Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig21

Genome size:  2248
Host's GC content:  60.72
Predicted Codon Position GC:  	1st:  64.24	 2nd:  43.09	 3rd:  70.44

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig30

Genome size:  2432
Host's GC content:  60.94
Predicted Codon Position GC:  	1st:  64.38	 2nd:  43.15	 3rd:  70.81

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig31

Genome size:  2181
Host's GC content:  65.06
Predicted Codon Position GC:  	1st:  66.91	 2nd:  44.27	 3rd:  77.78

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig32

Genome size:  2793
Host's GC content:  57.97
Predicted Codon Position GC:  	1st:  62.55	 2nd:  42.35	 3rd:  65.78

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig33

Genome size:  2403
Host's GC content:  60.51
Predicted Codon Position GC:  	1st:  64.11	 2nd:  43.04	 3rd:  70.08

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig34

Genome size:  1994
Host's GC content:  62.94
Predicted Codon Position GC:  	1st:  65.61	 2nd:  43.69	 3rd:  74.19

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig35

Genome size:  3428
Host's GC content:  60.15
Predicted Codon Position GC:  	1st:  63.89	 2nd:  42.94	 3rd:  69.48

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig36

Genome size:  2300
Host's GC content:  56.26
Predicted Codon Position GC:  	1st:  61.50	 2nd:  41.89	 3rd:  62.89

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig37

Genome size:  4326
Host's GC content:  60.80
Predicted Codon Position GC:  	1st:  64.29	 2nd:  43.11	 3rd:  70.57

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig38

Genome size:  2348
Host's GC content:  60.05
Predicted Codon Position GC:  	1st:  63.83	 2nd:  42.91	 3rd:  69.31

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig39

Genome size:  4041
Host's GC content:  61.00
Predicted Codon Position GC:  	1st:  64.41	 2nd:  43.17	 3rd:  70.91

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig40

Genome size:  2203
Host's GC content:  62.55
Predicted Codon Position GC:  	1st:  65.37	 2nd:  43.59	 3rd:  73.54

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig41

Genome size:  3792
Host's GC content:  62.79
Predicted Codon Position GC:  	1st:  65.52	 2nd:  43.65	 3rd:  73.94

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig42

Genome size:  5583
Host's GC content:  59.07
Predicted Codon Position GC:  	1st:  63.23	 2nd:  42.65	 3rd:  67.65

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig43

Genome size:  5546
Host's GC content:  63.29
Predicted Codon Position GC:  	1st:  65.82	 2nd:  43.79	 3rd:  74.78

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig44

Genome size:  4853
Host's GC content:  59.26
Predicted Codon Position GC:  	1st:  63.35	 2nd:  42.70	 3rd:  67.97

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig45

Genome size:  4898
Host's GC content:  63.90
Predicted Codon Position GC:  	1st:  66.20	 2nd:  43.95	 3rd:  75.82

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig46

Genome size:  4781
Host's GC content:  62.23
Predicted Codon Position GC:  	1st:  65.17	 2nd:  43.50	 3rd:  72.99

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig47

Genome size:  3756
Host's GC content:  59.40
Predicted Codon Position GC:  	1st:  63.43	 2nd:  42.74	 3rd:  68.20

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig48

Genome size:  2381
Host's GC content:  56.70
Predicted Codon Position GC:  	1st:  61.77	 2nd:  42.01	 3rd:  63.63

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig49

Genome size:  3267
Host's GC content:  59.66
Predicted Codon Position GC:  	1st:  63.59	 2nd:  42.81	 3rd:  68.64

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig50

Genome size:  3235
Host's GC content:  58.08
Predicted Codon Position GC:  	1st:  62.62	 2nd:  42.38	 3rd:  65.98

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig51

Genome size:  2772
Host's GC content:  59.09
Predicted Codon Position GC:  	1st:  63.24	 2nd:  42.65	 3rd:  67.68

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig52

Genome size:  3778
Host's GC content:  57.09
Predicted Codon Position GC:  	1st:  62.01	 2nd:  42.12	 3rd:  64.30

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig53

Genome size:  5263
Host's GC content:  64.05
Predicted Codon Position GC:  	1st:  66.29	 2nd:  43.99	 3rd:  76.07

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig54

Genome size:  4284
Host's GC content:  63.98
Predicted Codon Position GC:  	1st:  66.25	 2nd:  43.98	 3rd:  75.96

