPTRFRDASVPRSGQLAALGRDLLEFVDVLGIERPVLVGHDWGARAAA 
 >PredictedProphage1 -Hit 4 
 CLMGFDSRLLSGIGVLSAVIEAGTFARAGEAMGLTQPAVSRAVARLEERVGIRIFNRTARAITLTDEGRRFYEAVAPLLAGIEEAALDAGQSKARVRGRLRVNVDGTFGHYVLAPRMAEFLDRFPDLSVEISVRDRMGDLVADGFDVAVRFGIPEPSSYRARLLLETRVLTCASAAYVARHGEPR 
 >PredictedProphage1 -Hit 5 
 EAVRQNFNLTEAAKALYTSQPGVSKAIIELEDELGVEIFTRHGKRVRSLTEPGRIILASVERILQEVESLKRVGKDYAAQDQGNLTIAATHTQARYSLPAAIAEFKKRFPKVHLSIL 
 >PredictedProphage1 -Hit 6 
 SVELRKSCCHIRKVEPLNRALADVGAWVTGQRREQSVTRAELHEEEQDEARGIAKYNPLADWTEADVWAYLKAFDVPVNPLHARGYPSIGCEPCTRAIRPGEDSRAGRW 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig263

Genome size:  90228
Host's GC content:  63.72
Predicted Codon Position GC:  	1st:  66.09	 2nd:  43.90	 3rd:  75.51

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig257

Genome size:  88683
Host's GC content:  65.28
Predicted Codon Position GC:  	1st:  67.04	 2nd:  44.32	 3rd:  78.15

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig256

Genome size:  85209
Host's GC content:  67.18
Predicted Codon Position GC:  	1st:  68.22	 2nd:  44.84	 3rd:  81.37

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig258

Genome size:  85117
Host's GC content:  66.51
Predicted Codon Position GC:  	1st:  67.80	 2nd:  44.66	 3rd:  80.24

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig259

Genome size:  82221
Host's GC content:  66.13
Predicted Codon Position GC:  	1st:  67.57	 2nd:  44.56	 3rd:  79.59

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig253

Genome size:  82218
Host's GC content:  68.04
Predicted Codon Position GC:  	1st:  68.75	 2nd:  45.07	 3rd:  82.83

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig255

Genome size:  81821
Host's GC content:  67.36
Predicted Codon Position GC:  	1st:  68.33	 2nd:  44.89	 3rd:  81.67

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig254

Genome size:  81158
Host's GC content:  68.54
Predicted Codon Position GC:  	1st:  69.05	 2nd:  45.21	 3rd:  83.67

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig251

Genome size:  73688
Host's GC content:  68.22
Predicted Codon Position GC:  	1st:  68.86	 2nd:  45.12	 3rd:  83.14

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig252

Genome size:  71408
Host's GC content:  69.00
Predicted Codon Position GC:  	1st:  69.34	 2nd:  45.33	 3rd:  84.46

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig250

Genome size:  71352
Host's GC content:  67.60
Predicted Codon Position GC:  	1st:  68.47	 2nd:  44.95	 3rd:  82.08

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig249

Genome size:  65198
Host's GC content:  67.97
Predicted Codon Position GC:  	1st:  68.70	 2nd:  45.05	 3rd:  82.70

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig247

Genome size:  58416
Host's GC content:  68.08
Predicted Codon Position GC:  	1st:  68.77	 2nd:  45.08	 3rd:  82.90

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig248

Genome size:  56116
Host's GC content:  67.22
Predicted Codon Position GC:  	1st:  68.24	 2nd:  44.85	 3rd:  81.44

 >PredictedProphage1 
 Length:   12665 
 Number of hits =   6 
 GC	Coding	First	Second	Third
 65.76 	 67.13 	 72.37 	 49.30 	 79.72 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	4	0.0888888888888889
 Leu	TTA	0	0
 Leu	CTG	25	0.555555555555556
 Leu	CTA	2	0.0444444444444444
 Leu	CTT	2	0.0444444444444444
 Leu	CTC	12	0.266666666666667
 Lys	AAG	7	1
 Lys	AAA	0	0
 Glu	GAG	6	0.24
 Glu	GAA	19	0.76
 Gln	CAG	17	0.739130434782609
 Gln	CAA	6	0.260869565217391
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	8	0.444444444444444
 His	CAC	10	0.555555555555556
 Asn	AAT	5	0.25
 Asn	AAC	15	0.75
 Ser	AGT	1	0.0357142857142857
 Ser	AGC	13	0.464285714285714
 Ser	TCG	10	0.357142857142857
 Ser	TCA	1	0.0357142857142857
 Ser	TCT	0	0
 Ser	TCC	3	0.107142857142857
 Trp	TGG	5	1
 Arg	AGG	1	0.0204081632653061
 Arg	AGA	1	0.0204081632653061
 Arg	CGG	11	0.224489795918367
 Arg	CGA	6	0.122448979591837
 Arg	CGT	5	0.102040816326531
 Arg	CGC	25	0.510204081632653
 Ala	GCG	44	0.628571428571429
 Ala	GCA	7	0.1
 Ala	GCT	3	0.0428571428571429
 Ala	GCC	16	0.228571428571429
 Cys	TGT	0	0
 Cys	TGC	5	1
 Asp	GAT	11	0.366666666666667
 Asp	GAC	19	0.633333333333333
 Gly	GGG	4	0.121212121212121
 Gly	GGA	2	0.0606060606060606
 Gly	GGT	4	0.121212121212121
 Gly	GGC	23	0.696969696969697
 Phe	TTT	2	0.222222222222222
 Phe	TTC	7	0.777777777777778
 Tyr	TAT	4	0.5
 Tyr	TAC	4	0.5
 Met	ATG	9	1
 Val	GTG	22	0.511627906976744
 Val	GTA	4	0.0930232558139535
 Val	GTT	0	0
 Val	GTC	17	0.395348837209302
 Thr	ACG	15	0.625
 Thr	ACA	0	0
 Thr	ACT	1	0.0416666666666667
 Thr	ACC	8	0.333333333333333
 Pro	CCG	21	0.617647058823529
 Pro	CCA	2	0.0588235294117647
 Pro	CCT	6	0.176470588235294
 Pro	CCC	5	0.147058823529412
 Ile	ATA	0	0
 Ile	ATT	0	0
 Ile	ATC	18	1
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 12202	12474	-1	ref|NP_665958.1|putative glutaminase	40.4bits(93)	0.019
 13929	14198	-1	ref|NP_720276.1|GtrB 	50.8bits(120)	1e-05
 18748	18975	-1	ref|NP_203461.1|hypothetical protein	35.8bits(81)	0.46
 21648	22046	-1	ref|NP_945089.1|gp58 	38.5bits(88)	0.070
 24472	24591	1	ref|NP_046925.1|gp30 	36.6bits(83)	0.27
 24648	24866	1	ref|NP_958267.1|hypothetical protein	36.6bits(83)	0.27
 