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig56

Genome size:  2868
Host's GC content:  61.51
Predicted Codon Position GC:  	1st:  64.73	 2nd:  43.31	 3rd:  71.77

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig57

Genome size:  5360
Host's GC content:  60.30
Predicted Codon Position GC:  	1st:  63.98	 2nd:  42.98	 3rd:  69.73

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig58

Genome size:  7853
Host's GC content:  59.37
Predicted Codon Position GC:  	1st:  63.41	 2nd:  42.73	 3rd:  68.15

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig59

Genome size:  6068
Host's GC content:  60.45
Predicted Codon Position GC:  	1st:  64.08	 2nd:  43.02	 3rd:  69.98

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig60

Genome size:  7542
Host's GC content:  61.75
Predicted Codon Position GC:  	1st:  64.87	 2nd:  43.37	 3rd:  72.18

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig61

Genome size:  4690
Host's GC content:  58.87
Predicted Codon Position GC:  	1st:  63.11	 2nd:  42.59	 3rd:  67.31

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig62

Genome size:  8473
Host's GC content:  60.29
Predicted Codon Position GC:  	1st:  63.98	 2nd:  42.98	 3rd:  69.70

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig63

Genome size:  7763
Host's GC content:  59.76
Predicted Codon Position GC:  	1st:  63.65	 2nd:  42.83	 3rd:  68.81

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig64

Genome size:  10156
Host's GC content:  59.51
Predicted Codon Position GC:  	1st:  63.50	 2nd:  42.77	 3rd:  68.39

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig65

Genome size:  8595
Host's GC content:  60.57
Predicted Codon Position GC:  	1st:  64.15	 2nd:  43.05	 3rd:  70.18

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig66

Genome size:  9045
Host's GC content:  61.07
Predicted Codon Position GC:  	1st:  64.46	 2nd:  43.19	 3rd:  71.03

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig67

Genome size:  7026
Host's GC content:  63.68
Predicted Codon Position GC:  	1st:  66.06	 2nd:  43.89	 3rd:  75.44

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig68

Genome size:  7448
Host's GC content:  60.69
Predicted Codon Position GC:  	1st:  64.22	 2nd:  43.09	 3rd:  70.38

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig69

Genome size:  9900
Host's GC content:  62.09
Predicted Codon Position GC:  	1st:  65.09	 2nd:  43.46	 3rd:  72.76

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig70

Genome size:  8527
Host's GC content:  61.97
Predicted Codon Position GC:  	1st:  65.01	 2nd:  43.43	 3rd:  72.55

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig71

Genome size:  8594
Host's GC content:  60.17
Predicted Codon Position GC:  	1st:  63.90	 2nd:  42.95	 3rd:  69.51

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig72

Genome size:  10910
Host's GC content:  60.15
Predicted Codon Position GC:  	1st:  63.89	 2nd:  42.94	 3rd:  69.47

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig73

Genome size:  9183
Host's GC content:  62.02
Predicted Codon Position GC:  	1st:  65.04	 2nd:  43.44	 3rd:  72.63

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig74

Genome size:  11900
Host's GC content:  61.24
Predicted Codon Position GC:  	1st:  64.56	 2nd:  43.24	 3rd:  71.32

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig75

Genome size:  9609
Host's GC content:  61.93
Predicted Codon Position GC:  	1st:  64.99	 2nd:  43.42	 3rd:  72.49

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig76

Genome size:  12288
Host's GC content:  60.95
Predicted Codon Position GC:  	1st:  64.38	 2nd:  43.16	 3rd:  70.82

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig77

Genome size:  10190
Host's GC content:  63.24
Predicted Codon Position GC:  	1st:  65.79	 2nd:  43.77	 3rd:  74.70

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig78

Genome size:  14815
Host's GC content:  61.28
Predicted Codon Position GC:  	1st:  64.58	 2nd:  43.24	 3rd:  71.38

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig79

Genome size:  14527
Host's GC content:  63.01
Predicted Codon Position GC:  	1st:  65.65	 2nd:  43.71	 3rd:  74.31

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig80

Genome size:  14987
Host's GC content:  60.81
Predicted Codon Position GC:  	1st:  64.30	 2nd:  43.12	 3rd:  70.60

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig81

Genome size:  15990
Host's GC content:  62.12
Predicted Codon Position GC:  	1st:  65.10	 2nd:  43.47	 3rd:  72.81

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig82

Genome size:  11854
Host's GC content:  62.76
Predicted Codon Position GC:  	1st:  65.49	 2nd:  43.64	 3rd:  73.88

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig83

Genome size:  15067
Host's GC content:  61.11
Predicted Codon Position GC:  	1st:  64.48	 2nd:  43.20	 3rd:  71.09

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig84

Genome size:  17118
Host's GC content:  63.26
Predicted Codon Position GC:  	1st:  65.81	 2nd:  43.78	 3rd:  74.74

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig85

Genome size:  11833
Host's GC content:  64.13
Predicted Codon Position GC:  	1st:  66.34	 2nd:  44.01	 3rd:  76.20

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig86

Genome size:  17859
Host's GC content:  61.77
Predicted Codon Position GC:  	1st:  64.89	 2nd:  43.38	 3rd:  72.21

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig87

Genome size:  14688
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/acidobacteriumlc.txt
Sequence Header:  >Contig88

Genome size:  19586
Host's GC content:  61.10
Predicted Codon Position GC:  	1st:  64.48	 2nd:  43.20	 3rd:  71.08

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig89

Genome size:  14529
Host's GC content:  60.16
Predicted Codon Position GC:  	1st:  63.90	 2nd:  42.94	 3rd:  69.49

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig90

Genome size:  17455
Host's GC content:  63.01
Predicted Codon Position GC:  	1st:  65.65	 2nd:  43.71	 3rd:  74.32

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig91

Genome size:  17252
Host's GC content:  63.30
Predicted Codon Position GC:  	1st:  65.83	 2nd:  43.79	 3rd:  74.81

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig92

Genome size:  17963
Host's GC content:  63.62
Predicted Codon Position GC:  	1st:  66.03	 2nd:  43.88	 3rd:  75.34

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig93

Genome size:  22372
Host's GC content:  61.89
Predicted Codon Position GC:  	1st:  64.96	 2nd:  43.41	 3rd:  72.42

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig94

Genome size:  19596
Host's GC content:  61.98
Predicted Codon Position GC:  	1st:  65.02	 2nd:  43.44	 3rd:  72.57

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig95

Genome size:  20033
Host's GC content:  60.55
Predicted Codon Position GC:  	1st:  64.14	 2nd:  43.05	 3rd:  70.14

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig96

Genome size:  21902
Host's GC content:  61.68
Predicted Codon Position GC:  	1st:  64.83	 2nd:  43.35	 3rd:  72.06

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig97

Genome size:  28188
Host's GC content:  63.33
Predicted Codon Position GC:  	1st:  65.85	 2nd:  43.80	 3rd:  74.85

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig98

Genome size:  20318
Host's GC content:  62.75
Predicted Codon Position GC:  	1st:  65.49	 2nd:  43.64	 3rd:  73.87

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig99

Genome size:  18456
Host's GC content:  60.53
Predicted Codon Position GC:  	1st:  64.12	 2nd:  43.04	 3rd:  70.11

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig100

Genome size:  22220
Host's GC content:  61.94
Predicted Codon Position GC:  	1st:  64.99	 2nd:  43.42	 3rd:  72.50

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig101

Genome size:  20184
Host's GC content:  62.05
Predicted Codon Position GC:  	1st:  65.06	 2nd:  43.45	 3rd:  72.70

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig102

Genome size:  19969
Host's GC content:  61.95
Predicted Codon Position GC:  	1st:  65.00	 2nd:  43.43	 3rd:  72.51

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig103

Genome size:  26393
Host's GC content:  60.47
Predicted Codon Position GC:  	1st:  64.09	 2nd:  43.03	 3rd:  70.02

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig104

Genome size:  23366
Host's GC content:  62.54
Predicted Codon Position GC:  	1st:  65.36	 2nd:  43.58	 3rd:  73.51

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig105

Genome size:  32185
Host's GC content:  61.78
Predicted Codon Position GC:  	1st:  64.89	 2nd:  43.38	 3rd:  72.23

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig106

Genome size:  34013
Host's GC content:  61.30
Predicted Codon Position GC:  	1st:  64.60	 2nd:  43.25	 3rd:  71.42

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig107

Genome size:  29072
Host's GC content:  62.56
Predicted Codon Position GC:  	1st:  65.38	 2nd:  43.59	 3rd:  73.55

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig108

Genome size:  29872
Host's GC content:  62.62
Predicted Codon Position GC:  	1st:  65.41	 2nd:  43.61	 3rd:  73.66