 DNA sequence:
 CCCGTTGTGCACGACCGCGATCGTGTCGCCCGACATGATCGGGTGCGCGTTCATTTCCGATGGCGCGCCGTGCGTCGCCCAGCGCGTATGCGCGATGCAGGTCTGCGCTTCGAGGCCGAGCGTCAGCACGCGGTCCTGCAAGTCGGTCACGCGTCTCAACGTGCGTTCGCTGCGCAGGCGGCCGTCGCCCTGCACGGCGATGCCGCACGAATCGTAGCCGCGATATTCGAGCCGGCTCAGCGCGTTGACCAGTTGCGGCACTTGATTGTTCCGGCCGCTTGCTCCGACGATTCCGCACATGATTCACCTCGTCTCCAGGAAGTTGTCGACTGGCGCGTGTCGCGCGCCAGCACGGTGTCGAAAGCGGTGCCACGTCGCGCGGCAGGCGTCGCGCCCGGCGCGGCACGTTTCCGGCGATTCATTCGCGCGGTTGTGGCTCGGCATGCGCGATCCACTCGATGCCGGAAATCGACCCGTTCGCATCGTGCGACGCGACGAGAATGCGCGTCGTGCGTCGCGCGCCGCGCCGGCGCTCGCTCGCGAACGCGGTCGGCGGTACCGAGCGCACCTTCACGCTGGCCGAGCGCCGCAGCATCTTCGACACCCGCAACCGGTACGCGAGCGGATGCACGACGCGCCCCGCGATCAGCCACATGACGATCGTGCCGGCGATCAGCGCGATGCTCGTCACGTAGAACACGATCTGTTCGATCGGCATCTCGGCCTCGTTGAACGGCAGCAGGTAACGGTACGTATAGATGCAGATCGAGGCCCATACGCCCCCGACCAGCGCAGGCCGCACGAGACGGAACCACGCGACGAGCACGGGCCCGACGATGTTGCCGCGTTCGGCGATCATGTCGCGCGGTGCGCGCAGGGAAAGGTCAATAATCGGCGCGTTCTTCATGTTGAATGCCTCGGTCGGGACTGACCCAAACGGCGCGCTTGCCACGGCCCCGCAGCACGACGGCGGGCAGGGCGATGACGGTGGTGATCATGCTGATCAGCCAGAACGCGACGGGGTACCAGATGGTGTCAAGGAAGTACATCAGGAGTTTTTCGTCGTAACGACGATCGATCATGCTGCCGATGATCAGCTGCAGGATGCAGGTCGCGACCAGCAGCATCCCGTGCCAGTGCGGCACCACGGACACATGCCAGTTCGGCGGAAGCGGATAGACGACGTCGATCAACGCGAGCAGCAGGATGAACGTCATCGAGTACGCCCACGCGATGCCGATCAGGTATTCGGCGAACAGCGGCCACATCATCATCTGCGTCGGCCGCATCAGCGTGCCCGCGTACTTGAGCAGCACCTGGATGCCGCCCTTCGACCAGCGCAGCCGCTGCCGGTAGAGCCCCTTCACCGTCTCCGGCATCAGGATCCAGCTGAGCGCGTGCGGCTCGTACACGACGCGCCAGTCGCGGCATTGCAGCTTCCAGCTGATGTCGATGTCCTCGGTGAGCATGTCCGAGCTCCAGTAGCCGACGTCGGCGAGCGCCGTCTTGCGGAACATCGTGATCACGCCCGACACCGTGAAGATGCGGCCGTACACCTGTTGCGTGCGCTTGATCAGCCCGACGATCGACGAGAATTCGCCGACCTGCATGCGGCCGAGCAGCGACGTGCGCGTGCGGATGCGCGGGTTGCCGGTCACCGCGCCGACGCCCGGGTCGGTCAGGAAGTGCTCGAGCATCCAGCCGATCGCATCGTGCGCGAGCAGCGCGTCGCCGTCGATGCACAGCAGGTATTCCGCGTTCGACACGGCCGCCGCGGTCGTCAGCCCGACCGCCTTGCCTTCGTTGCGCGCGTGATGGATCACGAGCAGCCGCGGGATCTCGACGGCCAGCTCGTTGAGGATCTCGCCGGTGCGATCCTTGCTGCCGTCGTTGACCGCGATGATGTCGTAGTTCGGATACTGCATCCCGTTCAGGTGGCCGATCACGCTGCGCGCGTTCGCGGCTTCGTTGAAGCAGGGCACGACGATCGACACCTTCGGGATGCCGCTCGACGCGATCGTGCGCGTCGACAGCTCGCGGCCTTCCTCGAGCAGGAAGTAGTGCACGACGCCGCCGATCATCCACAGGTACGACATGAAGAACGGATAGTAGAAGACGAAATCCTGCAGGCGCTGGATGAGGCTATGGGAGGTCATGGTGTCTTGGTTCCCTGCGAGTGCTGCATCTGCATCAGCGCGTTGATCGAGGTGGGGTCGAGGCGCGATTTCAGCGACATCACGTCGCGCATCGCGTCGAGTTCCGGCTGGCCGTTCAGGAAGTTGTCGGGGTAGTAGCCGAAATTCACGGCGCCCTCGCTGCGCAGCCGCCGCATCTGCGCGAGCAGCGTGCCGGCCGGCACCGCCTTCTGCCCGTGCCAGTCGTATGCCTGCAGTTCGAACACGGTGCGCTGCAGCCCACGCTGCTTCGCGCGTACGGCCTTCACGAGCTGGTCCAGCCAGCCTTCCGGGTCTTTCGCCTGTTCCATGTACGGCATCGCCATCAGCGCGACGTAGTCGTAGGCGGCGAGGAAATCGTCGTAGTTCTGCGCGAACCACGCTTCCGATTCGGGCTTGAGCACCGGCATCGCGAAGATGTTGCGCGCGGTCAGCACGTCGCCGACGTTCTGGTGCGCCAGCACGATCTGCTCGAGTTGCCGGGTCATGTCGATCAGGTAGCGCGTCTTCTGGCGCGTCCAGCGTTTCATCAGGTCGGGGTTCTCGCGGATCTTGCCGATGTCGGCCGGCAACCCCCATTGCGAATAGGTGCGCAGCGCATGCCGGCCCCCATCCTCGTAGTCGTCGAGCACCGCGTCGTCGCTGAACAGGATGCCGCTGAACGACGCGTGCTTGCTGAGATCCTCGTAGATCTGCTGGATCATCAGCCGCGCATCGGGATCGAACGGACTCAGCCGGAACACGCGCGTGCCGTTCTCTCTAGCCGGCGCACCGCCGAACGCGCTCACGGCCTGGAGCGAGCGGAGCTTGTCGGGGGACGGCCGGAACGCGAGCACCGGCATCCACGCGTACACCTGTACGTTGGCGCGCGTATTGAGTTGCCACGCGGCACGCGAGAACAGGTCGGAACGCATCGGCAGGTGCCGGTTCGGGAAATACACCGCTTCGGCCACGCCCGTGCCCTTCGGGTCCGCAAACGCCTGCAGGTACACCGATTTCGGCTGCATCCGGTAGATGCGCTCGATCAGCTTGCCGAGATTCGCTTCCTGCCGTGCGGGATCGGGATCGTAGACCTGGTCGAGATCGACCTGCACGGTGCGCTCGGGCACGTCGACGTCGCCGCGGTTCGACGCCGGTTCGCGCATCGAGCGCTCGAACCCGCCGATGTCGACGTCGTACATCATCAGAATCCGTCTCAGTCGGTCGAGCGGCACGTCCGGCGTATTCGGGCCGGCATCGAGGCTGAACTGGACGTCCATGCCGAGCGACGTCGAGATCTGGCGCACGGGCTGGTTTTCCGCGCCGTACGGCCACACCATCGAGCGCGCGACGATACCGGTGCGTTCGCGGATCTGCCGCACGCACGTCTGCAGGTCGTCGTGCACGCGGGCGTGGAACTCGGCGTCGGTCTCGTAGCGTTTCTGATCTTGCAGGTAGAGATGCGACGTGGTCGCCGGCAGCTCGTTGCCTTGCGGATTCGCGACCGCGCCATGGTGGAGATTGTGGGTGTGGCAGCCGAGCTCGACGAATTCAGACTGGCCGAGCTTCTTCACCTCGTCCCACGACAGGAAGTAGTCGCGCGGCACTTGCACCTTGTCGCTGATGCGGATCGGCGTATCCGGCGGCGTGTCGATCCACGCGGTGACGAGGCCCATCACGGCCGGATACTTGAAGCGCTCGAGCAGCGGCAGCACTTTCGTGTAGTGGCTGCGGAAGCCGTCGTCGAACGTGAGCAGCACGGAGCGCGGCGGCAGCGGCTTGCCGCCGCGGCGCGACTCTTCGATCTGCTTGACCGTGATGGTGTGGTAGTTGTTGGTCTGCAGCCACGAGAAGATCGCGGTCAGCGTGCCGGTATCGACCGCGAACGGATCGATGATCGCGGTCGGCGACGAGAACGACGCCATCAGGTTGTCGCGCACGTCGTGCATGCAGATCACGCGAAACGTCTTGCCGTCGGCCGGATCGGACGGCGGCAGCAGATCGATCATCTTGGCGCCGGTCACGCCCGGGAACAGCGAACAGGCGGCAAACGTGCCGAGGCATCCGCACATGAAGGTCCGTCTGGATTGCATTCAGAGCTCCTTGCTAAAACGGCAGGTTGAGCGACAAGAAGCCGGTTTCGGAGCGTTCGCGCTGGCCGTCGTATGCGTGGCTGCTGACCTCGACGCCGTAGCTCAGCGTGATGTCGTGCTTGAACGTCCACGCGTGCTCGAGGCGCGCGCTCCACAGCGGGCTGGTGCCGAAGCCGCGCTCGTTGTACACGCCGCCCGATACCGACACGCGCTGTTGCAGCCCCGTGTCACCTTTCTTCCACAGCGTCAGCTGATGCATCACGGTCGCCGCGGCCGCGTAGTCGCGACCGGGGCTGAAGTAGGGCGCGTCCTGGCGCGTGTTGCTGTCGGTGCCGAGATTCAGCGAGACGTTGACGAGCTGGTTCGCGGACGTGTACACGCGCTGCGTGGCGGTCGCCGCGATCTCCTGGTGCAGGTTCGAATCGCTGTAGCGGCTCACGCCGTAGCTCAGCTTGACTTCGCGCCGGTCGTTCTGGCGATACACGACCTCGACGTTCGCGGAGCGGCCCCAGATGTGCGCGGCATACGCCTTCCACGGCAGCGAGTTGTCGTTGGTGTCCAGCCCGGCGCCGACCGTCCAGTAGTCGTTCAGCGCGTACGCGATCGTCCCGCGACCGCCGGTCCGGCCGTCCCCGCCCATCGAACGCGTGACCTCGCCCAGCACGGTGAGCGGCCCGTGCCGATAGTCGCCGCCGATGCCGGTGCGCGTGCGGCTGACGCTGCCGCCGTCGGTTTGCGCATGGCCGAAGAACGTATGCGAGAAGATCCGCCAGTTGTCGCCGAACGGTTGCGAATAGATGTAGCTGTCCGACGTGAAGCTGTTGTCGGCCAGTGCGCTGTTACCGTGCTCGAAGCTCAGGTCGGTCGTGAACACCGGGCTGCGGTAGGCGTTGTAGTCGCGCTTGAAGCTGCGCACGGAGCCGCTGTCCGGGAACGTGTTGCCCAGGGTCTGATCGACGGTCTTCGCGGTCGCGTAGTCGTCTGCCGTGAGCGATGCGCGGCCGAGGCCCGCGAGCATCTCGACGCTGTCCGGGTGATCGGTCAGCGATGCGCGATACATCGAGATCGCCTGGCGCGGATGCGACTGGCCCGACACGGCGTCGGCGTGCGCGGCACGGACCTCGGCGTTGAACGGCACCTCTTTCTCGAGCTGTTCGAGGGCGGCGATGCCCTGGTCGACGTGACCCGTGAAGATCAGGTACTGCGCGCGCAGCCGGTAGTAGCGCAGATAGTCGCTTTCTCCCGGACCGACGTTGGTCACCTGCTTGACCGGCGGCAGCGACTTCTCCATGTCGTCGAGCACCTGCTTCGCTTCGGGCGCGCGCGCCTGGTCGACGTACGACCAGAACAGCCCTTCGCGCAGCTCGATCGGCTGCGTGCGGGCGCCATACTGGAAGCCGCGGGTCGCGCGATCGGTCGGCGACGCGGTGGCCTGCTGCAACGCCCGCGCGTACACGGTGTTCGCCTTGGCCGGCTCGCTCAGGTACAGGTACGCATCGCCGACGGCCGCCAGCGCGTCGATCGAGATCTCCGCGTTGGACGGAATCGTCTCGAACGTCGTGACGGCCGCCTTCATGTCGCCGCGTGCGGCGAGGGCGACCACCCGGTCACCGGCGAGCGCCGTGCGGACCGGCGTGTACTCCGGCGTGGCCGGTATCCGCTTGTCGAGGTCGTCGGCGGCGCGCAGCGCGTTGTCGAGCCCGTCGAAGCGGTCCGAACTCGTCATCGAACGCGACTTGTCGCGTCCGCCGCGCACCTGCTGGCGAATCGACAGTTCTTCCAGTTGCGCGATGTCGACGGCGGAGAATGCATCGGGCCGGGCCTTCGCTTCGTCGAGCGCCTTGACCGCGCCGCCGCTGGCCGCGAGGCCGAACACGTCGTTGCGCACCGTCGCGACGTCGGCGGTGCGAAGATTCGGCGCCTGCGCATTCGGCGCCTCGACGTCGGGTCCTTGCGATCGCTGGATCGCCTCGCCGGGGAGCTGCGCGCCCGGTGACTGTGAACCCGGTTGCCGGGACGACGGCGGCTCGACGCCAGGCGGCTGGGCCGCGGGCGTGGGCGAGTTCGGCATCGGCGTGCCGGATGCCTGCGCGACGAGCGTCGGCGTAGCCGGCGGTGCGGGGGGGCGCGGTTTGGGCGAGTTGTTGAGGTGCATCCGACGTTGGCACGCGTGGTGCCGGCGCATCCGGCGGCACCGTGTCGAATGCCTGCACAAGCAGCATCGGCGCATTCGGCGCGTGCGCGGCCGGCGCAGGTGCATTCGACGCGGTTGCGTCCGGCACCGGAGCACCCGGCTGCGCTGCATCCGGGTCCACGACGACGGTGGTCGGCATCGCGGGGCTCGCCTGTGCGATCTGCATCGACGCATCCGAGGCCCGTGCGATCGGCGTCGGCGCATGAGGGGGCTGCGTGCCCGAACCTTGGGCGGCCTGCGTCGACGCGCCCGTCGGCTGCAGGTCGGGCGGCAGCGCATCCGGCGCACCATGGGAGCCGGAGATTGCACTCGCGTCGCGCGGCTTCGCGTCGCCTTCGGCGGCAAGGCACGGGCCGGACGCGACGAGCAGGCACAGCAACGGCGCATGCAGGAGGACCCGCCGGTTCGGCGGAACGACGGTGGTGCATTGTTGTTGACGATTGTTAGCCACGATGTCTCCTCACTTTGAAACGATCACATCGGTTGCACGCCCGACGGCGTGCTTCGCCGGCTATCGCGTCGCCGGGCGGCGAGGCCCGGCGGCATCCGGTCGGTTCACAGGCGGTTGCGGACCGCTTGTCCGAGCAACGCGCGCGATTCGCTGTTCGTCGGATCGATGGCGAGTGCACGGCTCGCGTTCTGCTCCACACAGCTCCATTCGTCGATCCGTGCGCACCAGCGCGCCCTGGCCAGAGCGCGGGCACCTTCCACTTCGTCGTGCGTGACGCTGGTGGCCTCCATGTGCGCCGTGCCGGCGATATACGACTGAGGTTGCAGTCTCGGCCCGGGGTCGGGATGTTTTCTCGTGCGCGCCAGCGCCTGCGAACGTGACGTCCGGTGCGCATCGCCCGGACGCGTCGTGCGGCTGCCGGTCGACGCGGCGTGCGGGGCGGCCGCGAGCCGGGTCGGCGGCACGTGTGCGGGGCGCGGGTGTTGCGTGGCCGAACCTGTCGCCGCTTGCGGCGGTACGGCCGGCACGGCCGGTTCGGCCGCGGCCGACAGGGCCGGCGTGGCCGACGCCGAAGGCGTCACCGGCCCGGCCTGCGCGACCGTCGACGTCGAGCCGGCGGGCGCGACGGGCGCCTCGGTGCCGGACGCGCCGCCGGTCGCCGCCACGATGAGCTTGCGGTAGTTGCCAACGGCGGTTCCGATCACGCCGGCGATATCGTGCGTCACGCTCGCATGGCCGATCCTCGCGTCTCGCTCGACGTACGCGAAGGCACCGAAGATCGCGGCAAATGCAGCGACGCTGAGCGCCGCATTCTTTCCCGGACCCCACGAGGGTTTCGGCTGACGGGCGGGCGAGCCGTCCGGTCGTTCTGCACGGCGCATTCAAGACTCCTTGATTCGATGCGTTCTCCGAATGACGCGATCGGAGCGGGGCGGCGCGACGCGACGTTCACCATCGCAACTGCGTGGTGAGCGTGCCCGTCTCGACGATCGCGAACTGGGTGGCTCCCTGATAGGTTCCCTCGACCCGATAGCTCGCATCCGGCACGCTGAACAGGCAGCGCGATCCCGGGGCGTTGAATTCGACGAGCACGCGCCCATGCCGGCGCAGGCGCACCTGCACGTTGGACAGGGGCTGCCCGGTGCTCCCGGACAAGAAAGACACGCCCAGGTTGTACGGGCGTCCGTCAGGGGGAAGCGGCGCGGTACCGTCGATCCGTGCGTCGCCGCAGATATACGAAATCACGTACCGGTTTGCCCCCGGACCGGACGCCGGCGGCGGAGCCGCCGGTGTCTGGGCCATGGCGTTCATGCAGAGCGTGGAAAGCACGACGCTCAGGAAAGGGCGAGCCTGCTGTCGAAGCGAGGGTGACATTGCAATCTCCCGTCCGGAATCGATGACGCGCATCGACCCCGAGTCGAATTTGCCAACGTTCTTTTTGCGACACGCTATTGATACACGATGGTTTTTGAACCAACAACCGCGTGTGGCCCGAATGGGACAAGAGAAAAGATCCTATTTAAATAGGATAAAGAAGCATTTATGAGGATCGCTTAATGCTGAATAAAGGCGATATTGCCGAACATGAAAATTGCTACTCGGTAGCGATGATCGAGCACGCTTTGGATTACGTCGGAGGTATCGACGTTCGTGCCGAAAGATAACGACTGATAAAAGAAACTATTGCGCCTGTATTCAAGGCGAATCGATGAAGATCCGGATACAGATCGCACATCATGAAATGAGGGTGCGACGTTTTTGATGATTCCGTCAGTTACAGGTAAATCGAAACTTGTGTAACAAGGTATTTCTGTCTGGAAAAGCGGGCCGATTATTCTTACTTAATACGGAAAACAGTAAAAAATACGACATGAATCGCAAACGTTTGCGTGTTCTGAAAATCGATTAAGAGCTGTTGAGGGATTTTACGGAGTCCGACGGGATTATCGATTGCTATCGGGAGAACGCGTATTCGCGCCATGGATATCCACGGCGCGAATACGCCATCAGCGGCTGCCGCCCGCGCTTCGCCGTGCGCTGCGCATCGCCGGCGCGGCCGCTTCTTCAGTACCGATCGCACCGTCGATCGCCGCGCGCGGCCGGTTCATGATGTAGGCCCACAGCTGCTCGGCCGCGAGCCCGCGCTTGCGCGCCGATCGATACAGGCGGATTTCGAGTTCGGTGATCCAGTCGCCGGTGCCCGCGCACACGAGCGTGCCGTCGGCGAGCTCCTTCGCGACGCAGCTTTCCGGCAGCCAGCCGATGCCGTGCCCGGCCACGACCATGCCTTTCAGCGCCTCGGACATGTGCGTCTCGAAGCACCGGTGCAGCACGTACGGCTCGGTCGCATTCAGCAGCAGCATCTCGACGATGTTGCCGAGAAAGGCGCCCGACGAATACGCGAGCAGCGGCAGCGGGGCATCCGGCGTGCCGGGCAGCTGGAACACCGGCTTGCCGCGCGCGTCGGGCGACGACACGGGCAGGATCCGCTCGACGCCGAGGCTGACGAATGGGAAGTGGTTCGGGTCGAGCACGATCGGCAACTGCGGATGGTGATAGCCGAGCAGCAGGTCGCATTCGCCTTCGACCAGCTGCTGCACGCCTTCCGGCACGTTCACCGCATTGACGCGGGCAGTGACGTGGCCGACCTCGCTATTGAGCTGCTTGAGCCATTCGGGAAACAGCGTGAACACCAGCGTATGCGCGACGGCGAAGCGCACGACCTGGTCGCTCGCCGCGAACTGGTCGTAGCCGTTCACGAGATTGCGCGCCGCATACATGCTGCGCAGGATGTCCGCGGCGAGCCCGCGGAACATCTGGCCGGCCGGCGTCAGCGCGACCGGATTGATGCTCCGGTCCACCAGCTTCGCATCCATCCAGGTTTCAAGCGCGGCGATTCGCCTGCTGAACGCCGACTGCGTCAGGTGCCGGTGACGCGCGGCCCGGGAAAAGCTCTTGGTATCCGCAAGGCTCAGGAAATCTTCCAGCCACTTTGCTTCCATTTCGATCTTCGCTTTTTATAGTCGGGCGCCTGAAAGGCGGCGCCGTCTGCTGCACCAACGTTCTAGCGTACCGCGCATCGCGCCGCTCGGGCCGATGTTTTTTTTCGATCGGTGTCAGTCGAAATATGCATGGGCGTTGTCGGCGGGATTACGGCTGCATAGCGTTGAGGGGCCGGACCGGTTAACCGGACAGTTCATCGCGTCGGACTGTCCGGGCCCGCCTGGACGGCACTTCCCCCAAGGCCGGCTGCGCCGTGTGCGTGCCGGCCTACCCGTTCATGGTCGTTTCGGGGGCGTCGGCTCGCCGCTTTTGGTGCAGTGCAGATTGCACATCCGTGACACGTGGGAGAACTATGTTCGTCGGACGCGGCGCAGCATCGATCGTGCACGCTCGCGGCGCACCGCAAGCGCCCGGCGCGTCCGAGGTTGCACCGTTGTGGTGCGTAATGCCGCGCAGGCATGCCTGACGCGGCGCGAAAAACGGGGGGATATCGAGCAGATTGAGCAAGGCACGTTCCTTGCAAAGCATTCAGTACGCCGGTCCGGCATGCGCAATGCCGGGGAAAACGATCGATGGAGAGAAGATCGATGAAGCCATTCGATGAAATGCTGCAATCCGGCGACATGGTAAGGGCGCCTTACGCGCGCCTGAAGCAATGGCTCGACACGCAGAATCCTGCGAGCCTCGCCCAGAAGGCCCACGACGCGGAAGGCGTGTTCCGCAAGACGGGCATCACGTTCGCCGTCTACGGCGACGCGGAGGCCGCCGAGCGGCTGATTCCGTTCGACATCGTCCCGCGCATCATCTCGGGGGCGGAATGGAGCCGGCTGTCGCTCGGCATCGAGCAGCGCGTAATGGCGCTGAACGCGTTCCTCGACGACATTTACCACCGTCAGGAAATCGTGCGCGCGGGCATCGTGCCGAAGCACCTGATCGCGCACAACGACGCGTTCATCCCCGAGATGATCGATTTCCGGCCGCCCGGCAACGTTTACACGCACATCATCGGTGTCGACATCGTGCGCACCGGCGAGAACGCGTTCTACGTGCTGGAGGACAACGCGCGCACGCCGTCCGGCGTGTCGTACATGCTGGAAAACCGCGAAACGATGATGCAGCTCTTCCCCGAGCTGTTCCAGCAGGTGAAGGTGCGCCCGGTCGAAACCTATCCGCAGATGCTGCGCCAGTCGCTCGCGGCCGTGTGCCCGCCGGGCGGCAATGCCGACAACCCGACCATCGCGGTGCTCACGCCCGGCATCCACAATTCCGCGTACTACGAGCATTCGTTCCTCGCCGACCAGATGGGCGTGCACCTCGTCGAAGGCAGCGACCTGCAGGTGATCGACGGGCGCGTCGCGATGCGCACGACCGAAGGCTTCCAGCCGATCGACGTGCTGTACCGCCGCGTCGACGACGCGTTCCTCGATCCGCTGACGTTCCGCCCGGATTCGGTGCTCGGCGTGGCCGGCATCATGGACGTGTACCGCGCGGGCAACATCACGATCGCGAATGCGCCCGGCACCGGCATCGCCGACGACAAGGCGATCTACTCGTACATGCCGGAGATCGTCGAGTTCTACACGGGCCGCAAGGCGCTGCTGGAGAACGTGCCGACCTGGCGCTGCGGCGAGGCCGACAGCCTGAAGTACGTGCTCGCGCATCTCGACGAACTGGTCGTGAAGGAAGTGCACGGCTCGGGCGGCTACGGGATGCTGGTCGGGCCGTGCGCGTCGAAGGCCGAACTCGAGGCATTTTCCGCGAAGCTGCGCGCGCGTCCCGCGAACTACATCGCGCAACCGACGCTCGCGCTGTCCACGACGCCGATCCTGACCGACGCCGGCCTCGCGCCGCGCCACGTCGACCTGCGTCCGTTCGTGCTGGTGTCGGACCGGATCCGCATCACGCCGGGCGGGCTCACGCGCGTCGCGCTGCAGGAAGGGTCGCTCGTCGTCAACTCGAGCCAGGGCGGCGGCACCAAGGACACCTGGGTGCTGGCCGACTGAGCCGGGCACGACCGCGCGCGCCGGAGCCGGCGCGCGAACCGAACGAAGACGGAGTGGACACGAGATGCTTCTGGGACGTACTGCAAGCGGCCTCTACTGGATGTACCGCTATATCGAGCGCGCGGAGAACATCGCGCGCATCGTGGATGCCGGGCTGCGGATGGCGCTCACGCGCACGGCCGACGCGCCGGCCGAATGGTCGTCGGTGCTCGTCAGCTCGGGCGCCGACGACGGCTATCGGGAGAAATACGACGCGTATGCGGCCGATACCGTGACCGACTACCTGCTGCGCGACCGCGACAACCCGTCGAGCGTGCTGTCGTGCATCGAGGCCGCGCGCTCGAACGCGCGGATGGTGCGCACGGCGCTCACGCGCGAGGCGTGGGAAAGCGTGAACGGCGCGTGGCTCGCGTTGCGGCGCGCGCTGGCGCAGCCGGTGCCGGAAAGCGAGCTGCCGGCCGTGCTCGACGAAGTGAAGCGCGAAACCGCGCTGATCCTCGGCAGCTTCTACAGCACGATGCTGCGCAACGAGATCTTCGATTTCGCGCAGATCGGCGCCTTCATCGAACGCGCGGACAACACCGCGCGGATCATCGACGTGAAGTATCACCTGCTGCTGCCGTCGGTGTCGCACGTCGGCACGATCCTCGACAACTACCAATGGGAGACGATCCTGCGTTGCGTCGCCGCGCACCGTTCGTACCGCTGGGTGTACGACGTGCAGTACAAGCCGCTGAACATCGCCGACTACCTGATCCTGAACGGCCG 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 CGGAACAATCAAGTGCCGCAACTGGTCAACGCGCTGAGCCGGCTCGAATATCGCGGCTACGATTCGTGCGGCATCGCCGTGCAGGGCGACGGCCGCCTGCGCAGCGAACGCACGTTGAGACGCGTGACCGACTTGCAGGACCGCGTGCTGACGCTCGGCCTCGAAGCGCAGACCTGCATCGCGCATACGCGCTGGGCGACGCACGGCGCGCCATCGGAAATGAACGCGCACCCGATCATGTCGGGCGACACGATCGCGGTCGTGCACAACGGG 
 >PredictedProphage1 -Hit 2 
 AAGGTGTCGATCGTCGTGCCCTGCTTCAACGAAGCCGCGAACGCGCGCAGCGTGATCGGCCACCTGAACGGGATGCAGTATCCGAACTACGACATCATCGCGGTCAACGACGGCAGCAAGGATCGCACCGGCGAGATCCTCAACGAGCTGGCCGTCGAGATCCCGCGGCTGCTCGTGATCCATCACGCGCGCAACGAAGGCAAGGCGGTCGGGCTGACGACCGCGGCGGCCGTGTCGAACGCGGAATACCTGCTGTGCATCGACGGCGAC 
 >PredictedProphage1 -Hit 3 
 GGCGACGCGAAGCCGCGCGACGCGAGTGCAATCTCCGGCTCCCATGGTGCGCCGGATGCGCTGCCGCCCGACCTGCAGCCGACGGGCGCGTCGACGCAGGCCGCCCAAGGTTCGGGCACGCAGCCCCCTCATGCGCCGACGCCGATCGCACGGGCCTCGGATGCGTCGATGCAGATCGCACAGGCGAGCCCCGCGATGCCGACCACCGTCGTCGTGGACCCGGATGCA 
 >PredictedProphage1 -Hit 4 
 AGCTTTTCCCGGGCCGCGCGTCACCGGCACCTGACGCAGTCGGCGTTCAGCAGGCGAATCGCCGCGCTTGAAACCTGGATGGATGCGAAGCTGGTGGACCGGAGCATCAATCCGGTCGCGCTGACGCCGGCCGGCCAGATGTTCCGCGGGCTCGCCGCGGACATCCTGCGCAGCATGTATGCGGCGCGCAATCTCGTGAACGGCTACGACCAGTTCGCGGCGAGCGACCAGGTCGTGCGCTTCGCCGTCGCGCATACGCTGGTGTTCACGCTGTTTCCCGAATGGCTCAAGCAGCTCAATAGCGAGGTCGGCCACGTCACTGCCCGCGTCAATGCGGTGAACGTGCCGGAAGGCGTGCAGCAGCTGGTCGAAGGCGAATGCGACCTGCTGCTCGGCTAT 
 >PredictedProphage1 -Hit 5 
 CGCGAGGCGTGGGAAAGCGTGAACGGCGCGTGGCTCGCGTTGCGGCGCGCGCTGGCGCAGCCGGTGCCGGAAAGCGAGCTGCCGGCCGTGCTCGACGAAGTGAAGCGCGAAACCGCGCTG 
 >PredictedProphage1 -Hit 6 
 GATCGGCGCCTTCATCGAACGCGCGGACAACACCGCGCGGATCATCGACGTGAAGTATCACCTGCTGCTGCCGTCGGTGTCGCACGTCGGCACGATCCTCGACAACTACCAATGGGAGACGATCCTGCGTTGCGTCGCCGCGCACCGTTCGTACCGCTGGGTGTACGACGTGCAGTACAAGCCGCTGAACATCGCCGACTACCTGATCCTGAACGGCCG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 RNNQVPQLVNALSRLEYRGYDSCGIAVQGDGRLRSERTLRRVTDLQDRVLTLGLEAQTCIAHTRWATHGAPSEMNAHPIMSGDTIAVVHNG 
 >PredictedProphage1 -Hit 2 
 KVSIVVPCFNEAANARSVIGHLNGMQYPNYDIIAVNDGSKDRTGEILNELAVEIPRLLVIHHARNEGKAVGLTTAAAVSNAEYLLCIDGD 
 >PredictedProphage1 -Hit 3 
 GDAKPRDASAISGSHGAPDALPPDLQPTGASTQAAQGSGTQPPHAPTPIARASDASMQIAQASPAMPTTVVVDPDA 
 >PredictedProphage1 -Hit 4 
 SFSRAARHRHLTQSAFSRRIAALETWMDAKLVDRSINPVALTPAGQMFRGLAADILRSMYAARNLVNGYDQFAASDQVVRFAVAHTLVFTLFPEWLKQLNSEVGHVTARVNAVNVPEGVQQLVEGECDLLLGY 
 >PredictedProphage1 -Hit 5 
 REAWESVNGAWLALRRALAQPVPESELPAVLDEVKRETAL 
 >PredictedProphage1 -Hit 6 
 DRRLHRTRGQHRADHRREVSPAAAVGVARRHDPRQLPMGDDPALRRRAPFVPLGVRRAVQAAEHRRLPDPERP 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig245

Genome size:  55248
Host's GC content:  68.94
Predicted Codon Position GC:  	1st:  69.30	 2nd:  45.31	 3rd:  84.35

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig246

Genome size:  53772
Host's GC content:  68.05
Predicted Codon Position GC:  	1st:  68.75	 2nd:  45.07	 3rd:  82.83

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig243

Genome size:  46570
Host's GC content:  67.81
Predicted Codon Position GC:  	1st:  68.60	 2nd:  45.01	 3rd:  82.43

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig244

Genome size:  46004
Host's GC content:  62.72
Predicted Codon Position GC:  	1st:  65.47	 2nd:  43.63	 3rd:  73.82

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig239

Genome size:  45564
Host's GC content:  69.44
Predicted Codon Position GC:  	1st:  69.61	 2nd:  45.45	 3rd:  85.19

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig240

Genome size:  45129
Host's GC content:  67.57
Predicted Codon Position GC:  	1st:  68.46	 2nd:  44.94	 3rd:  82.03

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig241

Genome size:  45026
Host's GC content:  67.42
Predicted Codon Position GC:  	1st:  68.36	 2nd:  44.90	 3rd:  81.77

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig236

Genome size:  42322
Host's GC content:  68.85
Predicted Codon Position GC:  	1st:  69.24	 2nd:  45.29	 3rd:  84.19

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig237

Genome size:  41652
Host's GC content:  68.05
Predicted Codon Position GC:  	1st:  68.75	 2nd:  45.07	 3rd:  82.84

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig242

Genome size:  41502
Host's GC content:  64.44
Predicted Codon Position GC:  	1st:  66.53	 2nd:  44.10	 3rd:  76.73

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig235

Genome size:  40127
Host's GC content:  68.24
Predicted Codon Position GC:  	1st:  68.87	 2nd:  45.13	 3rd:  83.17

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig238

Genome size:  37622
Host's GC content:  67.09
Predicted Codon Position GC:  	1st:  68.16	 2nd:  44.81	 3rd:  81.22

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig233

Genome size:  35985
Host's GC content:  66.06
Predicted Codon Position GC:  	1st:  67.52	 2nd:  44.53	 3rd:  79.47

 >PredictedProphage1 
 Length:   11793 
 Number of hits =   6 
 GC	Coding	First	Second	Third
 65.26 	 63.94 	 64.83 	 38.81 	 88.18 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	2	0.0142857142857143
 Leu	TTA	0	0
 Leu	CTG	87	0.621428571428571
 Leu	CTA	0	0
 Leu	CTT	7	0.05
 Leu	CTC	44	0.314285714285714
 Lys	AAG	57	1
 Lys	AAA	0	0
 Glu	GAG	52	0.525252525252525
 Glu	GAA	47	0.474747474747475
 Gln	CAG	44	0.862745098039216
 Gln	CAA	7	0.137254901960784
 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	0.0178571428571429
 Asn	AAC	55	0.982142857142857
 Ser	AGT	0	0
 Ser	AGC	13	0.216666666666667
 Ser	TCG	44	0.733333333333333
 Ser	TCA	1	0.0166666666666667
 Ser	TCT	0	0
 Ser	TCC	2	0.0333333333333333
 Trp	TGG	15	1
 Arg	AGG	0	0
 Arg	AGA	0	0
 Arg	CGG	9	0.087378640776699
 Arg	CGA	2	0.0194174757281553
 Arg	CGT	18	0.174757281553398
 Arg	CGC	74	0.718446601941748
 Ala	GCG	62	0.525423728813559
 Ala	GCA	6	0.0508474576271186
 Ala	GCT	7	0.0593220338983051
 Ala	GCC	43	0.364406779661017
 Cys	TGT	1	0.0625
 Cys	TGC	15	0.9375
 Asp	GAT	12	0.15
 Asp	GAC	68	0.85
 Gly	GGG	6	0.06
 Gly	GGA	1	0.01
 Gly	GGT	12	0.12
 Gly	GGC	81	0.81
 Phe	TTT	5	0.0909090909090909
 Phe	TTC	50	0.909090909090909
 Tyr	TAT	9	0.2
 Tyr	TAC	36	0.8
 Met	ATG	34	1
 Val	GTG	43	0.42156862745098
 Val	GTA	2	0.0196078431372549
 Val	GTT	5	0.0490196078431373
 Val	GTC	52	0.509803921568627
 Thr	ACG	51	0.75
 Thr	ACA	0	0
 Thr	ACT	0	0
 Thr	ACC	17	0.25
 Pro	CCG	34	0.80952380952381
 Pro	CCA	1	0.0238095238095238
 Pro	CCT	3	0.0714285714285714
 Pro	CCC	4	0.0952380952380952
 Ile	ATA	0	0
 Ile	ATT	2	0.0307692307692308
 Ile	ATC	63	0.969230769230769
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 5464	5628	-1	ref|YP_024873.1|nudix hydrolase motif containing protein	37.4bits(85)	0.10
 9459	9887	1	ref|NP_542266.1|unknown 	39.7bits(91)	0.021
 9909	10091	-1	ref|NP_818503.1|gp203 	35.4bits(80)	0.39
 12806	13105	1	ref|NP_943919.1|NrdD anaerobic NTP reductase large subunit	42.0bits(97)	0.004
 13145	15220	1	ref|YP_195185.1|ribonucleotide reductase A subunit	235bits(599)	3e-61
 16375	17256	1	ref|YP_195186.1|ribonucleotide reductase B subunit	102bits(254)	3e-21
 