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig109

Genome size:  29708
Host's GC content:  63.59
Predicted Codon Position GC:  	1st:  66.01	 2nd:  43.87	 3rd:  75.29

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig110

Genome size:  32352
Host's GC content:  60.99
Predicted Codon Position GC:  	1st:  64.41	 2nd:  43.17	 3rd:  70.90

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig111

Genome size:  27818
Host's GC content:  61.87
Predicted Codon Position GC:  	1st:  64.95	 2nd:  43.40	 3rd:  72.38

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig112

Genome size:  31475
Host's GC content:  61.40
Predicted Codon Position GC:  	1st:  64.66	 2nd:  43.28	 3rd:  71.59

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig113

Genome size:  32142
Host's GC content:  62.16
Predicted Codon Position GC:  	1st:  65.13	 2nd:  43.48	 3rd:  72.88

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig114

Genome size:  36613
Host's GC content:  61.95
Predicted Codon Position GC:  	1st:  65.00	 2nd:  43.43	 3rd:  72.52

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig115

Genome size:  30655
Host's GC content:  62.53
Predicted Codon Position GC:  	1st:  65.35	 2nd:  43.58	 3rd:  73.50

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig116

Genome size:  36485
Host's GC content:  62.63
Predicted Codon Position GC:  	1st:  65.42	 2nd:  43.61	 3rd:  73.67

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig117

Genome size:  35490
Host's GC content:  60.93
Predicted Codon Position GC:  	1st:  64.37	 2nd:  43.15	 3rd:  70.79

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig118

Genome size:  34412
Host's GC content:  62.57
Predicted Codon Position GC:  	1st:  65.38	 2nd:  43.60	 3rd:  73.58

 >PredictedProphage1 
 Length:   9759 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 63.78 	 64.60 	 68.93 	 59.32 	 65.54 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	3	0.0714285714285714
 Leu	TTA	0	0
 Leu	CTG	20	0.476190476190476
 Leu	CTA	3	0.0714285714285714
 Leu	CTT	6	0.142857142857143
 Leu	CTC	10	0.238095238095238
 Lys	AAG	7	0.5
 Lys	AAA	7	0.5
 Glu	GAG	13	0.619047619047619
 Glu	GAA	8	0.380952380952381
 Gln	CAG	10	0.555555555555556
 Gln	CAA	8	0.444444444444444
 End	TGA	1	1
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	10	0.666666666666667
 His	CAC	5	0.333333333333333
 Asn	AAT	6	0.5
 Asn	AAC	6	0.5
 Ser	AGT	1	0.024390243902439
 Ser	AGC	8	0.195121951219512
 Ser	TCG	13	0.317073170731707
 Ser	TCA	6	0.146341463414634
 Ser	TCT	4	0.0975609756097561
 Ser	TCC	9	0.219512195121951
 Trp	TGG	3	1
 Ala	GCG	34	0.548387096774194
 Ala	GCA	11	0.17741935483871
 Ala	GCT	6	0.0967741935483871
 Ala	GCC	11	0.17741935483871
 Arg	AGG	5	0.0666666666666667
 Arg	AGA	0	0
 Arg	CGG	15	0.2
 Arg	CGA	20	0.266666666666667
 Arg	CGT	6	0.08
 Arg	CGC	29	0.386666666666667
 Cys	TGT	4	0.285714285714286
 Cys	TGC	10	0.714285714285714
 Gly	GGG	13	0.282608695652174
 Gly	GGA	10	0.217391304347826
 Gly	GGT	8	0.173913043478261
 Gly	GGC	15	0.326086956521739
 Asp	GAT	9	0.75
 Asp	GAC	3	0.25
 Phe	TTT	4	0.4
 Phe	TTC	6	0.6
 Met	ATG	8	1
 Tyr	TAT	5	0.357142857142857
 Tyr	TAC	9	0.642857142857143
 Val	GTG	21	0.6
 Val	GTA	6	0.171428571428571
 Val	GTT	4	0.114285714285714
 Val	GTC	4	0.114285714285714
 Thr	ACG	10	0.4
 Thr	ACA	3	0.12
 Thr	ACT	5	0.2
 Thr	ACC	7	0.28
 Pro	CCG	20	0.416666666666667
 Pro	CCA	14	0.291666666666667
 Pro	CCT	4	0.0833333333333333
 Pro	CCC	10	0.208333333333333
 Ile	ATA	0	0
 Ile	ATT	4	0.266666666666667
 Ile	ATC	11	0.733333333333333
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 15432	15698	1	ref|NP_542281.1|unknown 	35.4bits(80)	0.38
 16994	17440	-1	ref|NP_892073.1|partitioning protein SpyB	36.2bits(82)	0.22
 21353	21622	1	ref|NP_958267.1|hypothetical protein	40.0bits(92)	0.015
 23117	23335	1	ref|NP_958267.1|hypothetical protein	36.2bits(82)	0.22
 24801	25190	-1	ref|NP_817472.1|gp22 	36.2bits(82)	0.22
 
 DNA sequence:
 TTTGCGGCGCAATCCTGCCGACGAGCCGCGACCGTAAGGGAGCGTCGAGCCCTCCGCGAATCCCATCGCTCCCCGGAGCGCCGGACAAACCCGAAATTCGTGGGGTTTTCGACCGTGCAGCCGGCTCGCCCCTCTGCGACTCGGCGACCCACCCTTGCAACTCCCCAGTGCCCAGGATTTCCCGCTCGCGCGCTCCATTCACTCACGCCAGTAAGGCACCGGCGCCGCCGGCCGGAAGCACTCTACCTCCTGCCACGTAACCGCTCCCTCCAAGACTCCGAACTCCCGCTCCACGATCGCGCGCAATTCCTCCGGCGACGCCAACGCCCGCACGTTCAACAAGATCTCATGCATCCGCGACGGCGACGCATCCAGCGACCCTTCCACTCGCGGCTCGCGACTGTTGCCCGTCAGCGCCGCCTTCAAATATCCCGCGTCGCACTGCGTGAACAATTTCAAATGGACGTTCCCGGGCACCTCCGCCGCGAGCCGGTCCAACAGCGGACCCACCAGCATCGCCGGCGATGTCGGTCGCGCCGCCCGCACCGTCGCGCGCCCGTTGAACCACGCCAGTGCCGCTTCCGCCGCCGCGTAGCGATCATAGTCGAGCGGGACGCGCCGCCCTCCTGCAGCGATTTTTCCCCCGAGCACTTCCGCCAGCCACTCCTCCGCATCCACGTCGCGCCCCACGACAATGTCTGCCTCCGCCACCTGGTGGTCGTACAGAAATCGCAGATCGTCGTTCTCAGGCCGCTCGTGTGCCACCACCGTCAATGGTGCGATGCGATATCGCCCCGGATAGTCGCGCAAAAGCGGGCGTAGCGTCGTCGCCGCGATATCGGTGCAACTCCCCACTGCCTCCGCGAAGATCACCTCGGGCTGTTGCGCCGCCACCCGCTCGATCGCCTCGATCAAATTCGGAAAGCGGCAGCAGAAGCATCCGCCGGTTACCTGGTCGGCCGCGACTCCGTGCGCCTCCACCAGCCGC!
 GTATCC
ACTAGCTCGCCGCCCTGGTCATTGAGGATCACGGCAGCGCGAACGCCCCGCTGCTGCAGCACGCGCGCCGCCGCCAGAATCAACGTCGTCTTCCCTGCCCCCAGAAAACCGCCCACCACCACGATCGCCGGCTTCACACGCGCAGCTCTTCCCCTTCCTTCAGCGTCCGGTTGGGTGTGCTGCGCTTGCCGTTCACCGTCACAATCCGGCACTCCAGCGTGCCGTGATCCACACGCAGCGTCGTTCCCGCCGCCGTCACGTGGAACGTCCCCCACCCGCTCGCGCTGGACCAGAAGCACCGGAAATCCGGGGGCGCCTGAATCGTCACCGACCGCTCGCCGCCGTGATAGCGGAACCCGCTCAGCGCCAGCACTCCGCTCCACGCCGCCATGGCGCGCGCGTAATGATGCCCGCACTCGGCTTCGTCCCACGGATTCCGCTTCTCTCCGTCATACCGCGCCCGAATATTTTCGATGCACTCGACGCCTTCGCGGGTCATTCCTGCATAAAGCATGTGCGTCGCCGCCGCGTACTCGAATCCCGTCATCACCTCGGCGTAATAGGGGAACGGAATTCGCGGCCGCTCTGCCTTCCCGTAATCGCAGATCACGATCGCCGCCTCGTCATTCAGCGCGAACGTGCGCTGCACCGTTTCGTGCGTCGCCATCGATCGCTTATAGTTGTACCGGTAGATCGATTGCAAAGTCTTGCGGATATTCTCCGGCGACACCAGCGGCCCCAGCCCCGCGACCTCGGCCATGTACTGCCCCACCAGTTGGTCCACCAGGCAGCCCGCGCCCACCTGGTATTGCGGATTCTCGGTATCATCGCTGCCCATCGTGCCGATGATCGCTTTCGCCACTTTGTCCTTCGCCACGCCGCGAATCTGCTGGATGTAATACTCGCCGTTGAACAGCTTGGCATCGATCCACTGACGTCCGCTCTCGAACAGCCGGCGATACTCCGCCGCCGATGCCGTATCGCCCACC!