 DNA sequence:
 CGGATGCAGGCCCGTTTCCTCGTGCAGTTCCCGGTACATCGCCTGCATGGGGGTCTCGCCATACTTGATCCCACCTTGAGGAAACTGCCAGGAATGCTCGCGGAGCCGCTTGCCCCAAAACACCTCGTTGCGCGCGTTCAAGAGGATGATGCCGACGTTCGGGCGAAAGCCTTCACGATCCAGCATACAACCACCTTCGAATCCTTTAAAATTGCTTTGATTATAAACAGATAACGGGCGCTGCGCACCGTGACGGAGCGAATCCGCGCGGGGTACACCGGCTGAATTGTCCCTGATTAGTCTGCTACGTCGTCTGCGCCATCGTCGTCCCTCGTTGTTCGCCGCGCGCAGCTTTTTCACCTTGAAACTTTTTCGGGCGCCCCGCCTGGGGGCGCCGTTTTTGGAACCGTCCGCATGAAAGCTTCCCGTTTCTTTATCGGCACCCTGAAAGAGGCACCCGCCGACGCAGAGATCGTCAGCCACAAGCTGATGGTCCGCGCCGGCATGATCCGTCGCGTCGCCGGCGGCATCTACAACTACCTGCCGGTCGGCCTGCGTTCGATTCGCAAGGTCGAGGCGATCGTGCGCGAGGAAATGAACCGGGCGGGCGCCATCGAGCTGCTGATGCCGGCCGTGCAGCCGGCCGAGCTGTGGCAGGAGTCGGGCCGCTGGGAGCAGTACGGCCCCGAGCTGCTGCGCTTCAAGGACCGCAAGGACAACGATTTCGTGATCGGGCCGACGCACGAGGAAGTCGTCACCGACATCGCGCGCAACCAGATCAAGAGCTACCGGCAGATGCCGGTGAATTTCTACCAGATCCAGACGAAGTTCCGCGACGAGATCCGGCCGCGCTTCGGCGTGATGCGCGGCCGCGAATTCATCATGAAGGACGCGTATTCGTTCGACAAGGATGCGGCCGGCCTGAACGAGTCGTATCGCAAGATGTACGACGCGTACGTGCGCATCTTCACGCGCCTCGGCCTCGAGTTTCGCGCGGTGGCGGCCGACAGCGGCTCGATCGGCGGCAACTTCTCGCACGAGTTCCACGTGATCGCCGACACCGGTGAGGACGCGATCGCCTACTGCCCGACGTCCGAATTCGCGGCGAACGTCGAGGCGGCCGAAGCGCTGCCGCTGATTGCCGAGCGCGCGGCGCCCGCCGAAGCGATGGAAAAGGTCGCGACGCCCGGCAAGGCGAAGTGCGAGGCCGTGGCCGAACTGCTGTCGATCCCGCTCGAGCGCACGATCAAGTCGATCGTGCTCGCGACCGACAACGAAGGCGCCGAGCCGACCATCTGGCTCGTGATGCTGCGCGGCGATCACGACCTGAACGAGATCAAGGCGTCGAAGCTGCCGGGCCTGAAGAACCACCGCTTCGCGACCGAGCAGGAAATCGTCGAATGGTTCGGCACGCCGCCGGGCTACCTCGGCCCGGTCGGCACGAAGAAGCCCGTGAAGGTGATCGCGGACCGCACGGTCGCGAACATGAGCGACTTCGTCGTCGGCGCGAACGAGGTCGACTATCACATCGCCGGCGTGAACTGGGGCCGCGACCTGCCGGAGCCGGAAGTCGCCGACGTGCGCAACGTGAAGAAGGGCGACCCGTCGCCGGACGGCAAGGGCGTGATCGACATCTGCCGCGGCATCGAAGTCGGCCACGTGTTCCAGCTCGGCACCAAGTACTCGGAAGCGATGGGCGCGACGTTCCTCGACGAGTCGGGCAAGCCGCAGCCGATGCTGATGGGCTGCTACGGCGTCGGCATCACGCGCATTCTCGGCGCGGCGATCGAACAGAACTTCGACGACAAGGGGATCATCTGGCCCGAGTCGATCGCACCGTTCGAGGTCGTGCTGTGCCCGATGGGCTATGACCGCAGCGACATGGTGCGCGAGACGGCCGACAAGCTGTACGCGGAACTCGTCGCGGCCGGTATCGACGTGATCCTCGACGATCGCGGCGAGCGCCCGGGTGTGATGTTCGCCGACTGGGAACTGATCGGCGTGCCGCATCGTCTGGTGATCGGCGAGCGCGGCCTGAAGGAAGGCAAGATCGAGTACCAGGGCCGCCGCGATGCCGAAGCGACGCTGCTGCCGGCCGACACGGCCGCGGCGGCGGTCGCGGAGAAGATCCGCGCCGCGCTCGCGCACTAAGCGCGGCGACCGGGCGACACGATGGAATACACGTTCCTGTCGGCCACCGTGCTCCTCGTGCTGATCACGGATCCGCTCGGCAACATCCCGCTGTTCATTTCGGCGATGCGGGATGTGCCGCGCGAGCGGCGCGTGAAGCTGATCCTGCGCGAAGTGGGGATCGCATTCGTGATCCTGCTGTTCTTCATGCTGGTCGGCGACCGCTTCCTGCGGATGATGAGCCTCACCGACCTGTCGCTGCGGCTCGGCGGCGGGATCGTGCTGTTCCTGATCGCGCTGCGGATGATCTTCCCGCATCCGGACGGCGCGCTCGGCAGCGATCCCCGTGCGGGCGGCGAGCCGTTCATCGTGCCGCTCGCGATTCCGGCGCTGGCCGGGCCGTCCGCGCTCGCGACGGTGATGCTGATGACGTCGCAGGCGCCCGGCAAGATGCTCGAGTGGGTCGGCGCGCTGACGGTCACGATGATCGTCTGCGCGATCACGCTGGTGCTGGCCGAGCGGATTCAGCAGTGGCTCGGCGAGCGGACGGTCGCCGCGTTCGAGCGGCTGATGGGCCTCGTGCTGGTGGCGATCTCGGTCGAGATGCTGCCGGCCGGCATCCGCGCGTTCGTGCACCAGTTGTAACGCAGGCGGCACGCGCGAAAAAAAGCGGCGCTCCGGGCAACCGGAGCGCCGCTTTCCATTTATATAGCAGGCCGGGCGGCGATCAGACGTTCGCGGTCAGCGCGCGGATCGTCGGCAGGTTGCGCCAGTAGCCCTTCGCGTCCATCCCGCAGCCGAACACGTAACGGTCCGGCACCGAGAAGCCGCAGAAGTCGGGGTGCAGCGGTTTCGCCTTCGCGAGCGTCTTCTCGCACAGCACGGCCGACATGAAGCGCTGCGCGCCCATGTCGAGGATGCGGTCGCGGATCGCGGCCATCGTCTCGCCTTCGTCGAGGATGTCGTCGAGTACGAGCACGATGCGGTCCTTCACCGATTCGCGCGGCGCGACGCGCCAGTGCATCTCCGGGCTGCCCTGCGTCGTGTTGCGGTAGCGGGTCAGGTGGATGTAGTCGAATTCGAGCGGGAAATCGAGATGCGGCAGCAGCATCCCGGTAAACACCGCGGCGCCGCCCATCACCGAGAGAACGAGCGGGAACGCGTCGCCGATTTCGGCGCGGATCGCGTCGGCCATCTTCGAGATCGACGCGTTGACGGCGTCGGCCGAGACGATCTCTTCGGAGTGGTCGAAAATGTGGAGGGCTTCTTCGCGGTTCATGTGTTCTGGCGGGCAGTCGGTATACAAATAAGGATGAAGCAGAACGGCAGGCGCGCGCTACGGCAAAAACCCGCGCGCCGGCCGACGGACGAAATCAGCGCATGCCGGGCATCATGCCCTTCAGGCCGCGCATCATCTTCTGCATGTTGCCGCCCTTCAGCTTCTTCATCATCGTACGCATCTGGTCGTACTGGTTCAGCATCCGGTTGACTTCCTGCACCGGCACGCCCGCGCCGGCTGCGATGCGGCGCTTGCGCGTCGCCTTGATGATTTCGGGTTTCGCGCGCTCGGCGGGCGTCATCGAGCTGATGATGCCTTCCATCCGGCGGATCGACTTTTCGGCCTGACCCATGTCGGCGCCGGCCGCCGCCTGCTGGAACTGCGCGGGGAGTTTGTCCATCAGCGACGACAGGCCGCCCATGTTCTTCATCTGCGAGATCTGCGCGCGGAAATCGTTCAGGTCGAAGTCGCCGCCTTTCTTGACCTTGTCGGCGAGCTTCTGCGCGGCCTGGACATCGACGCCGCGCTGCGCTTCCTCGACGAGCGCGAGGATGTCGCCCATGCCGAGGATCCGGTTCGCCATCCGGTCGGGGTGGAACACCTCGAGGCCGTCGAGCTTCTCGGCGACGCCGACGAACTTGATCGGTTTGCCCGTGACGTGGCGCACCGACAGCGCGGCGCCGCCGCGCGAATCGCCGTCGAGCTTGGTCAGCACGACGCCGGTGAGCGGCAGCGTGTCGTTGAACGCCTTCGCGGTGTTGACCGCGTCCTGGCCGAGCATCGCGTCGACGACGAACAGCGTTTCGGCCGGCTTCAGCGTGCCGTGCAGCGCGGCGATTTCCTGCATCATCGCCTCGTCGATGCCGAGGCGGCCGGCCGTGTCGACGAGCAGCACGTCATGGTAGTGGCGCTTCGCCCAGTCGACGGCGGCGAGCGCGATGTCGACGGGCTTCTGGTCCGGCGTGGACGGGAAGAAGTCGGCGCCGACCTGCTCGGTCACCGTTTTCAGCTGCATGATCGCGGCCGGGCGATACACGTCGCACGACACGGTCAGCACCTTCTTCTTGTACTTCTCGCGCAGCAGCTTCGCGAGCTTGCCGACGGTCGTGGTCTTGCCGGCGCCCTGCAGGCCGGCCATCAGGATCACGGCGGGCGGCGTGACCGCGAGGTTCAGCTCGGCGGCCTTGCCTTCGTAGTCGCCGCCGATCACGGCGGTCAGTTCCTTCTGGACCACGCCGACGAGCGCCTGGCCCGGCGACAGGCTGCTGATCACTTCTTCGCCGAGCGCCTTTTCCTTGACCTTGGCGATGAATTCGCGGACGACCGGCAGCGACACGTCGGCTTCCAGCAGCGCGAGACGCACCTCGCGGAGCATCTCCTGCGTGTTCGCCTCGGTGAGCCGGGCCTCGCCGCGCAGCGTCTTGACGACGCGCGCCATCCGTTGAGTGAGATTGTCGAGCATGGGGAGCGTTGGACAGTGGGGCCCGAAGGCGCGGCGGAACCGAACAAAAGGGAGCCGTCGCGGGAAGGGGGCCTAGTGTAAACTTCGAACATGGATATTGTACTGTATGCCCTCACCGCATTCCTGTACGGCGGCCTCGCCGTCGCAGGCTGGCGTACGCACCGTCAGGGCGCGACGTCGCTCGTCGCGAGCGTGCCGGCCGTGCCGGTTCCCGCGTCCGCCGCGTCCGGGATGAGCGGGGCCGGCCGCGCGCTGCTGTTCGCCGCGCTGCTCGCGCATGGCGTGCTGCTCCACATGACGATCTTTCCGAACGACGCGATGGTGTTCGGCTTCGCGTTCGCGCTGTCCGCGATGTTCTGGCTCGGCGCCGGCATCTACTGGATCGAGAGCTTTTTCTTCCCGCTCGACAGCCTGCGCCTGCTGGTGCTGCCGCTCGCGTGCGGCGCGTCGCTGCTGCCGCTCGTGTTCGGCGGCGTGCGGGTGCTGCCTTATGCCGCGGCACCGCTGTTCAAGCTGCACTTCCTGATCGCGAACATCGCGTACGGCCTCTTCGCGATCGCCGCGCTGCACGCGGTCCTGATGCTGATGGTCGAGCGGCGCCTGCAGTCGCTGCGTAGCGGCGGGCGCGACGGCTCGACCGGCTGGATCGCGAGCTGGCTCGAAACGCTGCCGCCGCTGCTCACGCTCGAGAAGCTGCTGTTCCGCCTGATCGGCGCCGGCTTCGTGCTGCTGACACTCACCCTCGCGTCGGGCATCCTGTTCAGCGAGCAGGTCGATGCGCGCGCGCTGCGGCTCGACCACAAGACGGTGTTCGCGATCCTGTCGTGGCTGATGTTCGGCGGCCTGCTGGTGGCCCGCAAGACGTCGGGCTGGCGCGGGCGCGGCGCCGCGCGCTGGGTGCTCGTGTCGTTCGCCGCGCTGCTGCTCGCGTACGTCGGCAGCCGGTTTGTTTTCGAGGTGCTGCTGCACCGCTCCGTGGTTTGACCGCAGGTTTCCGATGCGACAGATTCTTCTCCTGATTCTTCTCTTCTTCGCGGGTTCGTGGCTCGCGCGCAAGCTGCGTCACGCGCAGGAACAGGCGCAGGCGCGCACCGGCCGCGGCGCCGGTTACGACGAGGCGCCCGGCGCTGGCGCCAGTGCGGGTGCCGCGCGCCCGAACGGCGACGCGCGGTCGCTGCCCGAGCCGATGGTGCGCTGCGCCGAATGCGGCGTGCATGCGCCGAAGGGCGACGCGATTGCCGCGAGCGGCGAATACTTCTGCAGCGCCGAGCATGCGCAGCGCCACGCCGCGCGCGTGAACGGTCGCGACGCACGATGAGCGACGCGGCGGTGTTGTCGGTCGACGCGAACGGCTGGGTGCGCGAAGCGCGTCATGCGCCGTCGCCGAACTTCGAGGCGCGGCCCGCGGGAGCGGTGCCGACGCTCGTGATCGTTCACAACATCAGCCTGCCGCCCGGCGAATTCGGTGGCGACGCGATCGAGGCGCTGTTCCTGAATCGCCTCGACTGCGATGCGCACCCCTATTACCAGAGCCACCTGCGCGGCGTGCGCGTGTCCGCCCATTTCCTGATCCGCTGCGGCGGCGAGCTCGTGCAGTTCGTGTCGTGCGACGAGCGCGCATGGCATGCAGGCTCGTCCGAGTTCTTCGGCCGCGCGCGCTGCAACGACTTCTCGATCGGCATCGAGCTCGAGGGCGCGGACGACGTGCCGTTCGACGATGCCCAATACGCGGTGCTCGCCGCGCTCTCCCGCGCGCTCGCCGCGCGCTACCCGGTCGACGCGTTCGCGGGGCACTCGGACGTCGCGCCGGGGCGCAAGACCGACCCGGGCCCGCATTTCGATTGGCAACGCTTCGCGAGCGATGCCGGTTTTTCCGCCGAATACTTTCCTTTCCGTCAGCACTGATCGCGGGGTTTTTTGATCGGAGAAAGTTTTTTCTCCGATCAATGCCTTGCCGTGTCTGCGCGTGAGCGATGTCAAGACCTCTATCGCAAATTATCCGTTTGGACGTCCTCCGAATGTCCACTATACTTGGTGCCAGTTGAGTAGTTCTGTACTAGATATAGTGTGTGTCGCAGGGGAAAACCCGAGCGGCACCGGCCGGCGGGCAACGCCGGCGGACAGGGTTCTCAGGGCGGCGCGTCAGGCCGGGCGGTCCGGGCGTCGCGATCAGCGCAGCGAACATCGACGGGGCAGGGTATACATGACGAAGCACACGACCGGCTGGGTTGTCGCGCATCGACCGAACCGGCTTCCCCGGCGCATCGCTCGCCTCTTACCGCTCGCGCACCGCATTGCGCAGCGTTCGTTTTAATCCGCGGTTCTCTCCGCACCATCCAACACCAGGAGCTTTGCACATGCAAACCACCGACAACGCGACGTCCCAGTACGAGAGCGCCTCGAGCCGTCCGCTCGGCGGGACCGAACAGGGCGCGAAGGCGCTCGCGCCGCAGGCCACGTTCGCCGACTACAAGGTGATCCGCCGCAACGGCAGCGTGGTGTCGTTCGAACCTTCGAAGATCGCGATCGCGGTGACCAAGGCTTTCCTGGCCGTCAATGGCGGGCAGGGCGCGGCATCGGCGCGCGTACGCGAGCAGGTCGAGCAACTGACGCACAACGTCGTTCGCGCGCTCGTGCGCAGCCGCCCGAACGGCGGTACGTTCCATATCGAAGACATCCAGGATCAGGTCGAACTCGCGCTGATGCGCGGCGGCGAGCACAACGTCGCGCGTGCGTACGTGCTGTATCGCGAGAAGCGTCACCTCGAGCGCCAGCATGCGGGCGAGGAAGCGGCGGCAGCGGGCGGCGAGTCGGCCACCGGCATCAACGTGGTCGACAACGGCGTCACGCGCCCGCTCGACCAGAACGCGCTGCGCGCGCTGATCGTGTCGGCATGCGACGGCCTCGGCGCTGCGGTTAACCCTGACCCGATCGTCGCGGAGACGGTGAAGAACCTGTACGACGGCGTGCCGATGAGCCAGGTCTACGACTCGGCGATCCTCGCTGCGCGCACGATGATCGAAAAGGACCCGGCGTACAGCCAGGTCACGGCCCGCATCCTGCTGCACACGATCCGTCGCGAGATCCTCGGCGAGGAAGTCGTGCAGGCCGAGATGTCGACCCGCTACGCCGAATACTTCCCGCAGTTCCTGAAGCGCGGCGTCGACGCCGGCCTGCTCGACGACAAGCTGCTGCAGTTCGACCTGAAGCGCCTCGGCGAAGCGCTCGACGCGAACCGCGACCTGCAGTTCGGCTACCTCGGCCTGCAGACGCTGTACGACCGCTACTTCCTGCACGTCGAAGGCACCCGCATCGAAATGCCGCAGGCATTCTTCATGCGCGTCGCGATGGGCCTGTCGCTGAACGAGATCGACCGCGAAACGCGCGCGATCGAGTTCTACAACGTGCTGTCGAGCTTCGACTTCATGAGCTCGACGCCGACGCTGTTCAACTCGGGCACGCACCGCTCGCAGCTGTCGTCGTGCTACCTGACGACGGTCGCGGACGATCTCGACGGCATCTATGAAGCGCTGAAGGAAAACGCGCTGCTGTCGAAGTTCGCCGGCGGCCTCGGCAACGACTGGACGCGCGTGCGCGCCCTCGGCTCGCATATCAAGGGCACGAACGGCAAGTCGCAAGGCGTGGTCCCGTTCCTGAAGGTCGTGAACGACACGGCCGTCGCGGTGAACCAGGGCGGCAAGCGCAAGGGCGCGGTCTGCGCGTACCTCGAATCGTGGCACCTCGACATCGAGGAGTTCCTGGAACTGCGCAAGAACACCGGTGACGACCGTCGCCGTACGCACGACATGAACACGGCGAACTGGATTCCCGACCTGTTCATGAAGCGCGTGATGGAAGGCGGCGACTGGACGCTGTTCTCGCCGTCGACCTGCCCGGACCTGCACGACAAGTTCGGCGCCGATTTCGAGAAGGCTTACACGGCTTACGAAGACAAGGTCGCGCGCGGCGAGATCAAGCTGTTCAAGAAGATCCCGGCGGCGCAACTGTGGCGCAAGATGCTCGGCATGCTGTTCGAGACGGGCCACCCGTGGATCACGTTCAAGGATCCGTGCAACGTGCGCTCGCCGCAGCAGCACGTCGGCGTCGTCCACTCGTCGAACCTGTGCACGGAAATCACGCTGAACACGAGCGACACCGAAATCGCGGTGTGCAACCTCGGCTCGGTGAACCTCGTCGCCCACCTGGTGAAGCAGGCCGACGGCAGCTACGCGCTCGACCACGACAAGCTGAAGCGCACGATCAGCGTCGCGATGCGCATGCTCGACAACGTGATCGACATCAACTACTACGCGGTGCCGAAGGCGCGTAACTCGAACCTGAAGCACCGCCCGGTCGGGATGGGCATCATGGGCTTCCAGGACTGCCTGCACCTGCTGCGTACGCCGTACGCGTCGCAAGAGGCAGTCGAGTTCGCCGATCGTTCGATGGAAGCCGTCTGCTACTACGCGTACCACGCGTCGACCGAACTGGCCGAAGAACGCGGCCGCTACTCGAGCTACCGCGGCTCGCTGTGGGATCGCGGCATCCTCCCGCAGGACACGCTGAAGCTGCTGGCCGAAGCGCGCGGCGGCTACGTCGAGGTCGACACGTCGGAATCACTCGACTGGACGGCGCTGCGTGCGCGGATCGCCACGCACGGCATGCGCAACTCGAACTGCGTCGCGATCGCGCCGACGGCGACGATCTCGAACATCATCGGCGTGTCGGCCTGTATCGAGCCGACCTTCCAGAACCTGTACGTGAAGTCGAACCTGTCGGGCGAATTCACGGTGGTGAACGAGTATCTCGTTCGCGACCTGAAGGAACGCGGCCTGTGGGACGAAGTGATGGTCGCCGACCTGAAGTACTTCGACGGCATGCTGTCGCGCATCGACCGCATCCCGGCCGACCTGCGCGCGATCTACGCGACCGCGTTCGAGGTCGACCCGACGTGGCTGGTCGAAGCGGCATCGCGTCGCCAGAAGTGGATCGACCAGGCGCAGTCGCTGAACATCTACATGGGCGGCGCATCGGGCAAGAAGCTCGACGAGGTCTACAAGCTCGCATGGCTGCGCGGCCTGAAGACGACCTACTACCTCCGCACGATGGCGGCGACGCACGTCGAGAAGTCGACGGTCGCACACGGCGCGCTGAACGCAGTGCCGACGGGCGGTGCAGGCAGCGGCGGCTCGAGCAGCGGCGGCGCGCAAGGCGCGGCGGGCGGCTTCGGTGCGGCAGGCGGCGCTGCGTCGTCGGGCGCGGTCAACGCTGCAGCGGCGCTCGCGCCGGTCGAAGCAGACGGCCCGGTGTGCACGATGCGTCCGGGCGACCCCGGCTTCGACGAGTGCGAAGCGTGCCAGTAACGCAGTGCGCCTGACCTGAGAAGCAGGCTCGGGCGGCGCACACGACGACCGATCGAGGTTGAAGTGTGCGCCGCTCTCAACTAAAAAAATGATAAGGAATCTGTAACGCGACACCTGCGTTGCAGGCAATGACAAGCGATCGAAACATCCCCGACGACGTCGCGTTTCGATCAGCGTTCGATGCGTCGAGCGCACCTCGCGATACAAGCGCGACTCACATCGCGCGCTGCATGAACGACGATGCGTTGCTCAAAGTGTTGTATCGAGGTCGCAACGCGAATCGAAAAAAGGATTTTTCGTGAGCGAACCCTTTTATCGCTCAGGAAAAGATGGTACAAACCGTTCTAAATTGATGGTGAGAATTTATGCTCAACTGGGATGACGAGAAGACTGCCGTAACCCCCGCGAGCGGAGCGCAGCAAAACGCGATGCGCACCTCCGCCGGGATGGCTGTCGGAATGCAGGCTGCAACGCCTGCCGCCCATCAGGTCCGTGACATTTTCGAAGGCGATCTCGCGGTGCCGCCGCAAGCATCGGCTGTTCCCGCCGGCGGTACGGAAGCGCGGGTCAATGTCGCCGACAAGCGCATCATCAACGGCCAGACTGACGTCAATCAGCTGGTGCCGTTCAAGTACAAGTGGGCGTGGGAAAAGTATCTGGCCGGTTGTGCGAACCACTGGATGCCGCAGGAAATCAACATGTCCCGCGACATCGCACTGTGGAAGGACCCGAACGGTCTGACCGAGGACGAGCGCCGCATCGTGAAGCGCAACCTCGGCTTCTTCGTGACGGCCGATTCGCTCGCGGCGAACAACATCGTGCTCGGCACGTACCGCCACATCACGGCGCCCGAGTGCCGGCAGTTCCTGCTGCGCCAGGCGTTCGAGGAAGCGATCCACACGCACGCGTACCAATACATCGTCGAATCGCTCGGTCTCGACGAAGGCGAGATCTTCAACGCGTACCACGAGGTCACGTCGATCCGCGCGAAGGACGAATTCCTGATCCCGTTCATTCATACGCTGACGGACCCGGCCTTCAAGACCGGCACGCTCGAAGCGGATCAGAAGCTGCTGAAGTCGCTGATCGTGTTCGCCTGCATCATGGAAGGCCTGTTCTTCTATGTCGGGTTTACGCAGATCCTCGCGCTCGGCCGCCAGAACAAGATGACGGGTGCTGCAGAGCAATATCAGTACATCCTGCGCGACGAGTCGATGCACTGCAACTTCGGCATCGACCTGATCAACCAGATCAAGCTCGAGAACCCGCATCTCTGGACCGCCGAATTCCGCGCCGAGATCCGCGAGCTGTTCAAGCAGGCTGTCGAACTCGAATACCGCTACGCCGAGGACACGATGCCGCGCGGCGTGCTGGGTTTGAACGCGTCGATGTTCAAGAGCTATCTGCGCTTCATCAGCAACCGCCGTTGCCAGCAGATCGGCCTCGACCCGCTGTATCCGAACGAGGAAAACCCGTTCCCGTGGATGAGCGAGATGATCGACCTGAAGAAGGAGCGCAACTTCTTCGAGACGCGTGTGATCGAGTATCAGACGGGTGGC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 CGCCCGAACGTCGGCATCATCCTCTTGAACGCGCGCAACGAGGTGTTTTGGGGCAAGCGGCTCCGCGAGCATTCCTGGCAGTTTCCTCAAGGTGGGATCAAGTATGGCGAGACCCCCATGCAGGCGATGTACCGGGAACTGCACGAGGAAACGGGCCTGCATCCG 
 >PredictedProphage1 -Hit 2 
 GTCGGGGTGGAACACCTCGAGGCCGTCGAGCTTCTCGGCGACGCCGACGAACTTGATCGGTTTGCCCGTGACGTGGCGCACCGACAGCGCGGCGCCGCCGCGCGAATCGCCGTCGAGCTTGGTCAGCACGACGCCGGTGAGCGGCAGCGTGTCGTTGAACGCCTTCGCGGTGTTGACCGCGTCCTGGCCGAGCATCGCGTCGACGACGAACAGCGTTTCGGCCGGCTTCAGCGTGCCGTGCAGCGCGGCGATTTCCTGCATCATCGCCTCGTCGATGCCGAGGCGGCCGGCCGTGTCGACGAGCAGCACGTCATGGTAGTGGCGCTTCGCCCAGTCGACGGCGGCGAGCGCGATGTCGACGGGCTTCTGGTCCGGCGTGGACGGGAAGAAGTCGGCGCCGACCTGCTCGGTCACCGTTTTCAGCTGCAT 
 >PredictedProphage1 -Hit 3 
 CTGACCGCCGTGATCGGCGGCGACTACGAAGGCAAGGCCGCCGAGCTGAACCTCGCGGTCACGCCGCCCGCCGTGATCCTGATGGCCGGCCTGCAGGGCGCCGGCAAGACCACGACCGTCGGCAAGCTCGCGAAGCTGCTGCGCGAGAAGTACAAGAAGAAGGTGCTGACCGTGTCGTGCGAC 
 >PredictedProphage1 -Hit 4 
 AAGGTGATCCGCCGCAACGGCAGCGTGGTGTCGTTCGAACCTTCGAAGATCGCGATCGCGGTGACCAAGGCTTTCCTGGCCGTCAATGGCGGGCAGGGCGCGGCATCGGCGCGCGTACGCGAGCAGGTCGAGCAACTGACGCACAACGTCGTTCGCGCGCTCGTGCGCAGCCGCCCGAACGGCGGTACGTTCCATATCGAAGACATCCAGGATCAGGTCGAACTCGCGCTGATGCGCGGCGGCGAGCACAACGTCGCGCGTGCGTACGTGCTGTATCGCGAGAAGCGTCACCTCGAGCGC 
 >PredictedProphage1 -Hit 5 
 TCGGCCACCGGCATCAACGTGGTCGACAACGGCGTCACGCGCCCGCTCGACCAGAACGCGCTGCGCGCGCTGATCGTGTCGGCATGCGACGGCCTCGGCGCTGCGGTTAACCCTGACCCGATCGTCGCGGAGACGGTGAAGAACCTGTACGACGGCGTGCCGATGAGCCAGGTCTACGACTCGGCGATCCTCGCTGCGCGCACGATGATCGAAAAGGACCCGGCGTACAGCCAGGTCACGGCCCGCATCCTGCTGCACACGATCCGTCGCGAGATCCTCGGCGAGGAAGTCGTGCAGGCCGAGATGTCGACCCGCTACGCCGAATACTTCCCGCAGTTCCTGAAGCGCGGCGTCGACGCCGGCCTGCTCGACGACAAGCTGCTGCAGTTCGACCTGAAGCGCCTCGGCGAAGCGCTCGACGCGAACCGCGACCTGCAGTTCGGCTACCTCGGCCTGCAGACGCTGTACGACCGCTACTTCCTGCACGTCGAAGGCACCCGCATCGAAATGCCGCAGGCATTCTTCATGCGCGTCGCGATGGGCCTGTCGCTGAACGAGATCGACCGCGAAACGCGCGCGATCGAGTTCTACAACGTGCTGTCGAGCTTCGACTTCATGAGCTCGACGCCGACGCTGTTCAACTCGGGCACGCACCGCTCGCAGCTGTCGTCGTGCTACCTGACGACGGTCGCGGACGATCTCGACGGCATCTATGAAGCGCTGAAGGAAAACGCGCTGCTGTCGAAGTTCGCCGGCGGCCTCGGCAACGACTGGACGCGCGTGCGCGCCCTCGGCTCGCATATCAAGGGCACGAACGGCAAGTCGCAAGGCGTGGTCCCGTTCCTGAAGGTCGTGAACGACACGGCCGTCGCGGTGAACCAGGGCGGCAAGCGCAAGGGCGCGGTCTGCGCGTACCTCGAATCGTGGCACCTCGACATCGAGGAGTTCCTGGAACTGCGCAAGAACACCGGTGACGACCGTCGCCGTACGCACGACATGAACACGGCGAACTGGATTCCCGACCTGTTCATGAAGCGCGTGATGGAAGGCGGCGACTGGACGCTGTTCTCGCCGTCGACCTGCCCGGACCTGCACGACAAGTTCGGCGCCGATTTCGAGAAGGCTTACACGGCTTACGAAGACAAGGTCGCGCGCGGCGAGATCAAGCTGTTCAAGAAGATCCCGGCGGCGCAACTGTGGCGCAAGATGCTCGGCATGCTGTTCGAGACGGGCCACCCGTGGATCACGTTCAAGGATCCGTGCAACGTGCGCTCGCCGCAGCAGCACGTCGGCGTCGTCCACTCGTCGAACCTGTGCACGGAAATCACGCTGAACACGAGCGACACCGAAATCGCGGTGTGCAACCTCGGCTCGGTGAACCTCGTCGCCCACCTGGTGAAGCAGGCCGACGGCAGCTACGCGCTCGACCACGACAAGCTGAAGCGCACGATCAGCGTCGCGATGCGCATGCTCGACAACGTGATCGACATCAACTACTACGCGGTGCCGAAGGCGCGTAACTCGAACCTGAAGCACCGCCCGGTCGGGATGGGCATCATGGGCTTCCAGGACTGCCTGCACCTGCTGCGTACGCCGTACGCGTCGCAAGAGGCAGTCGAGTTCGCCGATCGTTCGATGGAAGCCGTCTGCTACTACGCGTACCACGCGTCGACCGAACTGGCCGAAGAACGCGGCCGCTACTCGAGCTACCGCGGCTCGCTGTGGGATCGCGGCATCCTCCCGCAGGACACGCTGAAGCTGCTGGCCGAAGCGCGCGGCGGCTACGTCGAGGTCGACACGTCGGAATCACTCGACTGGACGGCGCTGCGTGCGCGGATCGCCACGCACGGCATGCGCAACTCGAACTGCGTCGCGATCGCGCCGACGGCGACGATCTCGAACATCATCGGCGTGTCGGCCTGTATCGAGCCGACCTTCCAGAACCTGTACGTGAAGTCGAACCTGTCGGGCGAATTCACGGTGGTGAACGAGTATCTCGTTCGCGACCTGAAGGAACGCGGCCTGTGGGACGAAGTGATGGTCGCCGACCTGAAGTACTTCGACGGCATGCTGTCG 
 >PredictedProphage1 -Hit 6 
 TGGATGCCGCAGGAAATCAACATGTCCCGCGACATCGCACTGTGGAAGGACCCGAACGGTCTGACCGAGGACGAGCGCCGCATCGTGAAGCGCAACCTCGGCTTCTTCGTGACGGCCGATTCGCTCGCGGCGAACAACATCGTGCTCGGCACGTACCGCCACATCACGGCGCCCGAGTGCCGGCAGTTCCTGCTGCGCCAGGCGTTCGAGGAAGCGATCCACACGCACGCGTACCAATACATCGTCGAATCGCTCGGTCTCGACGAAGGCGAGATCTTCAACGCGTACCACGAGGTCACGTCGATCCGCGCGAAGGACGAATTCCTGATCCCGTTCATTCATACGCTGACGGACCCGGCCTTCAAGACCGGCACGCTCGAAGCGGATCAGAAGCTGCTGAAGTCGCTGATCGTGTTCGCCTGCATCATGGAAGGCCTGTTCTTCTATGTCGGGTTTACGCAGATCCTCGCGCTCGGCCGCCAGAACAAGATGACGGGTGCTGCAGAGCAATATCAGTACATCCTGCGCGACGAGTCGATGCACTGCAACTTCGGCATCGACCTGATCAACCAGATCAAGCTCGAGAACCCGCATCTCTGGACCGCCGAATTCCGCGCCGAGATCCGCGAGCTGTTCAAGCAGGCTGTCGAACTCGAATACCGCTACGCCGAGGACACGATGCCGCGCGGCGTGCTGGGTTTGAACGCGTCGATGTTCAAGAGCTATCTGCGCTTCATCAGCAACCGCCGTTGCCAGCAGATCGGCCTCGACCCGCTGTATCCGAACGAGGAAAACCCGTTCCCGTGGATGAGCGAGATGATCGACCTGAAGAAGGAGCGCAACTTCTTCGAGACGCGTGTGATCGAGTATCAGACGGGTGGC 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 RPNVGIILLNARNEVFWGKRLREHSWQFPQGGIKYGETPMQAMYRELHEETGLHP 
 >PredictedProphage1 -Hit 2 
 VGVEHLEAVELLGDADELDRFARDVAHRQRGAAARIAVELGQHDAGERQRVVERLRGVDRVLAEHRVDDEQRFGRLQRAVQRGDFLHHRLVDAEAAGRVDEQHVMVVALRPVDGGERDVDGLLVRRGREEVGADLLGHRFQLH 
 >PredictedProphage1 -Hit 3 
 LTAVIGGDYEGKAAELNLAVTPPAVILMAGLQGAGKTTTVGKLAKLLREKYKKKVLTVSCD 
 >PredictedProphage1 -Hit 4 
 KVIRRNGSVVSFEPSKIAIAVTKAFLAVNGGQGAASARVREQVEQLTHNVVRALVRSRPNGGTFHIEDIQDQVELALMRGGEHNVARAYVLYREKRHLER 
 >PredictedProphage1 -Hit 5 
 SATGINVVDNGVTRPLDQNALRALIVSACDGLGAAVNPDPIVAETVKNLYDGVPMSQVYDSAILAARTMIEKDPAYSQVTARILLHTIRREILGEEVVQAEMSTRYAEYFPQFLKRGVDAGLLDDKLLQFDLKRLGEALDANRDLQFGYLGLQTLYDRYFLHVEGTRIEMPQAFFMRVAMGLSLNEIDRETRAIEFYNVLSSFDFMSSTPTLFNSGTHRSQLSSCYLTTVADDLDGIYEALKENALLSKFAGGLGNDWTRVRALGSHIKGTNGKSQGVVPFLKVVNDTAVAVNQGGKRKGAVCAYLESWHLDIEEFLELRKNTGDDRRRTHDMNTANWIPDLFMKRVMEGGDWTLFSPSTCPDLHDKFGADFEKAYTAYEDKVARGEIKLFKKIPAAQLWRKMLGMLFETGHPWITFKDPCNVRSPQQHVGVVHSSNLCTEITLNTSDTEIAVCNLGSVNLVAHLVKQADGSYALDHDKLKRTISVAMRMLDNVIDINYYAVPKARNSNLKHRPVGMGIMGFQDCLHLLRTPYASQEAVEFADRSMEAVCYYAYHASTELAEERGRYSSYRGSLWDRGILPQDTLKLLAEARGGYVEVDTSESLDWTALRARIATHGMRNSNCVAIAPTATISNIIGVSACIEPTFQNLYVKSNLSGEFTVVNEYLVRDLKERGLWDEVMVADLKYFDGMLS 
 >PredictedProphage1 -Hit 6 
 WMPQEINMSRDIALWKDPNGLTEDERRIVKRNLGFFVTADSLAANNIVLGTYRHITAPECRQFLLRQAFEEAIHTHAYQYIVESLGLDEGEIFNAYHEVTSIRAKDEFLIPFIHTLTDPAFKTGTLEADQKLLKSLIVFACIMEGLFFYVGFTQILALGRQNKMTGAAEQYQYILRDESMHCNFGIDLINQIKLENPHLWTAEFRAEIRELFKQAVELEYRYAEDTMPRGVLGLNASMFKSYLRFISNRRCQQIGLDPLYPNEENPFPWMSEMIDLKKERNFFETRVIEYQTGG 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig234