 GCGCGCGCCATCTCTTCACCCGCGCGCAGCGCGCCCAGGTAATAAATCCCGCACATCGGATTGGGACCGTAGAACTCCACGTCGTACGTGTTGTGCTGTGCGCCTTCCAGCACGCCGTCGCGGTCGCCGTCCCAGCCGCCTGGAATCCACGCGAACTCGATCGCCTTCTTCACCCGAGGCCACATTTCGCGCAGCCATGCATCGTCGCCGCTGAGCGACCAGTCCAGGTACGCGTGCATGATCTGCCCCATCTGCCCGTCTGCCGCCGCATACCCCCAGCGATTCTCCGGATTGTGCGGCAGCGTCTCGCGGAACCGGATTGCGCCCGCGTCATCCAGGCTGTAGCCGAAACTCACGCCGCGCAGCGACCGCGCGAAACTCGGGAACAGGTGCGCTGTCGCGGTCTCGTAATTCCAGACGTGGGTGCAACTGCCGTGACAGCACCCGCCATGATCGTTCACGCCCTCCCAGCCGTGGAACTCGCCATCGGCTG
TGCGGAAACTCGTGGTGGTCACCAGCGTCGAAAGGTTCGCGATCGCCGCCTCCTTCACCACCGCCGGGAGCGTTGACTCTCTCAGCGCCGCCGCGAACCGCCGCGTCTTTTTCTCCAGCCTTTCCAGATTCGCCGCTGCGTACTCCGCCGCCGCCCAAGCGTCCGCGAAGCGCGCGCAATAGTGATTGCCGATCAGCGTGTCTTCCTCGCCTTTCGTTGACGACCAGCCGATCCGCCGCGGCGTACGATTTGGGAAATGCCACGCCAGCAGAAACGGGAAGTCCGCATGCCCGCCCGCCGCGATCGTGCGCTGCACGCAAAGCGCGCCCACCGCGTTCATCTTCGCCGCCTCGGGACCGAGTTCGCCGTCGGCCGAAAAATCGTCCCAGTAGAGCATCGGTGAATTCCACCACCGCCCTTGCTCCCAGCCGCGCAGGTGCGTCACGCGCGCGCCCGCCGTCCCCATGGCGGCCAGCGCGAAGCTTCCCTTCAGCGCATCCGCCGCCGGCAGTTCGGCATTCGTCATCATCAAACCCGCGAGCCCGCCTGCCTCGCGGTACTCGTTCGTCCGCGTGTCCGCCGCTTGCGTGCGTCCTACCGGGCTATCGATCGACCACGCGATCGAGACCTTTGCCGCTGCCGCGCCCGGATTGCTCACCCGGTATCGCAGTACGGCCACCGGCAGCCCCGAGTCATCCGGCTCGTGCGGGATGAACGGAGTGAACGCCTCCAGCGACACTTTTACCGGCAGCGCCGCGTCCGTGAAATCGATGCGCGCCAGCGGAAATTCGCCGGTGAACGTCGCCCCTGCGAGCCGCACCAGTCCGGGAGCGCTTCGCGTGCCCAATCCATTCTGCCCTTCGTACGGCGGCTGGATGCGCGATTCCAATACGCGCGCCACCGGCTTGCGCGCGCCGCTCTGCACCCAGATTGCCGGGAATGCGTAGCTCGGGGCATTGCCCTTGTCCGAACGATTGAAGATCTCCCAA!
 TCGCGC
AGTTGCCCGCGGCCGCCCAGCGAGATCGAGCCCGCGCACACGCCGCCGAGCGGGAACGCGATCGCCGTCAGCTTCCGCCCCGAAAATACTCGCGGATACCCGGCCTCGATCGGCGTGTTCGCTCCAACGCCCACCTGTGTTGCCACGCCCGCCGCCGCCACTTGTTGAAGAAACGTTCGTCGCTTGGACATATTTCGCGTTCCTAATATATCCCCGTGGCACTCGACGTGCATCTCTGGAGTCGATGCCTCTAGCGGACCAGGTACTCTGGCTCTTCGTCCTTGCTATACCCATTGCCAGCGTCGCCTGGACGATAACACACGAAGAGATCTTCCGCGAAGCTCGCGAATATTGCACGGAGTGCAGCAAGAATTGCAGGAATGTGGTCCAACGCAAATTCTTCTATGTCTTCACCTGTGAGTACTGCCTTAGCCACTGGGTCGCGCTTTTCTTCGTCCTGTTCACCGGATTTCGATTGCTGCTTTCCGACCTGCGCGGCATCCTGATCGGTTTGTTCGCCCTGGTCTGGGTGGCCAACATCTACATGAGCATCTTCGGCCGCCTGCGTCTTGGCATCAAATCCGAGCGCAAGGAAATCGAGATCAAAGAAGAGGTGCTTGCGCGTCACGGCTGAGAGTTGAATCATGAGTGAGCCGCCCGGCAAGCCAGGTGCGCACCACTTCAACATCACCCGCGGCGGTCAGGCGAAACTCCACCTTGTCCTCCGGGTGTACCGCAACCTTGCCGGCCCGCGCCGCATTTTCGGTCGCCATCCGGACCGCCTCGTCCAGCGTTAACCCGGCCAGTCGCATCACGTTTGCCACGCCGCGATTCATGCTCAATGCGCTTCCCGCCAAGCGGTCGGTCCCGGCCAGCACCACGCGCCCGTCCTGCGTCAATTCCACTGCCTGATCGGCGAGCAGATAGCGGCCCGGAACTGCGCCCGCCGGTGTTGCCGCATCCGTCACCAGCACCGCACGCTCGAGCCC!
 CTTGGCGCGGATCGCCGCCTTCAGAAACGACGCGCCAAGATGAATGCCGTCCACGATGAAGCCC
GCCATCAGACGGTCCTCCGCCAGTTGTTCCCAGATGTAGTTCGGATGCCGTCGCAGCAACTGATGGGCTCCATTCCCCAGGTGCGTGGATAGCGTCGCACCCGCCGCCACGGCCTCCGCAATCTGCTCCGCGCTCGCCTGCGTGTGCCCGATCGACGCCACCACTCCCTGCGCTGTGATGTGTTCGATGTAGCGCGCGGCGCCGGGCCACTCCGGCGAGAGCGTGATAATCCGGATCGCGCCGCCGGCCGCTTCCTGCCAGCGCGCGAACTCGCCCGCGTCCGGCGGGCGCACCCATTGCCGCGGGTGTGCGCCACGCGGTCCATCCTCCGGCGAGATGTGCGGGCCCTCCACGTGGAATCCCGCCATGGCCTCACCCTCGGGCAGCGCCGCCTGCGCCGCCGCCAGGTTGCGCAGGCACGCAGCCATCTCATCCGGCGCTCCCGTGATCACCGTGGGATAGAGCCGCGTCACGCCGGCCGCGAACTGGGCTCGCAGCGATCGTCCGATTTCTTCCATCGAACTTCGCGGATGGTTGTAGTCCACGCCCGCAAATCCATTCACTTGCAGGTCCACGAAGCCGGGCGAGGAATAACTCCCGGAACAATTCAAGGTGGTCATGATTTATTCACAAGTTTGCCACACACTCGCACTTGTAAGTGCATGTTTTCAGGCGGCAAAAAAGGTGTGCAAAAGGCGAAATTCACTCTGGCGCTAACACCCCCGGGGGCGCTACAAAAGGAGAGTCCTTTAGGCGACTGCGCAGCCAGGATGGCAAATCTCGGGGGAGGTAGTCATTCTGGTCGCGCAGTTCAGCCGGGGCGTCCTCCATTCCCTCCTGTATTTTAAGGGCCGGTGTCTCCGGCCCCAGGAGCATTGCCAACGCTTACGCGTTAGCAGCGGCGTGTACGTGCGAGAGCCAGCCGTACGTATCCTTCTTAGTGCCGTTGATCACTCCGAAGAATTCCTTCTGCAACTGCTCCGCGATGG!
 GTCCGC