Genome size:  35428
Host's GC content:  67.12
Predicted Codon Position GC:  	1st:  68.18	 2nd:  44.82	 3rd:  81.27

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig227

Genome size:  34721
Host's GC content:  66.62
Predicted Codon Position GC:  	1st:  67.87	 2nd:  44.69	 3rd:  80.42

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig231

Genome size:  33855
Host's GC content:  66.85
Predicted Codon Position GC:  	1st:  68.01	 2nd:  44.75	 3rd:  80.80

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig226

Genome size:  31786
Host's GC content:  63.96
Predicted Codon Position GC:  	1st:  66.23	 2nd:  43.97	 3rd:  75.91

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig229

Genome size:  30703
Host's GC content:  68.94
Predicted Codon Position GC:  	1st:  69.30	 2nd:  45.31	 3rd:  84.35

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig232

Genome size:  30648
Host's GC content:  63.69
Predicted Codon Position GC:  	1st:  66.07	 2nd:  43.90	 3rd:  75.47

 >PredictedProphage1 
 Length:   17113 
 Number of hits =   7 
 GC	Coding	First	Second	Third
 63.01 	 65.62 	 67.93 	 49.01 	 79.91 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	10	0.0862068965517241
 Leu	TTA	0	0
 Leu	CTG	55	0.474137931034483
 Leu	CTA	4	0.0344827586206897
 Leu	CTT	3	0.0258620689655172
 Leu	CTC	44	0.379310344827586
 Lys	AAG	14	0.736842105263158
 Lys	AAA	5	0.263157894736842
 Glu	GAG	22	0.458333333333333
 Glu	GAA	26	0.541666666666667
 Gln	CAG	19	0.655172413793103
 Gln	CAA	10	0.344827586206897
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	1	1
 His	CAT	15	0.340909090909091
 His	CAC	29	0.659090909090909
 Asn	AAT	3	0.15
 Asn	AAC	17	0.85
 Ser	AGT	5	0.0666666666666667
 Ser	AGC	33	0.44
 Ser	TCG	23	0.306666666666667
 Ser	TCA	2	0.0266666666666667
 Ser	TCT	1	0.0133333333333333
 Ser	TCC	11	0.146666666666667
 Trp	TGG	13	1
 Arg	AGG	5	0.0485436893203883
 Arg	AGA	1	0.00970873786407767
 Arg	CGG	31	0.300970873786408
 Arg	CGA	18	0.174757281553398
 Arg	CGT	12	0.116504854368932
 Arg	CGC	36	0.349514563106796
 Ala	GCG	78	0.569343065693431
 Ala	GCA	13	0.0948905109489051
 Ala	GCT	12	0.0875912408759124
 Ala	GCC	34	0.248175182481752
 Cys	TGT	2	0.142857142857143
 Cys	TGC	12	0.857142857142857
 Asp	GAT	17	0.346938775510204
 Asp	GAC	32	0.653061224489796
 Gly	GGG	15	0.15625
 Gly	GGA	5	0.0520833333333333
 Gly	GGT	12	0.125
 Gly	GGC	64	0.666666666666667
 Phe	TTT	7	0.152173913043478
 Phe	TTC	39	0.847826086956522
 Tyr	TAT	13	0.448275862068966
 Tyr	TAC	16	0.551724137931034
 Met	ATG	15	1
 Val	GTG	38	0.404255319148936
 Val	GTA	6	0.0638297872340425
 Val	GTT	7	0.074468085106383
 Val	GTC	43	0.457446808510638
 Thr	ACG	30	0.576923076923077
 Thr	ACA	2	0.0384615384615385
 Thr	ACT	1	0.0192307692307692
 Thr	ACC	19	0.365384615384615
 Pro	CCG	30	0.555555555555556
 Pro	CCA	4	0.0740740740740741
 Pro	CCT	10	0.185185185185185
 Pro	CCC	10	0.185185185185185
 Ile	ATA	1	0.0178571428571429
 Ile	ATT	5	0.0892857142857143
 Ile	ATC	50	0.892857142857143
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 4230	4532	1	ref|NP_818403.1|gp105 	43.9bits(102)	0.001
 5006	5464	1	ref|NP_945089.1|gp58 	64.7bits(156)	5e-10
 5991	7238	-1	ref|NP_945090.1|gp59 	62.0bits(149)	3e-09
 8565	9179	1	ref|NP_958267.1|hypothetical protein	36.6bits(83)	0.15
 14526	14798	-1	ref|NP_817629.1|gp40 	35.0bits(79)	0.44
 16238	16357	-1	ref|NP_695029.1|Integrase 	36.6bits(83)	0.15
 21031	21342	-1	ref|NP_046877.1|putative non-heme haloperoxidase	52.8bits(125)	2e-06
 
 DNA sequence:
 CAGCGCTTCGACTGGCTGCCGTGCGGGCAGCGCGACGCGCCGCTGTTCGTGTTCATCCACGGCGGCTACTGGCAGCACTGCACGAAAGAGGATTTCGCGTATGCGGCGAGCGGGCCGCTCGCGCGCGGCTACGACGTCGTGCTCGCCGAATACACGCTCGCGCCGGTTGCGACGATGACCGATATCGTCGGCGAGATCGGCGCGCTGCTCGACCATCTCGCGGCCGACCGCGACGGCCTCGGTATCGCGGGGCGGCCAATTCACCTGAGCGGCCATTCGGCGGGTGGCCACTTGACGGCGCTGCATCGCGCACATCCGGCCGTCGCATCGGCGCTTGCGATCAGCCCGCTCGTCGATCTCGAACCGATCGCGCTGTGCTGCCTGAACGACAAACTGCAGCTCACCGCACACGAGGTCGACGCATACAGTCCGCTACATCACATCGTGCCTGGCGCCCCGACCGTCGTGGCGGTCGGCGATGCGGAACTGCCCGAACTCATCCGGCAGGCAGATGAATACGCGACCGCGTGCGAAGCCACCGGCGAGCGAATCGCCCGTACGTGGCTGCCCGGCATGCAGCACTTTGCGGTGCTCGACGATCTCGCGACGCCCGACGGCGCGATGCTCGCCGCATTGCACGCGATCGCGCCGCGCTAGCCGTCCCATATCGCACACGCATTGCCGGGCGTATGATCGGCGTCAGGCCGGCGCGATGACGACGTACCCCGCACGGCCTTCCAGGACCCCACGACATGGTGAACCCGCTTCATTTCGATCTGCAGTCGCTGCGCGTGTTCGCGCTCGTCGCCGAGCACGGCAGCCTGACGAAGGCGGCCGAACACGGCCAGCTCACGTTGTCCGCGGTCAGCAAGCGCATCGCCGAACTCGAAAGCGTGACCGGCAGCGCACTCTTTGTCCGGCATGCGCGCGGCGTCGAGCTGACGCCCGCGGGCCGCGCGCTGCTCGATCATGCGGCGAAGGTGATCGAACAGGTCAACCGGATGGCGCACGAGATGAGCGACTACGTCGCCGGCGTGCGCGGCCATATCCACGTCTGGACCAACACGTCCGCGATCGTCCAGTTCCTGCCCGCCGATCTCGCCGCGTTCCTCACCGACAACCCCGGCATCAAGGTCAGCCTCGAGGAGCGGCTGAGTCACGAGATCGTCGACGCGCTCGCGTCGGGCAAGGCCGATCTCGGCGTATTCGCCGACAACGTGCCGGCGCCCGGCATCGAACGGCGGCTGTACCGGCGCGACGAGCTCGTGCTGCTCGTGCCGCGCACGCACCGGTTCGCCGCGCACGACAGCATCCGCTTCGCGGATACGCTCGACGAGGACTACGTGGGCTTGAGCGACGGCAGCTCGCTGCTCGCGCGGATGACCGACGCCGCGTTCGCGGCCGAGCGCTCGCTGAAGCTGCGAATCCAGGTATCGAATTTCGACGGCGTGAGCCGGATGATCGAGGCCGGGCTCGGCATCGGCGTGCTGCCGCGCGATGCGGTGACCGGCGAGCGCGCGGCGCGGCTCGGTGTCGTGACGCTCGACGACGCGTGGGCGACGCGCACGCTGTGGGTCGGCGTGAAGGCGGGTAGCGTGCTGACGACCGACATCGCGAAGCTGTTCGATTTCATGTCGGCGCGGTGAATGCGATGGAACGCGACGCACGGGGTGCGGTTCCGTGCGCCCCGTGCCGATCGCCGCGTCAAACCGGATTGATCTCGTCCTGGCTGCGCCGCGTGGTCAGCGGCCCGAGCACGCGCAGCGTGACGGCGACGATGCCGAGTGCGACCGAGATCACGCCGAACATCGCGCCCGCGCCGTAGTGGCCGAGCACCGGCAGCAACACGAACGGCAGCGCGCCGCTCACGATCCGCGACAGCGCATAGGTACTGCCGATCGCCGTCGAGCGCACGCGCGCCGGGAAAATCTCGGCCTGATACACGTGATACGCGTTGCTGAACACGTTCGACGCACAGGTCGTCAGGAACCCGAAGCCGACGATCAGCATCGTATTGCCCGAATACGCGAAGCACAGCCCGAACACCGCGATCGACAGGATCGACACGATCACGAGCGTGCGGCGCTCGATCCAGTTGAGCAGCGGAATCGACAGCAGCGAGCCGATCGGATAGCCGATGAACGACAGCGCGATGAACAGCGTGCTGTCCGTCACGTCGAAGCCGCGGCTTTTCACGACCGTGCCGGCCAGCGTGCCGAACCCGTAGTAGCCGAAGCCCTGCAACAGGTGAAAGATCGCCAGCATCACATAGCGGGCGCCATACGGTTGGCGGCGTAGCAGCGCGATGCGCTCGCCGAGCCCGAGCGGCCGCTGCGGCTCGACCGGTTCCGCGAAGTGTTCGGGCACACGCACGCCGGCGCTTTCCGCGAAACGCCGCAGCGCCGCGTGCGCATCGGCCGTGCGGCCTTGCGCGAGCAGCCAGCGCGGGCTTTCCGGCAGCCGGTGCTGGACGAGCAGCACGTACACGGCGCCGAGGCTGCCGATCGCGAGGATGATGCGCCAGCCGGCGACGCCCGCCACCTGCAACGGATTCAGCCACAGCGCGAGAAAGCCGACGAGCGGCACCGCGACATACGAAGTCGTGTAGGCCCACGCGGCGAGCCGCCCGCGCTTGTCCTTCGGCAGGATTTCGGACAGGAAGCTGTCGGCGACCGGATAGATCGCGCCGACGCCGATGCCCGTCAGGAACCGGCATGCCACGAGCATGTCGGCGTTCACGGAAAACGCACCGACCAGCGAGAACGCGCTGTACCACCCGAGCGTGAGCAGGAACGCCTTGCGCCGGCCGATGCGGTCGGCCAGGCTGCCAAGGCACATCGCGCCGACGAACATGCCGATGAACGCCGACGCCAGCAATAGCTTGAAATCGGCGCTTTGCCGGCTCAGCCCGTATTCGTGCTGCAACGCGGAGCCGATCGTACTGACGAGAAAAATCTCGTACATGTCGAAGAACAGCCCGACGCCGATTACCCAGACGACGAATCGATGCAATGCGCCGACCGGCAGATCGTCCATGAAATCGCCGAGCGTGACGCGGCGGCCGGGAAGGGCTGCCGCATCGGCGCCGGCGCCTGCTGAAGCGGCCGGCGGCCGGGCGGATTCAGGGCCGCCGGCATGGCCGCCTAGGTCGAGGGATTGGCTGTTCATCGTGTCTCCTGATTATCGATATGCCGTGGCGCTGGGCCTGGCGTTCGCGACCGGTGTAACGCGCCGGCCACGCGACGCGACGGCAGGCATCGCCGGGCGCGTGCAAGCGCCGCCCGTGCGGGCTGCGCCGATCGTCCGATACATGGTGGGCAAATCGGCGGCACGTGATAATTGCGGATGTTTCAAGCGTCCTTTCCTGGGCAGAAAGGGTAGAGGCCGCGCGGCAGCGCGTAGTCGCCCGACAGGCCGGTGCAGCCTGCGTGGCGGAGGGGCGTATCGAAAACGATGCGCATCCGCGCCATCCCGCGGGGCGGGAAAACCATGACCCCTGCTGTGTGGGCGCCGACGCAACCGTCGCCTGCAGATCGCGCGCGCCGCGGATGTGCAATGTCCTGTATCTGCGCCGAGCGCGGATACAGTGCGATACAACGCCCGCGCGCGGGTTCGCTATAAAGCAGGCGTGACCTCTTTCGGAGCCCGTCATGTCTGCCACCTGGTTCAAAGGGTCCTGCCATTGCGGGGCCGTCAAATTCGAAGTCATCGCGGCCATTGCACCGGCCGTCCGCTGCAACTGCAGCCTGTGCCGCCGGCGCGGCGCGCTGATGAGCCCGATGTTCGCCGCCGCCCACCTGACGATCGTCGAAGGCGAGGGCGCGCTGACGTGCTATCGCTTCAACACGCACACGGCGCGCCACTATTTCTGCAGCCGGTGCGGCGTCTATCCGTTCCACCAGACCCGCAAGGACCCGGCATGCTGGCGCGTCAATCTGGGTTGCCTCGACGGCGTCGATCCGACCGCGCTCGACGCGACGGTCCTCGATGGCGCGAGCCTTTCGGTCGTGGAGGACGCATGAAGCGCTGGCTGATGATCCTGCTGTTTGCCGCGGGCGGGCTCGCGACCGAAATCGCGCATCCGGTGCAGTGCACGTTGCTGTCGATCAGCCGTCAGCCAACCGGCAAGCGCCGCAAGCCGGGCTGAACGAGCACGGCGCGCGTCAGCCGATCGACACCGATTATCATGCTTCCGATAAAATCGCATGCGATATATAATGCGGTTGTCTGCGACCGTTCGCGTCGCTGGAGGAAGTCCATGAAACCGACCGAAACCCCGTCGCCCGCCGCACCGAAGCTGTCCGAGTTCCTGTGCTTTGCGATCTACTCGGCGAACCTCGCGTTCGGCAAGGCGTACAAGCCGATCCTCGACGAGCTCGGCCTCACGTATACGCAGTACATCACGATCATTGCGCTGTGGGAGCAGGACAACCAGACCGTTGGCCAGCTCGGCGAGAAGCTGTTTCTCGAATCCAATACGCTGACGCCGATCCTGAAGAAGCTCGAGGCAATGGGCTACCTGGAGCGGCACCGCGATCCGTCCGACGAACGCCAGGTGCTCGTCAGCCTGACGAAAAGCGGTCGACGCGTGCGCGAGAAGGGGCTCGATATGAACCTGGTCGAAGCCACCGGGCTGAAACCGGACGAGTTCGCCAAGGTACAGAAGGCGATCGTCACGCTGCGCGGCAACCTGATCCGGTCGACCGAAGCCTGAAAGCTCTCAGGCACGACAAGCGGCCGACGCGGAAATCGCGCCGGCCGCGTTGTCATGCGTGCGCATCGCCCAGCACCAGCAGGTGCATCTCGCGACGGACCACGAAACCGAGTGCGAGATAACGTTCGATCGCCACCCGGTTCGTCGTCAGGACGTGCAGGAACGGCGTTTCCGCACGCGCGCCGATCGTCGCGATCAGCGACCGGATCAGCCGCGCGGCAAGCCCTTGCCGGCGAAACGCGGCGTCCACGCAGACGGCGCTGATCTCGGTATAGCCGTCGACCTGCATCCGCTGGCCGGCCATCGCGGCCAGCCGGCCTTCACTGCGCACGCCGATGTAGTGGCCAAGCTCGAACGTGCGCGGGCCGAACGGGCCCGGCTGCGCGGCGGCGGTCAGCGCGAGCATGTCAGGCACGTCGGCTTCGCCGAGCGGAACAGGCTCCGTTTCGTGCGTCGGATCGAACGCACCTTGCCAGGTCATTTGAAGCAACGTCGCTCGCCGGATCACCGACAAAGCTGCCGGCGGCTCGATCTCGTCCGGCGTGACGAGTGCCGCCGGGCCGTGTGCGGCGATCAGCCCGCACAGCGCGTCGAACGACGCCGGGCTCGTGTCGTCGATCGCGGCAAATGGCGCGATGGCCGTCGGGAACCGCAGCGCACGACCGTCGCCGAGCGCAAAGCGACACTGCCTGCCCGTGAGCGCATTCCAGACGACCCGGTCGAGCACGTGCGCATCGGTTGTCGCGTTTCCGGTCATGGCGTCCGGCATCGGCGGCTCCTTGGTGGAAGGTGGGTGCCGCACAGAATAATCCCGGATGGGGGCGGGCGGATAGCACCGCGAACGCAGACCCGGGCAACACCAATAGAAAAGCGCACGCGATTACATCGCATGCGCTTTATATGGCGGACCTCAGCGGCCGAATTCGCCGTGCCGCGCTCAATGCCCGAAATAAATCGAGCGCTCGGCGGTGCGCAGCGTGTTTCGGCTGCCGGACTGCGCGGCACCGCCGGCATCGCTGCCGTAATCGGCTGCCTGCGTATCGGCCGCGACGGCGCCGTCGTCGCGAATCCGTTTCAGCGCCGCCTGGATATTGGCCGGATAGTTCGGATCGTTGGGGCGGTTCGGCTGGTAGCCGGCTTGCTGCAACGCGGCCAGTTCCGCACGCACCTGCGCACGTGTGACGGTGCTTTCGCCGGCAAAAACCGGTGCGGCGACGGAGGCCGACACGGCAATGAGAAGGGCGGCAATCAGTTGGGTCTTCATCATTCACCTCGACAAAATAGGATCAGGAATAAACGGGGATCAGGGTTCACGTACCGGGCGTGGTGCTCAGTGACCGAAGTACACCGAGCGCTCGACCACGCTTGCGACATACCGGCGGCCGGATTGCGTCGCGGTGTCGCCGTTGCCGCCGTAGCCGGAAGCCGGTGCGTTGGCCGCGACGGCGTCGTCGGCGTGGATCTGCGTCAACGCGGCCTGCAGATCGTTGGGGTAGGTAGCGTCCGTCGCGCGGTTCAGCGGATAGCCGACGTGTTGAAGCTGCGCGAGTTCGGCGCGCACCTGCGCACGCGTCACGGTGGCTTCATTGGCAAACGCGGGAGCGGCAACGGCAGCCGAAACAGCGGCGAACAGGGCAGCGATCAATTGGGTTTTCATGTTTCACCTCGATGGAAAAGGAATCGGGAATTCGAGCGGGGGCGCTCAGCCGCCCGGTGCAACGTTCAGGCGATCCGGATCTCGACGTCGATGTTGCCGCGCGTCGCCTTCGAATACGGGCAAGTCTGGTGCGCGGCGTCGACGATGCGTTGCGCGACGTCGCGCTCGAGCCCCGGCACGCTCACGTTCAGCCGGGCTTGCAGGAAGTACGCGTTGCCCGCCGTGCCGAGGTCCACTTCGGCGTCGACCGCGAGATCGGCCGGCAGCGTCACCTTCGCGGCACGCGCCGCAAGCTGCATCGCGCCGATGAAGCAGGCCGACCAGCCGGCCGCGAACAGCTGTTCCGGGTTGGTGCCGGTGCCCGCGCTTCCCGGCGACGACAACTGGATGTCGAGGCGGCCATCGGAACTGCGCGCGGCGCCGTCGCGGCCGCCGGAAGTCGTATGCGTCTTGCCCGTGTACAGCACTTTGTCGATCTTGCTCATCATTTACTCCGTCGGTTGAGGTTTGTTTCAGATGCGATTCGATCGCATGCGACGCAGTTTCCGCCTCACGACCACCTGAGTCAAGCGTATTCGATTAAATCGCATACGATATTTTGTATTTCAATGTATCTGGATCGTGTCGTGCCTTGCAGGGCAGGGCTTTCAGACGATCCCGACCTGATTAATCCCGTTGTCGCTGGCCCGACGATGCCGTCTCGCCGATGGGGGTTCAGATGCTTGGCGCGGTGCTCGCCGCGCTGGAGCCGGATACGCCGTCGTTGCGTCCGCTGTTCGGCCAAGCGGAGCCCGACGTTGCGTCCAGGCGCCTCGACGCGCCGCGCCGCGCCGCGCGAAGATCGAAGCATGGCGCGATCTCACCGAGGGAGCCGATTTTCTGGTGATTTGATGGCCTGAACCTTCTGCCTCGGAACATGCAGTTCGATCAAACGATACCGCTATTCGGATAACTTTTCTTATCATAATAGGTTAATTGGAAATCCAAACTGGCGTCCATTGAAACGCGCCCGACCCGACGCACTCTTATGCCCTGATACCGAACATGCTCGCCATCAGGGCAGGGGAATTGCCGTAAACGCGTGTTCGACGCCTGCTGTCCGCCGCCTATAATCGTTAGCAACTTTTCCCGGAAAACGCGCTTACCAAGGTGAGGGGGCCAAATGGGAGAGTGCCGTTACATCTGTTCGCGCTTCGTCCTCACAAGCTCGATCGCCGGCCTGACAATGCTGACGTGCCCGGTACACGCGCACGCCGAGGATGGACCGTCGAGTAGTTCGCCGAGCGGGCTGAAATCGGAGAGAACGCTCAACGCCTATGCGGTGTATGGCGACGGACGAGCGACCGAGGGTGGCGATATGCATTGGCGTGCGTACGAAGTCGGCTTCGGTGACGTCTTGAACGATTACCTGTCGGTCTACCTCGCGTACATGAACGAAGGGCATCCGTTGAATCACCATCGTGACGGTTTTGCCGCCCTGGGTTCGTTTCGTTGGCCGGTCGGCAGTCGCCTGGCGCTCGAATTTTCGGCGGGCCCGTACTTCAGCATGGACACGACCCATGTCGACGGCCAGCCACGCAATGACAAGCGCTGGGGCGTGCGCGCGTCGGCAGCGGTGCGGTATTACGTCGTTCCCAAGCGCTTCTTTCTCAAGGTGCAGTACAACCACGTCCAGATGATCGGCGGATTCAATTCCGACGCGGTGCTCTTCGGCGTCGGCTCGGATTTCGGCGGCGATCCTGGCCCTGCGTTTTCGGACGGCAAGACGCAGATCGGCGTTTGGGCCGGGACGTCGCAGACGAACCGTCCTCAAGTGCCGATCGAAAGGGGATACATGGTCGAAGTCAAGCGGCCGCTCGGCAATGCGTGGGCCTATTCGGCGAGCTTCGTCTACGAAGGCAACAATGGCGTGGCCGGCCGACGCGGCGTGGCCGCGCAATTCTGGTACGTCGCGCCGATCAAGAGCAAATGGACGCTGTCGGCGGGCGTCGGTCCGTATCTCTCGCGGGATCGGAACGACGGCTCGGGCAGGACGCGACTCAATGCGTTGCTCAGCGCGCAAGTGGCCTATCAGGTGACGAACGATTGGGCGGCGAGCCTGCGCTTCAATCGTGTCGCAACCGGCAACGACAAGGACCAGGACATGTTCATGGTTGGCGTGGCGCGAAACTTCTAGGCGCTCGATCTTCTACGTCCGCGCATTCTGTTGAACAAAACTGGCTGGACCGCGCCCGTAACCGGGCGACCAACCGGCGCATCTGTCGTGTCGTCAATCTGGTTTGAGCTTGCCGTCGGCTACGTCCTGAATGACCTTGAGTCGATCCAGCTCGCGCATCGTCATCGTGATCCGCTCCGTTGCAGCCATCGCAGCCTCCGGCGCCGGGAAACCGGCAGCCGTCCAGCATGCCAGCAGTCAAAAACACGACATCTGTAAATAGCCAGAACACGACATTAGGATATGGCTGCCACAATCAAAAATGTCGATAATGTTGATTATGTCAATTGATGTTCCCATGGTCATCGTGCGCAGCGGGTTGCGGAGGGTTGGCCGGGAAAAGCAAATAATCCGCCACATCTCGAATTAAGCTGCTGATTTGAAAGCGAAATCGATGGTCGGATCGAGTGGTGGAACGGGGCGTTGCAGATCCAGCAGATAGTCCCCAAGTCGATTGATATGTTCCCGCCGATACGGTGACAGCACTTTGAGCACCTCGGCGTCGACCGGATGCCCCTTCTGCTGCAGCTCTTTCAGTTTGCGCGACATCCACTGCACGTTGTACAGGATCACCATGTTCGCGACGAGGTGGTTGTACTTGATGACCTTGCGCTGCTCGTGCCGGACGTTTTCCGCGATAATGCCTTCGCCGCCGAACATCAGCCACTGCGCGAAATCGTTGAACTGCTCGCTCTTGTTGGTGGCCGCGTGAATCGTACGACGCAGGTCGGGGTCATTCAGATACTTCAGCAAGAACAGCGTACGGATCACGCGCCCCAGCTCCCGGAACGCGAAATAGAGCTTGTTCTTCGTGCTTTCCGAGCCTAGCCGGCGCAGGATCGTCGACGGCGTCATCTTGCCCGCCTTGATCGACACCGCGACGCGCATCATGTCGGGATAGTGCCGCTCGATCAGATCCCAGTCAATCGCCCGGCGGCACAGGCTGTCGATGTGCGCGTACTTGCGACGCCGGTCGGCCTTGTACAAGACCAGATCCTTGATGTTGCGCATGCGCGGCATCAGGTTGATGCCCGTCACGTAAGACAGGCCGAACACGGGACCGCTCTGCGCCTGCGTATCGCCGTGGATCGTATCCGGCTTGATGTCTGCACCGTTCTGGATCAGGCCGTCGAGGATGTAGACGGCTTCATGAACGCCGCACGGGATGAAGTGGCTGAACAGCGCGATGTACATGTCGGACACGTGGTAGTAGCCGATCCCGCCGTATCCGCCATAACGAACGTGGTATTCGGACAGCAGGTTCTGCTCGTACAGGCTCCACTTGGTGCCGTCCGCCGACGCGCGCTTGCCGCTGCCCCAGTATTTCGGCAACGCGAACTGGTTGTACGCGTTGATCACCTTCACGATCGCCTTGTCGAGCCGCTCCTCGGTGACGTGCTTCAGATTCAGCCAGGCGACCTGCTTGCGGCTTAGTCCCTTCACCGAGCGTGCGGTTTGACTGGGACCGAGGTTGCAGCCGTAGCAGAACAGCGTCGTGATGAAACGCTTGCGCGGATCGTCGACCTTCGCGTCGAACCCGGACAGCGGGCCGAACAGTTTATGCAGGTCGAACCACTGCTCGGTTTCGGTGAGGAGATCCAGGATGCTGACCTGCGGCATCGACGCCGTGATGGCCTGATCGATCAGCGACCGGTTCGGCGGTTCGGGCTCCTTGCCCGGCTTGTGAATGACGAGTTCCTCATTGACGAACTCGATGCTGTCGTTTGCGGGGAAGTTCGCATCGGCCTCGTCGAGCGCCGCGTTCAGCCTGTCTCGCAGATCCTTCGCTACGCTCTTGCCGTCCGCGGGCAAGCCCACGATCTCGCAGTAGCGCGGCAGTTCACGCCGAAATTCCTCGTCGGTGACCTGATGCACCCGATAATCGTCGAAGCGGTCACTGCCCTCCACATAGAGGTCGCCGGAATGGAGTTCCCGCATGATCTGGCTGAAGACACCCAGCTCGAAGAACCGGCGGTGCAGCATCCGGCTGTCCCGTCTGTGCGGGAACACCGCGCGCTCCCACTTCTCCGGCAACCAGTCCAGCGGCAGGTTCGCGAGGTCGTTGTCGGTCAGCAGCAGGTATTCGCGGTGCGCGTTGCGGAAACCTTGCAGCCACGCGAGCGCGACCAGCACCGCGCGGTCCTGCGAGCTCGATTGCAGCGGCAGCACGTCCAGGCACTGGAACAGCAGCGAGCGCTGGGTGCGGTACGGCACGAGCATGAACGGCAGATCGAACTGCCCGGCATAAGCGATGTGCTCGTTGCATTGCGCGAGCGCTTCGGCCGGGTCGCCGAGCGCCTCGCGGATTTTCGGCAACCGGTTGCGCTCCGATACGCCCTCGTCCTGGAGAATCTGCAGGACATCCCGGAACTGCCCGACCAGCCCCTCCAGCACATCGGCGTGTTCAAGCTGGTATTTCTGCAGCCGGACCTTGGCGTAGGACTCGAGCTTGCGCACCACCTTGATGAAGATCTCGGCGACGTCATCGTGCGCCTTCTGCAACTGCGCCTGGATGAACAGCACTGCGAGCGCATGACGCTTCGCGGCCTTGAGCGAACGCAGTTCCGCGACGTCGAGCGCCCGCGCTTCGGTGACCAGTTGGGCCCGCTTGCTGACAGAGACGATCGCGGGCGGCGCCGGCAAGCCTTCCGCCAGTTTCCTGATCCCGTTGATATGTTTGAGGAAGCTGGCGATCGCCCGCGCGGCGGGTCGCTTCGGCTCCTGTTTCAGATCGTCCCAACCAGACTTGCCGGCCTTGACGACGAGCAGCGCCTCGATCCGTTCGATGAGGGTTGCATCGAGTGCGCCGGTGATGGCTTCATAGATCGCCGCGTTCAGATCGTTGCGCGCCTGCGTGGCGATGCGCTGCAGCGTCGCCAGCGGCGGCAGCTCGTACCGGCGGCGGACCAGGTCCTCGATCAGCACATTGATGATGTCGGGCAGTTCGATCTTTGTCCGGGCCTCCGCTGACGCGAGTTCAGTCAGCCACGCCGTCTCACCCGCATCAAACGCTCGGATGTCGAGCCAGACGCGCAGCAGTTTCTGGTGACGGATGCGGCTGCCGGACACGTCGTACCGCGCAATCGTTGCCCGGGACAAGGTGCGGACCCGCATCGCGATCCGGATGTGATCGATAATGACGGACTGCACATCCGCGAGCATTGGAAAGTACCCGAGACGCTGCAGCAACTTCAGTTGCACCATGATCAAGACGGCGGTCGCTTCTTGACGGGATTGCCGGCGTACGAATCGGATTTCCGCGGTGCTCGGCGTGAACGCAGCTTTCAGCTCCGCCGCGCCCGGCTCGGCAGGCAGCACCGGATAGATGGTCTCGTGGACGGTGCTCATGCCGGCGGCCGTCGCGCAAAAATCCGCTCGATCTGCCGGGTCCGCTGGACTTCGTCGTCGTCCAGGTAGATCGAGGTGGTCGTGATTGACGCGTGACGCAGGTTATCGCGCACGGTGGTAAGCGTCGCGCCGTTGGCAAGTGCGTGTGTCGCGTGCGTATGGCGCATCCAGTGCGGGGTCGCGCGCCGCAGCTTGCCGGCGAGCGCCGGGTGGTCCGCCTCGATGGCGTCGGCGGCGGCATGGAAGAACCGGCGCAGCACCTCCCTTAGGCGCGGCGTGGTGATGCCGCCGGGCGCATCGAGATGGCCGAGCAGCGGCGTGTCCGGCTGCCAGCGGGCTGAGGTTACCGGTAGTCCACGCTGAACGAGATATTGGTCCAGCGCGTGCGTTGCCAGCGGCGGCAACACCACCTTGCCGGCCTTCGCGCCCTTGCCGGTGAGATGCAGCCAACGCTCGCCGCGCGCGCCGGTTTCGATGCCGCCGAGCGTGACGCCGACCAGCTCGCTCGCGCGCAGGCCGGTCGCGTAACCAAAGTCGAGCACGAAGCGCAGACGCTGTGCGGCCGGTACCGTCCAGCCGTGCGACCGTTCGAGCCCGTCGGCGATGGTTCGGACCAGTTCCCACTCGCCGGCCGTAAAGGCCCTCGAGATGTCGAGTTCCCCGTTGCGCTGCGCCCCGCGCACCCTGAGACCCGCGAACGAATTCGCCAGTACGTAGCGCTGCTCGATCAGCCAGCGGAACATCGCACTGAGCACCGACAGGGTGTAGGCGATCGAATCCGGCGACAGCGCGCCCGTGAACGGACGCCACTCGGGCGAAGGTCGCGGCCGCGCCGGCGCGACCCAGCGGGCACGCGGCGTTGGATGGCGTAGGAAGGCGCGATAGGCGGTCGCATCCTCGCTCGTGAGTGAGGACAACGCCTTGCCGCGCTCGACGATAGCCCAGAGCATCAGGCGTTCGGCTTCCCGGCGATAGGCGCGTCGTGTTTCAGCAGCTTCGTATCGTTCGAGCCACGCGTTGATCGCCTGATAGTCATTATCGGCCTCGAGCGCGCACATTCGCTTCGGCGCGCGGAAAGTGCCGCGCGACCCATCGACTTCATGAGGTACGTGGATGCGTTCCCACGGCACCACGGGTTCTGGCGTCGCCACCGCGACCAGTGCGCGAGCCCGCTCAGTGAGCGCCGGATGAGCGGCAAAGAAGCCTTCGATCCAGCGCGCGCTTCGTTCACCGAGTCCGGGAATCACAAGCCACCACCGCCGGCGACGGGGAATGCGCACGGTCAGATCGGCCAGCGTCCGGATGCCGTGCCGGTGCAGCACTGCGACAACACGAGGCGACAGCCAGGCATCGACTGGATCGCTCACCTGCGGGTGCGGGACCGGCAGCGACGGCAGTGTGTCCAGCGCCTGGATCGCCGCCTTGCGGTGACGGCTCCGTTCGCCGGCCGCACACAGGAACGGCCGGGCCAAATCGGCGCGATGACGGCTCAGGGCGAAATCGGCGATCTGCCGGCGCATCCGGCCGATCACACCGCGCGTCGACTGCCCCCCCTCCAAGCGCGTGCGGACAATAACGCTCAATCGCCTCACGCGAGCCAACGCCCGCATACCACGCACGCACTGCGGACAGGGACGCGGCTTCGGGAAACGATGGTGGTGACAGATTATTCGGCATCCAAAAATTATAGGCGGTGGGATGACAACGGCGTGCCGCTCAGGTGTGACGCGTTTTGCGAAATGGCAGTTTCATCTAAAAATGTGACCCTATCGATAATATAGGTTAGCGATAGCGATACATCTTGATGCTCGTCGGATTTTCAATCTCGCGCGTGCGTCTTGGGGTGCCCTCAGGACCCGGATTTTTTTTCGTACGCCAAGCGTCCAGCGCGGATGTCTCAAATGACTCTGAGTGCCCCGAAGGAGACAATCAATTTGACGACGCTCTAAATACCGTTCCAAAATGCGTAGCCGACATTCGCGCTGGAAATTCAACGCCTCGTCATGGACATGGGGTGGAATGATATTGGATGCCGAGTACGTGTACAGCGTCATTGATAGGGTAGACCAACTGTGAAAGCCAGAATTCGACCCACCTCGGTGGAATAGCGTTGATCACCTCATCGGCCGGCATGTTCGCCGGTCAACTAGTTAAATCAAAGCGTATACTTAAACATTATTTCCGGCATGTACTTGTTGTAGGTCCCACCGCCGACGGGATTGTTGTTGTAATGCATGAACTCGAAGCGAGCACCGAGTTGGTACTGCGGCTTGCCGAAGATCTCCCACAGAAGCTCCGCTCGCTCGAATACCTCGGTCCCGTTATGGTTAGAACCATTGATGAGCGACAGAAGGTTGAAGTGGAATTTCTGACCACCTACTTCGATAGGGTTCGAGAGCAGCACCGATCGCCACAGCCACGTATGCTTATCGAAGTTCGTGTTTCGGTAAAGCATACCTGACTCGAACCATGCGAAACCCGGGACCTTGAAATTGAGCGACAAGCCGTAGTTCTGAGACTCGAAATGGTCCGTATCGGGATAGCTTCCCCGCTCCCATCGGGCGATGAGCGATACGTCGGAAATCGGACCGACGGACAAGTCTTTCCCGAGCGTTTTTCCGAAGCTAAGTCGCGGGTTAAACACCAGAAGGTTCTGGAAGTTCGCGTTACTGAACGGAGCGCCAACGTTGTTGCCATGGTAAAGCTCGGCGTCGAAATAGATATCGCCAAACTGATTGCCGCTGAAGTGTTCAAATTGATACGTCTGCAGGTTCCCGTTGCCTGTTCCATAGCCATAGATAGGATCCGGGCTAGAACGATTCGTGTACAGGAAGTTGAAGTTGTTGACGGCGAAATTCTGGGCCATCGCGGACGTACTGAGGAAGCCAACCAGCATCGTGATGAGCACCCTCATCCATGATCCAAAATTCTTGTCCATATCGTCTCCTTAATTTATTAGTATAACTAATGTATTAAACGCGCCGCGCTGTATCACGCCCACGGTGAGATCTTTGTCTTACCTACATGCGGGATTCCGCCGCTTGATTAGTCAGCTTCTGAGAACCGTGCGCGAGCACGAGCGTGCCTGACGCGCTCGTGCTGCATCGTGCTTCCAGTCTTGATTACAGTTGCTCGAGCTGATGCTGAAGCCCGGACCCGCCCTTACGAAACTCGCCTGCTTGCAGCACCGCGACGATCTTGGCCGGATCTTGCAGAACCTTCAGATCGTCCAGTGGATTTCCGTCGACGAACACGATGTCGGCCACGTATCCGTCGCGGATTTGCCCGATTTCGGAGTGCATCATGACGTCGCTTCCCAGGCGGGTCGCGGCTAGCAAGGCCTCTTTCGGCGTCATGCCGATGTACTTGACGAAATGTTCGAGGTCGCGGGAGTTGGTGCCATGCGGCATCCACGCGAACCCGTAATCGCCTCCCGGCGCGATGCGAATTCCACGCTTGTGCATTTTGGTGAGCGTCTCGGAAGCTATCTCCAGTTCACGTGCATAGCCCATCTTCGTTGCGATCGCTTCGGTGATACCCCACTGCTCCGCGTGGTAAAGCGTACTTACGAGCCAGCCGATCCCCGGGGCGACGATATGCCTGTCCTTGTTCGCTTCCAGCATGTCCAGGGCTTCCTCGTCCGCGAAGCTTGCGTGAAAGACCAGTTCAAAGCCGTGTCGGACACACTGCTTCACTGACTCGCTCGAACAGGCATGGGCTGCTACACGTTTGCCGGCACGTTTCGCTTCGGCGCTCAACATCGCGATTTCTTCTTCCGAGAACGGCGATGCTTCGGCCGGAATGCCGGCGATATACTCGCCGGAAAGGTTGATTTTCAGGTGATCAACGCCGTACTTCACAAACATGCGAGTCGCGCGGCGGACCTCTTCCGGACCGCTGACAACCTCCCCGAAGTTGAGCTCACGATACGGGAGGTGCGGAAGCGTGTTGTCGCCCAAGCCGCCCAACGTCGTGATTTCCTGACTGCCCGCGAGATAACGCGGGCCGGGAAATTCGCCCGCGTTGATAGCGTTGCGCAACACGACGTCGAGGCGCGGCTTGGCCGCCGCGGCTCCGAGCGCCGACGTAAAGCCCATGTCCAGATAGCGCTTTGCGACCCGTACACACCAGAGAATATGCTCCTCCGGCGGCATGAACTGGATAGCCGCAAGCGTCGGCTGGTCGTTCCACGAGAAGTGGGTGTGTGCTTCCGTCATGCCGGGCATGACGAACTTGCCTCGACCATCGACGATCTGCGCGTCTGCGGGGCGCATGACGTCGCCGCCTTTCGACACAGACTTGATTCGATCATTTTCGATGAGGACTTCGCCTTTATAGGGATCTGCTCCGCTCCCGTCGAAAATGTTGACGTTCGTAAATACGATCTTGCTCATGTCTCCTCCAAAGCCTCAGCGAATTACTTGTCGTTGTCGTAGAACGCCTTGAGTTCGGCGATGCACTCGGCGGGCTTCTCGAACGTGGTCCAATGGCCGCAGCCGCGAAGAACCGTCAACGTACTCCCGTCAATTCGCTCGCTCATATTTTTGACCAGCGCGGGCTGACCAACCGCATCTTCGTCCCCCGTCACGAGCAGCGTCGGGACCGAGATTTGATCAATTGCTGCCTCGCTCGCTTCGGACAGGGCCAAGCAACTTTGTGCATACCCCTCCGGGGACTGACGCATGACGCTTTCGCGAACAAGCGCGACCGTCACCGGCCGCACGGACTTGGTCTCGACGCTGGTAGCGCCTTTGACGATCGCATCCGCGATCTCTTGGAGGCCGGCAATGCCTCGATCGCGGCACAGCGCTGCGCGCGCCCGTATCGCGGGCCGGCCTTGGTCTGGTGGCGCCAGCAACGGCCCAAAGAGCGCGAGGCTGCGGACGAGATGAGGATGTTGGACTGCGAGATGCTGAGCCACGATGGTACCCATCGAGTGTGCAACGATGTGGGCCTGCTCGATACCGAGTTCGCTCAGCACATCGGCCACCCGGGACACGTACAGTTCGATGGACAACGGCTCGTTGGCTAGCGCTGAACGCGCGCTACCGGGCAAGTCGAGTCGGACGACACGCATGCCCCCAAAGGCTTCCAGAACCGGGGTCCAGTTGTTCGAGGAGCCACCGAGTCCGTGGATGCACACGACGGGCTGACCTTCCCCGGTTATCTCGACGGCAAT 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 CAGCGCTTCGACTGGCTGCCGTGCGGGCAGCGCGACGCGCCGCTGTTCGTGTTCATCCACGGCGGCTACTGGCAGCACTGCACGAAAGAGGATTTCGCGTATGCGGCGAGCGGGCCGCTCGCGCGCGGCTACGACGTCGTGCTCGCCGAATACACGCTCGCGCCGGTTGCGACGATGACCGATATCGTCGGCGAGATCGGCGCGCTGCTCGACCATCTCGCGGCCGACCGCGACGGCCTCGGTATCGCGGGGCGGCCAATTCACCTGAGCGGCCATTCGGCGGGTGGCCACTTGACGGCGCTG 
 >PredictedProphage1 -Hit 2 
 CTGCAGTCGCTGCGCGTGTTCGCGCTCGTCGCCGAGCACGGCAGCCTGACGAAGGCGGCCGAACACGGCCAGCTCACGTTGTCCGCGGTCAGCAAGCGCATCGCCGAACTCGAAAGCGTGACCGGCAGCGCACTCTTTGTCCGGCATGCGCGCGGCGTCGAGCTGACGCCCGCGGGCCGCGCGCTGCTCGATCATGCGGCGAAGGTGATCGAACAGGTCAACCGGATGGCGCACGAGATGAGCGACTACGTCGCCGGCGTGCGCGGCCATATCCACGTCTGGACCAACACGTCCGCGATCGTCCAGTTCCTGCCCGCCGATCTCGCCGCGTTCCTCACCGACAACCCCGGCATCAAGGTCAGCCTCGAGGAGCGGCTGAGTCACGAGATCGTCGACGCGCTCGCGTCGGGCAAGGCCGATCTCGGCGTATTCGCCGACAACGTGCCGGCGCCCGGCATC 
 >PredictedProphage1 -Hit 3 
 CATCGATTCGTCGTCTGGGTAATCGGCGTCGGGCTGTTCTTCGACATGTACGAGATTTTTCTCGTCAGTACGATCGGCTCCGCGTTGCAGCACGAATACGGGCTGAGCCGGCAAAGCGCCGATTTCAAGCTATTGCTGGCGTCGGCGTTCATCGGCATGTTCGTCGGCGCGATGTGCCTTGGCAGCCTGGCCGACCGCATCGGCCGGCGCAAGGCGTTCCTGCTCACGCTCGGGTGGTACAGCGCGTTCTCGCTGGTCGGTGCGTTTTCCGTGAACGCCGACATGCTCGTGGCATGCCGGTTCCTGACGGGCATCGGCGTCGGCGCGATCTATCCGGTCGCCGACAGCTTCCTGTCCGAAATCCTGCCGAAGGACAAGCGCGGGCGGCTCGCCGCGTGGGCCTACACGACTTCGTATGTCGCGGTGCCGCTCGTCGGCTTTCTCGCGCTGTGGCTGAATCCGTTGCAGGTGGCGGGCGTCGCCGGCTGGCGCATCATCCTCGCGATCGGCAGCCTCGGCGCCGTGTACGTGCTGCTCGTCCAGCACCGGCTGCCGGAAAGCCCGCGCTGGCTGCTCGCGCAAGGCCGCACGGCCGATGCGCACGCGGCGCTGCGGCGTTTCGCGGAAAGCGCCGGCGTGCGTGTGCCCGAACACTTCGCGGAACCGGTCGAGCCGCAGCGGCCGCTCGGGCTCGGCGAGCGCATCGCGCTGCTACGCCGCCAACCGTATGGCGCCCGCTATGTGATGCTGGCGATCTTTCACCTGTTGCAGGGCTTCGGCTACTACGGGTTCGGCACGCTGGCCGGCACGGTCGTGAAAAGCCGCGGCTTCGACGTGACGGACAGCACGCTGTTCATCGCGCTGTCGTTCATCGGCTATCCGATCGGCTCGCTGCTGTCGATTCCGCTGCTCAACTGGATCGAGCGCCGCACGCTCGTGATCGTGTCGATCCTGTCGATCGCGGTGTTCGGGCTGTGCTTCGCGTATTCGGGCAATACGATGCTGATCGTCGGCTTCGGGTTCCTGACGACCTGTGCGTCGAACGTGTTCAGCAACGCGTATCACGTGTATCAGGCCGAGATTTTCCCGGCGCGCGTGCGCTCGACGGCGATCGGCAGTACCTATGCGCTGTCGCGGATCGTGAGCGGCGCGCTGCCGTTCGTGTTGCTGCCGGTGCTCGGCCACTACGGCGCGGGCGCGATGTTCGGCGTGATCTCGGTCGCACTCGGCATCGTCGCCGTCACGCTG 
 >PredictedProphage1 -Hit 4 
 CCTCGCGTTCGGCAAGGCGTACAAGCCGATCCTCGACGAGCTCGGCCTCACGTATACGCAGTACATCACGATCATTGCGCTGTGGGAGCAGGACAACCAGACCGTTGGCCAGCTCGGCGAGAAGCTGTTTCTCGAATCCAATACGCTGACGCCGATCCTGAAGAAGCTCGAGGCAATGGGCTACCTGGAGCGGCACCGCGATCCGTCCGACGAACGCCAGGTGCTCGTCAGCCTGACGAAAAGCGGTCGACGCGTGCGCGAGAAGGGGCTCGATATGAACCTGGTCGAAGCCACCGGGCTGAAACCGGACGAGTTCGCCAAGGTACAGAAGGCGATCGTCACGCTGCGCGGCAACCTGATCCGGTCGACCGAAGCCTGAAAGCTCTCAGGCACGACAAGCGGCCGACGCGGAAATCGCGCCGGCCGCGTTGTCATGCGTGCGCATCGCCCAGCACCAGCAGGTGCATCTCGCGACGGACCACGAAACCGAGTGCGAGATAACGTTCGATCGCCACCCGGTTCGTCGTCAGGACGTGCAGGAACGGCGTTTCCGCACGCGCGCCGATCGTCGCGATCAGCGACCGGATCAGCCGCGCGGCAAGCCCTTGCCGGCGA 
 >PredictedProphage1 -Hit 5 
 ATGCTGCACCGCCGGTTCTTCGAGCTGGGTGTCTTCAGCCAGATCATGCGGGAACTCCATTCCGGCGACCTCTATGTGGAGGGCAGTGACCGCTTCGACGATTATCGGGTGCATCAGGTCACCGACGAGGAATTTCGGCGTGAACTGCCGCGCTACTGCGAGATCGTGGGCTTGCCCGCGGACGGCAAGAGCGTAGCGAAGGATCTGCGAGACAGGCTGAACGCGGCGCTCGACGAGGCCGATGCGAACTTCCCCGCAAACGACAGCATCGAG 
 >PredictedProphage1 -Hit 6 
 AAGCTGCGGCGCGCGACCCCGCACTGGATGCGCCATACGCACGCGACACACGCACTTGCCAACGGCGCGACGCTTACCACCGTGCGCGATAACCTGCGTCACGCGTCAATCACGACCACC 
 >PredictedProphage1 -Hit 7 
 ATTGCCGTCGAGATAACCGGGGAAGGTCAGCCCGTCGTGTGCATCCACGGACTCGGTGGCTCCTCGAACAACTGGACCCCGGTTCTGGAAGCCTTTGGGGGCATGCGTGTCGTCCGACTCGACTTGCCCGGTAGCGCGCGTTCAGCGCTAGCCAACGAGCCGTTGTCCATCGAACTGTACGTGTCCCGGGTGGCCGATGTGCTGAGCGAACTCGGTATCGAGCAGGCCCACATCGTTGCACACTCGATGGGTACCATCGTGGCTCAGCATCTCGCAGTCCAACATCCTCATCTCGTCCGCAGCCTCGCGCTC 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 QRFDWLPCGQRDAPLFVFIHGGYWQHCTKEDFAYAASGPLARGYDVVLAEYTLAPVATMTDIVGEIGALLDHLAADRDGLGIAGRPIHLSGHSAGGHLTAL 
 >PredictedProphage1 -Hit 2 
 LQSLRVFALVAEHGSLTKAAEHGQLTLSAVSKRIAELESVTGSALFVRHARGVELTPAGRALLDHAAKVIEQVNRMAHEMSDYVAGVRGHIHVWTNTSAIVQFLPADLAAFLTDNPGIKVSLEERLSHEIVDALASGKADLGVFADNVPAPGI 
 >PredictedProphage1 -Hit 3 
 HRFVVWVIGVGLFFDMYEIFLVSTIGSALQHEYGLSRQSADFKLLLASAFIGMFVGAMCLGSLADRIGRRKAFLLTLGWYSAFSLVGAFSVNADMLVACRFLTGIGVGAIYPVADSFLSEILPKDKRGRLAAWAYTTSYVAVPLVGFLALWLNPLQVAGVAGWRIILAIGSLGAVYVLLVQHRLPESPRWLLAQGRTADAHAALRRFAESAGVRVPEHFAEPVEPQRPLGLGERIALLRRQPYGARYVMLAIFHLLQGFGYYGFGTLAGTVVKSRGFDVTDSTLFIALSFIGYPIGSLLSIPLLNWIERRTLVIVSILSIAVFGLCFAYSGNTMLIVGFGFLTTCASNVFSNAYHVYQAEIFPARVRSTAIGSTYALSRIVSGALPFVLLPVLGHYGAGAMFGVISVALGIVAVTL 
 >PredictedProphage1 -Hit 4 
 PRVRQGVQADPRRARPHVYAVHHDHCAVGAGQPDRWPARREAVSRIQYADADPEEARGNGLPGAAPRSVRRTPGARQPDEKRSTRAREGARYEPGRSHRAETGRVRQGTEGDRHAARQPDPVDRSLKALRHDKRPTRKSRRPRCHACASPSTSRCISRRTTKPSAR_RSIATRFVVRTCRNGVSARAPIVAISDRISRAASPCRR 
 >PredictedProphage1 -Hit 5 
 MLHRRFFELGVFSQIMRELHSGDLYVEGSDRFDDYRVHQVTDEEFRRELPRYCEIVGLPADGKSVAKDLRDRLNAALDEADANFPANDSIE 
 >PredictedProphage1 -Hit 6 
 KLRRATPHWMRHTHATHALANGATLTTVRDNLRHASITTT 
 >PredictedProphage1 -Hit 7 
 IAVEITGEGQPVVCIHGLGGSSNNWTPVLEAFGGMRVVRLDLPGSARSALANEPLSIELYVSRVADVLSELGIEQAHIVAHSMGTIVAQHLAVQHPHLVRSLAL 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig230

Genome size:  29965
Host's GC content:  69.30
Predicted Codon Position GC:  	1st:  69.52	 2nd:  45.41	 3rd:  84.96

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig228

Genome size:  29672
Host's GC content:  67.28
Predicted Codon Position GC:  	1st:  68.28	 2nd:  44.87	 3rd:  81.54

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig225

Genome size:  27745
Host's GC content:  65.04
Predicted Codon Position GC:  	1st:  66.90	 2nd:  44.26	 3rd:  77.75

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig224

Genome size:  24236
Host's GC content:  66.43
Predicted Codon Position GC:  	1st:  67.76	 2nd:  44.64	 3rd:  80.11

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig223

Genome size:  23352
Host's GC content:  61.44
Predicted Codon Position GC:  	1st:  64.68	 2nd:  43.29	 3rd:  71.65

 >PredictedProphage1 
 Length:   12120 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 62.42 	 63.61 	 66.47 	 55.54 	 68.80 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	6	0.171428571428571
 Leu	TTA	1	0.0285714285714286
 Leu	CTG	15	0.428571428571429
 Leu	CTA	1	0.0285714285714286
 Leu	CTT	2	0.0571428571428571
 Leu	CTC	10	0.285714285714286
 Lys	AAG	19	0.95
 Lys	AAA	1	0.05
 Glu	GAG	13	0.351351351351351
 Glu	GAA	24	0.648648648648649
 Gln	CAG	21	0.67741935483871
 Gln	CAA	10	0.32258064516129
 End	TGA	3	1
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	9	0.409090909090909
 His	CAC	13	0.590909090909091
 Asn	AAT	3	0.3
 Asn	AAC	7	0.7
 Ser	AGT	4	0.0677966101694915
 Ser	AGC	16	0.271186440677966
 Ser	TCG	21	0.355932203389831
 Ser	TCA	2	0.0338983050847458
 Ser	TCT	7	0.11864406779661
 Ser	TCC	9	0.152542372881356
 Trp	TGG	10	1
 Arg	AGG	1	0.0131578947368421
 Arg	AGA	1	0.0131578947368421
 Arg	CGG	15	0.197368421052632
 Arg	CGA	20	0.263157894736842
 Arg	CGT	17	0.223684210526316
 Arg	CGC	22	0.289473684210526
 Ala	GCG	38	0.457831325301205
 Ala	GCA	21	0.253012048192771
 Ala	GCT	10	0.120481927710843
 Ala	GCC	14	0.168674698795181
 Cys	TGT	1	0.0666666666666667
 Cys	TGC	14	0.933333333333333
 Asp	GAT	16	0.421052631578947
 Asp	GAC	22	0.578947368421053
 Gly	GGG	13	0.175675675675676
 Gly	GGA	12	0.162162162162162
 Gly	GGT	17	0.22972972972973
 Gly	GGC	32	0.432432432432432
 Phe	TTT	0	0
 Phe	TTC	17	1
 Tyr	TAT	6	0.5
 Tyr	TAC	6	0.5
 Met	ATG	16	1
 Val	GTG	12	0.292682926829268
 Val	GTA	1	0.024390243902439
 Val	GTT	9	0.219512195121951
 Val	GTC	19	0.463414634146341
 Thr	ACG	21	0.636363636363636
 Thr	ACA	1	0.0303030303030303
 Thr	ACT	4	0.121212121212121
 Thr	ACC	7	0.212121212121212
 Pro	CCG	13	0.464285714285714
 Pro	CCA	5	0.178571428571429
 Pro	CCT	4	0.142857142857143
 Pro	CCC	6	0.214285714285714
 Ile	ATA	1	0.0384615384615385
 Ile	ATT	1	0.0384615384615385
 Ile	ATC	24	0.923076923076923
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 8056	8679	-1	ref|NP_511031.1|helicase 	35.4bits(80)	0.26
 9951	10577	-1	ref|YP_164321.1|hypothetical protein	38.9bits(89)	0.024
 12411	12731	1	ref|YP_006492.1|IddB 	39.3bits(90)	0.018
 14435	14614	-1	ref|NP_818300.1|gp250 	35.4bits(80)	0.26
 19870	20175	-1	ref|YP_024839.1|Pas53 	40.0bits(92)	0.011
 
 DNA sequence:
 GCTCGCGCGCTGTGCGCGGAACACGCACGACAGCGCCATCTGCGCCTCACGCGTCGCATCCCACGAAGCGGGCGGCTCGAGGCACGTGTCGCAGTTGCCGCACGGCTGGCTCGCCTCGCCGAAGTAATTCAGCAGCCGCACGCGGCGGCACGAGATCGTTTCGCACAACCCGAGCAGCGCGTCGAGCTTCGACGTCTGCACGCGCTTGTGCGCGTCGTCCGCATCGGATTCGTCGATCATCTTGCGCTGCTGGACGACATCGCCGAGGCCATACGCCATCCACGCGTTGGCGGGCATCCCGTCACGACCCGCGCGGCCGGTTTCCTGGTAATAGCCTTCGACGCTCTTCGGTAAATCGAGGTGCGCGACGAAGCGCACGTCGGGCTTGTCGATACCCATGCCGAACGCGATCGTCGCGCACATCACGATGCCTTCCTCGCGCTGGAACATTTCCTGGTGCTTCTGCCGCACCTCGAACTCCATCCCCGCGTGATACGGCAGCGCGCGCACGCCCTGCGCCTTCAGCCATTCGGCCGTTTCCTCGACCTTGCGACGCGACAGGCAATAGACGACGCCCGCGTCCGTCGTGCCGTCGGCATTCGTGTGCTCGGCACGGATGAAATCGAGCAACTGCGAGCGCGCGTTGTCCTTTTCGACGATCCGGTAACGGATGTTGGGGCGGTCGAAGCTCGACACGAACACGCGCGCGTCGTCGAGCGCGAGACGATGGATGATCTCGTCGCGCGTGATCGCGTCGGCCGTGGCGGTCAGCGCGATGCGCGGCACCGACGGGAAGCGCTCGTGCAACACCGACAGCTGGATGTATTCCGGGCGGAAATCGTGCCCCCATTGCGACACGCAGTGCGCTTCGTCGATCGCGAACAGGCCGATCTTCGCGCGCTCGAGCAGCTCGAGGAAGCGCCCCGTCATCAAGCGCTCCGGCGCGACGTACAGCAGGTCGATTTCGCCTTCGCGCAGCGCGCGCTCGGTGGCCGCGGCCTCGGCGCCCGACAGCGTCGAATTCAGGTAGGCCGCGCGCACGCCGACTTCGCTCAACGCGGCGACCTGGTCCTGCATCAGCGCGATCAGCGGCGACACGACGATGCCGGCGCCCTGCCCGGCCTCTCGGCGCAGCAGCGCGGGAATCTGGTAGCACAGCGACTTGCCGCCGCCGGTCGGCATCAGCACGAGACAATCGCCGCCGCCGGCGACGTGCTCGACGATCTCGCCCTGCTGGCCGCGAAAGGCGGAATAACCAAAGACTTCGTCGAGTATTTCGAGGGCGCGGGACATGAATAGGAACAGGGACGGCTAAGCGATGAACGCAATTTTAACAACCCGCTCGCGCGACGCGTGGCGAATCGCGCGACGTTGGCCGTTCGGTCAGGGTTCGTTCGCGGGCATCACGGGCCTGCCGCGGCCATGCTGGACGCGTTCGCGGGGCATGCCCCGGCGCGGCGCAGGCACGTCATGCGCGTGAACGAAGGATGAAAAAAAACCGCCCGGCAGAACCGGGCGGTTTCGGTGACAGCGATGATAGCAAGGCAACGCGGCTTGCGCCGCGCCGCGCTTACTCGGCTGCCGGGTGTTGCGGCTCTTCTGCCGGCGCGCTCGGCGTGCCGAAGTCGAATGCCTCTTCCGCTGCGATCTGGTCGAAACGCTCGCGATCCGACGATTCCTTCGCCTTGCGTGCCTTGTGGAACGCGAGACCCGTACCGGCCGGAATCAGACGGCCGACGATCACGTTTTCCTTCAGGCCGCGCAGATCGTCGCGCTTGCCCATGATCGCCGCTTCGGTCAGCACGCGGGTCGTTTCCTGGAACGATGCCGCGGAGATGAACGAGTCGGTCGACAGCGATGCCTTCGTGATACCGAGCAGCACGTTGTCGTACGAAGCCGGACGCTTGCCCTCGGCGATCATGCGATCGTTCTCGTCCAGCATGTCGGAACGCTCGACCTGTTCGCCCGGGATGAAGCGCGTATCGCCGTTGTCGGTGATCTGCACACGACGCAGCATCTGGCGAACGATCACCTCGATGTGCTTGTCGTTGATCTTCACGCCCTGCAGACGGTACACGTCCTGCACTTCGTCGACGATGTAGCGCGACAGCGCCTCGATACCCTGCAGACGCAGGATGTCGTGCGGATCGGCCGGACCGTCCACGATCATTTCGCCCTTGTTGACGACCTGGGCATCGTGAACCAGAACCTGCTTTTCCTTCGCGATCAGGAACTCGTGCTGGTTGCCCTCGAGGTCCGTGATGACGAGACGCTGCTTGCCCTTCGTGTCCTTGCCGAACGACGTCGTACCGGTGACTTCCGCGAGAATGCCGGCATCCTTCGGCGAACGCGCTTCGAACAGTTCCGCCACCCGCGGCAGACCGCCGGTAATGTCACGCGTCTTCTGCGCTTCCGTCGGGATACGTGCGAGCACTTCACCGACCTGCACCTGCTGGCCATCCTTCACGGTGATCAGTGCGCCGACCTGGAAGCCGATCTGCACTGCGTGCTCCGTGCCCGGAATCTTCACTTCCTCGCCGTTCGCGTCGAGCAGCTTCACCTGCGGACGCACGCTCTTCGAAGCCTGCGAACCGCGGCGCTTCACGTCGATCACGACCAGCGTCGACAGGCCGGTCACGTCGTCGATCTGCTTCGCGACGGTCACGCCTTCCTCGACGTTCTCGAACTTCACCGTACCACCGTACTCGGTGATGATCGGACGCGTCAGCGGGTCCCACGTGGCGAGCTGCGTGCCGGCCTTGATGGTCGCGCCGTCGAGCTGCAGCAGCGTCGCGCCGTACGGCACTTTGTGACGTTCGCGCTCGCGACCGAAGTCGTCGGTGATCATCGCTTCGCCCGAACGGGAAATGACGATCTGCTCGCCCTTCGCGTTCGTGACGTAGCGCATCGTCGCCGTGAAGCGGACGATACCGTTGCTCTTCGCTTCGACCGACGAAGCCACTGCCGCACGCGATGCCGCACCACCGATGTGGAACGTACGCATCGTCAGCTGCGTGCCCGGTTCACCGATCGACTGCGCCGCGATCACGCCGACTGCTTCGCCGACGTTCACGAGCGAGCCGCGGCCGAGGTCGCGGCCGTAGCAGGCTGCGCACAGGCCGTAACGCGTTTCGCAGGTCAGCGGCGTGCGCACGCGCACTTCGTCGATGCCGAGGCGTTCGATTTCCTCGACCGCCGTTTCGTCGAGCAGCGTGCCCGATTCGTACAGCGTTTCCTGCGTTTCCGGATTCACGACGTCCGCGACCGCGACGCGGCCGAGGATACGGTCACGCAGCGCTTCGACGACTTCACCGCCTTCGACCAGCGCCTTCATCGCCACGCCGTTCGACGTGCCGCAATCGTCTTCCACCACGACCAGATCCTGCGTGACGTCGACGAGACGACGCGTCAGGTAACCCGAGTTCGCGGTCTTCAGTGCCGTATCAGCCAGACCCTTACGTGCACCGTGGGTCGAGATGAAGTACTGCAACACGTTCAGACCTTCGCGGAAGTTCGCGGTAATCGGCGTCTCGATAATCGAGCCGTCCGGCTTCGCCATCAGGCCACGCATACCGGCCAGCTGACGAATCTGAACCGCCGAACCCCGGGCGCCCGAGTCGGCCATCATGTAGATCGAGTTGAACGACTCCTGGCGCGTCTCGTTGCCGTCGCGGTCCGTCACCGGCTCCGTCGACAGCTGCTCCATCATCGCCTTGCCGACCGCTTCCGACGTTGCCGACCAGATGTCGACCACGTTGTTGTAGCGTTCCTGCGCGGTGACGAGACCCGACATGTACTGGCGGTCGTACTCCTTCACCTTCTTCGCGGCGTCGCCGACGATCGTTTCCTTCTGCGGCGGCACGAGCATGTCGTCCACGCAGATCGAGATGCCGGCACGCGTCGCGAGACGGAAACCCGACTGCATCAGCTGGTCGGCGAACACCACCGTCGCACGCAGACCGCACTTGCGGAACGCCGTGTTGATCAGGCGCGAGATTTCCTTCTTCTTCAGCGGCTTGTTCAGCACCGAGAACGGCAGGCCGTGCGGCAGGATCTCCGACAGGATCGCGCGGCCGACGGTCGTCGCGTACAGCGTGATCTTCGGCACGAACGGCGGCGCGCCTTCCGACTTGTCTTCGTTGTGGACCATTTCGGTGATCCGCACGTTGACGCGCGAGGCCAGCTCGACTTCCTTGTTCTCGTACGCGCGGATGACTTCCGACACGCCCGTGAACGACAGGCCTTCGCCCTTGCCGTTGACCGCTTCGCGGGTCGCGTAGTACAGACCCAGCACGATATCCTGCGACGGCACGATCGACGGATCGCCGTTGGCCGGGAACAGCACGTTGTTCGACGCGAGCATCAGCGTGCGCGCTTCCATCTGCGCTTCGAGCGACAGCGGCACGTGAACGGCCATCTGGTCACCGTCGAAGTCGGCGTTGAACGCCGCGCAGACGAGCGGGTGCAGCTGGATTGCCTTGCCTTCGATCAGCACCGGCTCGAACGCCTGGATACCGAGACGGTGCAGCGTCGGCGCACGGTTCAGCATCACCGGGTGCTCGCGGATCACCTCTTCGAGGATGTCCCACACCACCGGCGTCTGGTTCTCGACTTCCTTCTTCGCAGCCTTGATGGTCGTCGCGACGCCCATCACTTCCAGCTTGTTGAAGATGAACGGCTTGAACAGCTCGAGCGCCATCAGCTTCGGCAGACCGCACTGGTGCAGCTTCAGCGTCGGGCCGACCACGATGACCGAACGGCCCGAGTAGTCGACGCGCTTGCCCAGCAGGTTCTGACGGAAACGACCGCCCTTGCCCTTGATCATGTCGGCGAGCGACTTCAGCGGACGCTTGTTCGCGCCCGTCATCGCCTTGCCGCGACGACCGTTGTCGAGCAGCGAGTCGACGGCTTCCTGCAGCATCCGCTTTTCGTTGCGGACGATGATTTCAGGCGCCTTCAGCTCGAGCAGACGCTTCAACCGGTTGTTACGGTTGATCACGCGGCGATACAGGTCGTTCAGGTCCGACGTCGCGAAACGGCCGCCGTCCAGCGGCACGAGCGGACGCAGTTCCGGCGGCAGCACCGGCAGCACTTCGAGGATCATCCACTCGGGCTTGATGCCCGAACGCTGGAATGCCTCGAGGACCTTCAGGCGCTTCGCGTACTTTTTGATCTTCGCTTCCGAGCCGGTGTTCTTCAGCTCGGTGCGCAGCGTCTCGACCTGCTCGTCGATGTTGATCGCGCGCAGCAGTTCACGCACGCCTTCCGCGCCCATTTCGGCACGGAATTCGTCGCCGTATTCCTCGACCTTGTTGTAGTAATCCTCTTCGGTCATGATCTGCCGCGCCTTCAGCGGCGTCATGCCCGGTTCGATCACCACGTACGCTTCGAAGTACAGCACGCGCTCGATGTCGCGCAGCGTCATGTCGAGCACCATGCCCAGACGCGACGGCAGCGACTTCAGGAACCAGATGTGCGCGACCGGCGAGGCCAGCTCGATGTGGCCCATCCGCTCGCGACGCACCTTCGCCAGCGTCACTTCGACGCCGCACTTCTCGCAGATCACGCCGCGGTGCTTCAGACGCTTGTACTTGCCGCACAGGCACTCGTAGTCCTTGATCGGCCCGAAGATCTTCGCGCAGAACAGACCATCGCGTTCCGGCTTGAACGTACGGTAGTTGATGGTCTCCGGCTTCTTCACTTCGCCGAACGACCACGAACGGATCTTGTCGGGCGAGGCCAGACCGATCTTGATCGCGTCGAAAACTTCTTCCTGTTGGACTTGCTTGAATAGATCGAGCAGAGCTTTCATTGCTTTCTCTCCGTAGTCCGATTAATTGCGGTCGAGATCGATATCGATACCGAGCGAGCGGATTTCCTTCACGAGCACGTTGAAGGATTCCGGCATGCCTGCATCGATCACGTGATCGCCCTTGACGAGGTTTTCGTACACCTTCGTCCGGCCGGTCACGTCGTCCGACTTCACCGTCAGCATTTCCTGCAGCACGTAGGACGCGCCGTACGCTTCGAGCGCCCACACTTCCATTTCACCGAAACGCTGGCCACCGAACTGCGCCTTACCACCCAGCGGCTGCTGCGTGACGAGCGAGTACGGGCCGGTCGAACGCGCGTGCATCTTGTCGTCGACCAAGTGGTGCAGCTTCAGGTAGTGCATGTAGCCGAGCGTCACGCGACGTTCGAACATTTCACCCGTGCGGCCGTCGTACAGACGGACCTGGTTCTTCGACGGGTTCATGCCGAGCTGTTCGGCGATGTCGTCCGGGAACGCGAGGTCGAGCATCTTGCCCATTTCTTCCTCGGTCGCACCGTCGAACACCGGCGTCGCGAACGGCACGCCTTCGCGCAGGTTCTTCGCGAGTTCGAGGATCTCGTCGTCGGTGAAGCTTTCCAGATCTTCCTGGCGGCCCGACTCGTTGTAGATCTTCGTCAGGAACGTGCGCAGTTCCTCGATCTTCGCCTGACGCTGCAGCATTTCGCCGATACGCCAGCCGAGGCCCTTCGCGGCCCAGCCGAGGTGCACTTCCAGAACCTGACCCACGTTCATCCGCGACGGCACGCCGAGCGGGTTCAGCACGACGTCTGCCGGACGGCCGTCGGCCATGTACGGCATGTCTTCGATCGGAACGATCTTCGACACGACACCCTTGTTACCGTGACGGCCTGCCATCTTGTCGCCAGGCTGCAGACGGCGCTTCACCGCGAGGTACACCTTGACCATCTTCAGCACGCCCGGCGGCAGTTCGTCGCCTTGCGTGAGCTTCTTGCGCTTCTCTTCGAACGCGAGATCGAACTGGTGACGCTTCTCTTCGATCGAGTTCTTGATCGCTTCGAGCTGCGCCGCTGCTTCGTCGTCCGCGAGGCGGATGTCGAACCAGTGGTAGTGGTCGAGGTCTTCCAGGTAAGCCTGGTCGATCTTCGTGCCCTTCGCGAGCTTCTTCGGACCGCCGTTCGCGACCTTGCCCACGAGCATGCGTGCGAGACGCTGGAACGCGTCGCCTTCCACGATGCGCAGCTGGTCGTTCAGGTCGAGACGGTAGCGCTTCAGTTCGTCGTCGATGATCTGTTGCGCACGCTTGTCGCGCTGGATGCCTTCACGCGTGAACACCTGGACGTCGATCACGGTGCCGCTCATGCCCGACGGCACGCGCAGCGACGTGTCCTTCACGTCCGAAGCCTTCTCGCCGAAGATCGCGCGCAGCAGCTTTTCTTCCGGCGTCAGCTGGGTCTCGCCCTTCGGCGTGACCTTGCCGACCAGCACGTCGCCTGCTTCGACTTCAGCACCGATGTACACGATGCCCGATTCGTCGAGACGGCCGAGCTGGACTTCCGCCAGGTTCGAGATGTCGCGCGTGATTTCTTCCGGCCCGAGCTTCGTGTCGCGTGCAACGACGTTCAGCTCTTCGATGTGGATCGACGTGTAGCGATCGTCCGCGACCACCTTCTCCGAGATCAGGATCGAATCCTCGAAGTTGTAGCCGTTCCACGGCATGAACGCGATCAGCATGTTCTGGCCGAGCGCGAGCTCGCCCAGGTCCGTCGAGGCGCCGTCGGCCAGCACGTCGCCGCGCGAGACCTTGTCGCCCATCTTCACGATCGGACGCTGGTTGATGTTCGTGTTCTGGTTCGAACGCGTGTACTTGATCAGGTTGTAGATGTCGACACCGACTTCACCCGCGACCGCTTCGTCGTCGTTCACGCGAATCACGATACGGCCTGCGTCGACGTAGTCGACCACACCGCCGCGGAACGCCTGAACCGTCGTACCCGAGTCGACCGCGCAGGTGCGCTCGATGCCCGTCCCGACGACCGGCTTTTCCGGACGCAGACACGGCACGGCCTGACGCTGCATGTTCGAACCCATCAATGCACGGTTCGCGTCATCGTGCTCGAGGAACGGGATCAGCGAGGCTGCCACCGACACGATCTGCGACGGCGCGACGTCCATGTACTGGATCCGGTCCGGCGTGACCATCATCGTTTCGCCGGCTTCGCGCGACGACACGAGTTCGTCGATCAGCTGGCCGTTCTCGTCGATCGCGGCGTTCGCCTGGGCGATCATGTAGCGGCCTTCCTCGATCGCCGACAGGTAGTCGATCTGGTCGGTCACCTTGCTGTCCACGACCTTGCGGTACGGCGTCTCGAGGAAGCCGTATTCGTTCAGGTGCGCGTACAGTGCGAGCGAGTTGATCAGGCCGATGTTCGGACCTTCCGGCGTTTCGATCGGGCACACGCGGCCGTAGTGGGTCGGGTGCACGTCGCGGACTTCGAAGCCTGCGCGCTCGCGGGTCAGACCGCCCGGGCCCAGTGCGGACACACGGCGCTTGTGCGTGATTTCCGACAGCGGGTTGGTCTGGTCCATGAACTGCGACAGCTGCGACGAACCGAAGAACTCGCGGATCGCCGACGAAATCGGCTTCGAGTTGATCAGGTCGTGCGGCATCAGGTTTTCGCTTTCGGCCTGGCCGAGGCGTTCCTTGACCGCGCGCTCGACACGCACGAGGCCGGCGCGGAACTGGTTTTCCGCCAGTTCGCCGACGCAACGCACGCGACGGTTGCCGAGGTGGTCGATGTCGTCCACTTCGCCCTTGCCGTTGCGCAACTCGACGAGGATCTTGATCGTCGCGAGGATGTCGTCGTCCTGCAGCGTCATCGGGCCGACGATCTCGTCACGGCCGACGCGGCGGTTGAACTTCATGCGGCCAACCTTCGACAGGTCGTACGCTTCTTCGCTGTAGAACAGACGATTGAACAGGGCCTCGACCGCTTCTTCGGTCGGCGGCTCGCCCGGACGCATCATGCGGTAGATCGCGATGCGCGCGGCCGTCTTGTCGGTCGTTTCGTCGACACGCAGCGTCGACGAGATGTACGGGCCCTGGTCCAGATCGTTCGTGTAGAGCGTCTGGATGTCCTTGATGCCCGCTTCGCGCAGCTTCTCGAGCACGCTTTCCGTGACTTCGTCGTTCGCGCTCGCGATCACTTCGCCGGTATCGCCGTCGACGACGTTCTTCGCCAGCACGCGGCCGAGCAGATAGTCTTCCGGCACCGAGATGAACTTGGTCTTCGCGGCTTCGAGGTCACGAATGTGCTTCGCGTTGATCCGCTTGTCCTTCTGGACGATGACCTTGCCGTCGCGATCCGTGATGTCGAAACGCGCGACTTCACCACGCAGGCGCTCGGGCACGAACTCGAGTTGCGCGCCTTCGTCCATCAGCGTGAAGTTGTCGAACACGAAGAAGTTCGCGAGGATCTGTTCCGGCGTCAGGCCGATGGCCTTCAGCAGGATCGTGACCGGCATCTTGCGGCGACGGTCGACGCGGAAGTACAGGATGTCCTTCGGATCGAATTCGAAGTCGAGCCACGAGCCGCGGTACGGAATGATCCGTGCCGAGAACAGCAGCTTGCCCGAGCTGTGCGTCTTGCCCTTGTCGTGTTCGAAGAACACGCCCGGCGAACGGTGCAGCTGCGAGACGATGACACGCTCGGTGCCGTTGATGACGAACGAGCCCGTCGGCGTCATGAGCGGAATTTCGCCCATGTACACTTCCTGCTCCTTCACTTCCTTGACGACCGGCTTGTTCGGCGATTCCTTGTCGAGAATGACGAGGCGGACCTTCGCGCGCAGCGCGGAGCAGTACGTCAGGCCACGCTGCTGGCATTCCTTGATGTTGAATGCCGGCGAGGACAGCGCATAGCTCACGAACTCGAGGCGCGCGAAACCGTTGTGCGAAACAATGGGAAATACCGACGTGAACGCGGCCTGCAAACCCTCAGGCTTACGTTGCGTCGCGGGTACATCGGCTTGCAGAAACGTGCTGAATGATTCAAGCTGGGTAGCCAGCAAGAACGGAACTTGGTGAACGATGGGGCGCTTCGCGAAACTCTTGCGAATGCGCTTCTTCTCGGTGAAGGAATATTGCATACGATCTCCGAATCACGGCGGGTGCTATCGAGGCGGAATACCTGGACGTTTCAAACCCGAGTGTTCACCGACTGAGACCCGATGGCCGTTCGACGGCTTGAACGAGCCGAGAAGCTTGGTGGTTGGCCGCTACCAACCGCTGGCTGACGGCAGCGGATGCCTGTGTTGCCCGCTACCCGACCAAACTTGCCTTCTGCAGTCGCTTCAGAAGACAAAGAGAACCGCCAATCGTGAGTGATTCATCACAACGATCAAGCGGTTTTCTTTGGCTTCTGGGGCCGATTATTCGGGCTCCCGAATGAGTGCCAGAATAACGTCCCCACAAAGCACAAAAAGGCCGGCGGTGAAAATACCGCCAGCCTTCGCACAGCGCGCCGAAACTTACTTGACTTCGACCTTCGCGCCAGCTTCTTCCAGCTTCTTCTTGGCTTCTTCAGCAGCAGCCTTGTCGACGCCTTCCTTGACGGGCTTCGGTGCACCGTCAACCAGGTCCTTCGCTTCCTTCAGGCCCAGGCCCGTCAGTTCACGAACGGCCTTGATGACCGAAACCTTGTTGGCGCCGGCTTCAGCCAGGACGACCGTGAATTCGGTCTTCTCTTCTGCTGCAGCAGCTGCGCCGCCGCCTGCCGGGCCAGCGACTGCCACTGCAGCTGCCGACACGCCAAACTTCTCTTCGAACGCCTTGACCAGTTCGTTCAGTTCCAGAACGGTCATCCCTTCGACTGCTGCCAGGATGTCTTCTTTTGCGATTGCCATTTGAAATACTCCTAAATTGAATTCGGATACAGCCAGCGATCAGTAACGCTGATGCACGTTCGCTTACGCAGCTTCCGCTTGCTTCTTCTCGGCCAGCGCGGCGAGAGCACGCGCGAAGCCCGAAACAGGCGATTGCATAACGAACAGCAGCTTCGAGAGCAGTTCTTCGCGGCTCGGGATGCTTGCCAGCGCTTGCACGCCAGCCTTGTCCATCACCTTGCCATCGAACGAACCAGCCTTGATGACCAACTTTTCATTGCTCTTGCTGAAGTCGTTGACGACCTTAGCAGCGGCAATGGCATCTTCCGAGATGCCGTAGATCAGGGGACCAGTCATCTGCTCTGCCAGCGGAGCAAAAGGCGTACCTTCGACGGCGCGACGCGCCAGCGTGTTCTTCAACACGCGCAGGTAAACCTGTTGCTCACGCGCTTTCGCGCGCAGCTTGGTCAGATCGCCAACCGCAATTCCACGATACTCAGCCAGCACAACGGTCTGGGCCTTCGCGACTTGCGCGGAAACCTCAGCGACGACGGCTTGCTTGTCTTCTCTATTAAGCGGCACGGTTAGCCTCCAGAAACGATACGTTCGGCATGGCCGGTATGGCCGAAACCTCACGTACCTCGTTCAACAACGGCGTCCGACCTCGTTAGGAGTATTTCCACCTCACGCCGCGAATCGCTTCGCGGCCTGCGGCTTCACCACTGCAAAACTTTTTCGGGTTCGCCATCTGCGTTGGCTTGAATTAAGGGATCGCCTACCCGCTGCGCCCCACCAACGGTCTTTGATAACCGGTTGTCCGCCCTACTGCACGAACAACCGCCCAAAGCCCATGTAGGCCGCTTCGTGAACGAAGCGGCCCGAATACTTGCTTACTGTGCTGCCAGCGTAGCGTGGTCGACACGCACGCCGACGCCCATCGTGCTCGACAGTGCGATCTTGCGCAGGTACACGCCCTTGCTCGTTGCCGGCTTTGCCTTCTGCAGCGCTTCGATCAGCGCCGACAGGTTCGAACGCAGCGCGGTCGGCTCGAACGATGCACGGCCGATGGTCGCGTGGATGATACCGGCCTTGTCGACACGGAATTGCACCTGACCAGCCTTCGCGTTCTTGACGGCGGTTGCGACGTCCGGCGTAACCGTACCGACCTTCGGGTTCGGCATCAGGCCGCGCGGGCCCAGGATCTGACCGAGCGTACCGACGATACGCATCGTATCCGGCGAAGCGATCACGATGTCGAAGTCCATCTGGCCAGCCTTGATCTGCTCAGCCAGGTCTTCCATGCCGACGATTTCCGCGCCTGCTGCACGCGCCTGCTCGGCCTTTTCGCCTTGCGCGAACACGGCAACGCGAACCGACTTGCCCGTACCTGCCGGGAGAACGACCGAACCACGAACGACCTGGTCCGACTTCTTCGCGTCGATGCC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 GATTTCATCCGTGCCGAGCACACGAATGCCGACGGCACGACGGACGCGGGCGTCGTCTATTGCCTGTCGCGTCGCAAGGTCGAGGAAACGGCCGAATGGCTGAAGGCGCAGGGCGTGCGCGCGCTGCCGTATCACGCGGGGATGGAGTTCGAGGTGCGGCAGAAGCACCAGGAAATGTTCCAGCGCGAGGAAGGCATCGTGATGTGCGCGACGATCGCGTTCGGCATGGGTATCGACAAGCCCGACGTGCGCTTCGTCGCGCACCTCGATTTACCGAAGAGCGTCGAAGGCTATTACCAGGAAACCGGCCGCGCGGGTCGTGACGGGATGCCCGCCAACGCGTGGATGGCGTATGGCCTCGGCGATGTCGTCCAGCAGCGCAAGATGATCGACGAATCCGATGCGGACGACGCGCACAAGCGCGTGCAGACGTCGAAGCTCGACGCGCTGCTCGGGTTGTGCGAAACGATCTCGTGCCGCCGCGTGCGGCTGCTGAATTACTTCGGCGAGGCGAGCCAGCCGTGCGGCAACTGCGACACGTGCCTCGAGCCGCCCGCTTCGTGGGATGCGACGCGTGAGGCGCAGATGGCGCTGTCGTGCGTGTTCCGCGCACAGCGCGCGAGC 
 >PredictedProphage1 -Hit 2 
 TCCGGGCACGGAGCACGCAGTGCAGATCGGCTTCCAGGTCGGCGCACTGATCACCGTGAAGGATGGCCAGCAGGTGCAGGTCGGTGAAGTGCTCGCACGTATCCCGACGGAAGCGCAGAAGACGCGTGACATTACCGGCGGTCTGCCGCGGGTGGCGGAACTGTTCGAAGCGCGTTCGCCGAAGGATGCCGGCATTCTCGCGGAAGTCACCGGTACGACGTCGTTCGGCAAGGACACGAAGGGCAAGCAGCGTCTCGTCATCACGGACCTCGAGGGCAACCAGCACGAGTTCCTGATCGCGAAGGAAAAGCAGGTTCTGGTTCACGATGCCCAGGTCGTCAACAAGGGCGAAATGATCGTGGACGGTCCGGCCGATCCGCACGACATCCTGCGTCTGCAGGGTATCGAGGCGCTGTCGCGCTACATCGTCGACGAAGTGCAGGACGTGTACCGTCTGCAGGGCGTGAAGATCAACGACAAGCACATCGAGGTGATCGTTCGCCAGATGCTGCGTCGTGTGCAGATCACCGACAACGGCGATACGCGCTTCATCCCGGGCGAACAGGTCGAGCGTTCCGACATGCTGGACGAGAACGATCGCATGATCGCCGAGGGCAAGCGTCCGGC 
 >PredictedProphage1 -Hit 3 
 GCGAGCATCAGCGTGCGCGCTTCCATCTGCGCTTCGAGCGACAGCGGCACGTGAACGGCCATCTGGTCACCGTCGAAGTCGGCGTTGAACGCCGCGCAGACGAGCGGGTGCAGCTGGATTGCCTTGCCTTCGATCAGCACCGGCTCGAACGCCTGGATACCGAGACGGTGCAGCGTCGGCGCACGGTTCAGCATCACCGGGTGCTCGCGGATCACCTCTTCGAGGATGTCCCACACCACCGGCGTCTGGTTCTCGACTTCCTTCTTCGCAGCCTTGATGGTCGTCGCGACGCCCATCACTTCCAGCTTGTTGAAGATGAAC 
 >PredictedProphage1 -Hit 4 
 GTGGGTCAGGTTCTGGAAGTGCACCTCGGCTGGGCCGCGAAGGGCCTCGGCTGGCGTATCGGCGAAATGCTGCAGCGTCAGGCGAAGATCGAGGAACTGCGCACGTTCCTGACGAAGATCTACAACGAGTCGGGCCGCCAGGAAGATCTGGAAAGCTTCACCGACGACGAGATCCTCGAA 
 >PredictedProphage1 -Hit 5 
 GGCATCGACGCGAAGAAGTCGGACCAGGTCGTTCGTGGTTCGGTCGTTCTCCCGGCAGGTACGGGCAAGTCGGTTCGCGTTGCCGTGTTCGCGCAAGGCGAAAAGGCCGAGCAGGCGCGTGCAGCAGGCGCGGAAATCGTCGGCATGGAAGACCTGGCTGAGCAGATCAAGGCTGGCCAGATGGACTTCGACATCGTGATCGCTTCGCCGGATACGATGCGTATCGTCGGTACGCTCGGTCAGATCCTGGGCCCGCGCGGCCTGATGCCGAACCCGAAGGTCGGTACGGTTACGCCGGACGTCGCA 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 DFIRAEHTNADGTTDAGVVYCLSRRKVEETAEWLKAQGVRALPYHAGMEFEVRQKHQEMFQREEGIVMCATIAFGMGIDKPDVRFVAHLDLPKSVEGYYQETGRAGRDGMPANAWMAYGLGDVVQQRKMIDESDADDAHKRVQTSKLDALLGLCETISCRRVRLLNYFGEASQPCGNCDTCLEPPASWDATREAQMALSCVFRAQRAS 
 >PredictedProphage1 -Hit 2 
 SGHGARSADRLPGRRTDHREGWPAGAGR_SARTYPDGSAEDA_HYRRSAAGGGTVRSAFAEGCRHSRGSHRYDVVRQGHEGQAASRHHGPRGQPARVPDREGKAGSGSRCPGRQQGRNDRGRSGRSARHPASAGYRGAVALHRRRSAGRVPSAGREDQRQAHRGDRSPDAASCADHRQRRYALHPGRTGRAFRHAGRERSHDRRGQASG 
 >PredictedProphage1 -Hit 3 
 ASISVRASICASSDSGT_TAIWSPSKSALNAAQTSGCSWIALPSISTGSNAWIPRRCSVGARFSITGCSRITSSRMSHTTGVWFSTSFFAALMVVATPITSSLLKMN 
 >PredictedProphage1 -Hit 4 
 VGQVLEVHLGWAAKGLGWRIGEMLQRQAKIEELRTFLTKIYNESGRQEDLESFTDDEILE 
 >PredictedProphage1 -Hit 5 
 GIDAKKSDQVVRGSVVLPAGTGKSVRVAVFAQGEKAEQARAAGAEIVGMEDLAEQIKAGQMDFDIVIASPDTMRIVGTLGQILGPRGLMPNPKVGTVTPDVA 
 



Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig220

Genome size:  19081
Host's GC content:  69.18
Predicted Codon Position GC:  	1st:  69.45	 2nd:  45.38	 3rd:  84.76

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig222

Genome size:  18843
Host's GC content:  69.15
Predicted Codon Position GC:  	1st:  69.43	 2nd:  45.37	 3rd:  84.70

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig221

Genome size:  17337
Host's GC content:  66.57
Predicted Codon Position GC:  	1st:  67.84	 2nd:  44.67	 3rd:  80.33

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig219

Genome size:  16837
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/burkhoderiaAUlc.txt
Sequence Header:  >Contig217

Genome size:  15039
Host's GC content:  70.64
Predicted Codon Position GC:  	1st:  70.34	 2nd:  45.77	 3rd:  87.22

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig218

Genome size:  14046
Host's GC content:  67.49
Predicted Codon Position GC:  	1st:  68.41	 2nd:  44.92	 3rd:  81.90

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig216

Genome size:  13826
Host's GC content:  66.14
Predicted Codon Position GC:  	1st:  67.58	 2nd:  44.56	 3rd:  79.61

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig212

Genome size:  12151
Host's GC content:  65.81
Predicted Codon Position GC:  	1st:  67.38	 2nd:  44.47	 3rd:  79.06

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig213

Genome size:  11675
Host's GC content:  65.39
Predicted Codon Position GC:  	1st:  67.11	 2nd:  44.35	 3rd:  78.34

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig215

Genome size:  11356
Host's GC content:  71.28
Predicted Codon Position GC:  	1st:  70.74	 2nd:  45.95	 3rd:  88.31

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig210

Genome size:  10448
Host's GC content:  69.99
Predicted Codon Position GC:  	1st:  69.95	 2nd:  45.60	 3rd:  86.13

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig214

Genome size:  9723
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/burkhoderiaAUlc.txt
Sequence Header:  >Contig207

Genome size:  9263
Host's GC content:  72.20
Predicted Codon Position GC:  	1st:  71.30	 2nd:  46.19	 3rd:  89.86

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig211

Genome size:  7364
Host's GC content:  64.46
Predicted Codon Position GC:  	1st:  66.54	 2nd:  44.10	 3rd:  76.77

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig208

Genome size:  7163
Host's GC content:  71.38
Predicted Codon Position GC:  	1st:  70.80	 2nd:  45.97	 3rd:  88.48

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig200

Genome size:  7052
Host's GC content:  68.26
Predicted Codon Position GC:  	1st:  68.88	 2nd:  45.13	 3rd:  83.20

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig203

Genome size:  7042
Host's GC content:  69.91
Predicted Codon Position GC:  	1st:  69.89	 2nd:  45.58	 3rd:  85.99

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig205

Genome size:  6923
Host's GC content:  67.98
Predicted Codon Position GC:  	1st:  68.71	 2nd:  45.05	 3rd:  82.72

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig209

Genome size:  6774
Host's GC content:  66.70
Predicted Codon Position GC:  	1st:  67.92	 2nd:  44.71	 3rd:  80.55

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig199

Genome size:  6385
Host's GC content:  67.71
Predicted Codon Position GC:  	1st:  68.54	 2nd:  44.98	 3rd:  82.26

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig204

Genome size:  6269
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/burkhoderiaAUlc.txt
Sequence Header:  >Contig202

Genome size:  5347
Host's GC content:  61.57
Predicted Codon Position GC:  	1st:  64.76	 2nd:  43.32	 3rd:  71.87

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig197

Genome size:  4848
Host's GC content:  68.34
Predicted Codon Position GC:  	1st:  68.93	 2nd:  45.15	 3rd:  83.33

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig201

Genome size:  4755
Host's GC content:  66.62
Predicted Codon Position GC:  	1st:  67.87	 2nd:  44.69	 3rd:  80.43

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig194

Genome size:  4429
Host's GC content:  71.98
Predicted Codon Position GC:  	1st:  71.17	 2nd:  46.13	 3rd:  89.49

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig198

Genome size:  4130
Host's GC content:  67.41
Predicted Codon Position GC:  	1st:  68.36	 2nd:  44.90	 3rd:  81.76

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig195

Genome size:  3962
Host's GC content:  72.56
Predicted Codon Position GC:  	1st:  71.53	 2nd:  46.29	 3rd:  90.48

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig193

Genome size:  3195
Host's GC content:  59.06
Predicted Codon Position GC:  	1st:  63.22	 2nd:  42.65	 3rd:  67.63

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig196

Genome size:  2981
Host's GC content:  57.16
Predicted Codon Position GC:  	1st:  62.05	 2nd:  42.13	 3rd:  64.42

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig192

Genome size:  2716
Host's GC content:  70.58
Predicted Codon Position GC:  	1st:  70.31	 2nd:  45.76	 3rd:  87.12

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig206

Genome size:  2508
Host's GC content:  52.67
Predicted Codon Position GC:  	1st:  59.29	 2nd:  40.92	 3rd:  56.82

 

Prophage Finder Output

Genome file:  temp/burkhoderiaAUlc.txt
Sequence Header:  >Contig191

Genome size:  2360
Host's GC content:  60.04
Predicted Codon Position GC:  	1st:  63.83	 2nd:  42.91	 3rd:  69.29