GCCGTCCGTTGCCGATCGTGATCCGGTCGATCGACCGGATCGGCGTGATCTCAGCCGCCGTCCCGCTGAAGAATACTTCGTCGGCGATGTACAGCAGTTCCCGCGGAATGATCGTCTCTACAACCGGGATTCCCGCGTCCCGCGCCAGCGTCAGGATGGCGTCGCGCGTGATTCCCGGCAACACGCTCGCCCCCAGCGGCGGAGTGTGGATCTTGCCATCGCGTACCAGGAAGATGTTCTCGCCCGAGCCTTCGCTCACGTAGCCCGTCACATCCAGCGCGATCCCTTCCGCATACCCGTTGGTGATCGCCTCCATCTTCATGAGCTGCGAATTCATGTAATTCGCGCCCGCCTTGGCCAGCGCAGGCAGCGTGTTCGGCGCCATCCGGTTCCAGCTGGAAACGCAAACATCCACGCCTTCCGCCAGCGCTTCCTCGCCCAGATACTTGCCCCAGCTCCAGCATGCGATGTACACATCGATCGGGTTCTTCATGCCGTTCACCCCGATATCGCCATATCCGCGCATCACGATCGGCCGGATGTAACAGGCATCCATTTTGTTCACCCGCACCACTTCCAGCATCGCGTCCGCGAGTTCCGCGGCGCTGAAACCGAGGTTGTCCATCCGGTAAATCTTGGCCGAATCCGTCATCCGGCGCACATGCTCGCGCAGCCGGAATACCGCCGGTCCGCTCGGCGTCGAATAACACCGAATGCCCTCGAATACGCTGCTGCCGTAACTCACTACATGCGACAGTACGTGAATGGTCGCCTCCTGCCATGCAATGAGGCGGCCGTTATGCCAGATCTTTTCAGTGGGCGTCAACATGGATCGATTATAACTTGGGCGGTCCCGCCGCTGTCCCGGCTCAGAAAAACTTCACATCCTGCATCGGGTAGCGCTTCCGATTTCGCGTCCAAAGCAAGGCACTCCGCGACACAGCACCAGCGGCGATCAGCGCATCGCCGAGTTCTACGCTGTGGCTCTT!
 CCGGAATCGCCTGAGATAATCGCCCGCCTGCCGTCCAGTCTCCGCTTCTACCGGGATACAGGTG
AGTGCGTTGAACAACGTGTGCAGGACTTCGTATACGGCGGGACGCGCGCCTGCCCACAACTCCGCGGCACTAACCGGAGAATACATCACCCCGTGCTCGGATCTGCTCAAGTCCGACCACCTGGAGATCAGCGCAGCACCCTTGCCGCGGGAAACCTCGATCAGGATGTCTGAATCGCCTAGAAGCTGCTACCGCGGCGAAGTTTGCGTACAGTTTCCACGGCATCTTCCTTCGTTCGAACTCCCTTCCGAATCCCGACGAAGGCCTGCATCGCCTCCTTCCGCTCTTCGATCTTCCCCATGTAGAGTTCACGGACCGCTTCTCGAACTAACTGGGAGATCGTTGTCTTTTCGCTCTTTGCTCGCGCATGGAGCGCGCTCCAAAGAGCTTCATCGAGGTACAGCTGAGTCCGCCGCATGATGTATGTTGTACATCGTCGCCAAAGATGGGACCGGCAGTGCCTGGTCCCATCCTCTCACCGGCATCAATATGGAAAAATAATTGTATGCCCCGGGGGATCCCAACCATGTTGCTTCGCAACTGCGCCGTTGGCCTTCTTGCAATTGCCCTTGCCACGCCCGCCCCGGCCGCCCGGCGGCCCGGAGATCCGCTCAAACCCGGCTTTAACCTCTTCACCAAAGAAGACGACATCTCCGTCGGTAAAGAGAACGCCAGGCAAGTGCTCGCTCAATACGACGTAGTCAAGAATCAGTTCCTCCAGGATTACGTCAATCGCATCGGCAAGAAGCTCGCCGCGGCCCCCGAAGCGGAGAAGAGCGGCTTTCAGTTCACCTTCACCGTCCTCAATGTCGATGAGATCAACGCTTTCGCCCTCCCCGGCGGCCCCATGTTCATCTATACCGGGCTCCTCAAAGCCATCGACAACGAGGCCCAGCTCGCCGGCGTCATGGGCCACGAGATGTCCCACGTGATTCTGCGCCAGGGCACTCACGAAGCCACCAAAGCCAACGGCGTCCAAATCCTCGCCG!
 GAGGTC
TCGCGACCTTGCTCGGCGGCGGCAAACTCGTCCAGGCAGGCCTCGGCCTCACCGCCAATTCCTTCGTCCTCAAATTCTCTCGCGATGCCGAAAGCGAAGCCGACGCGCTAGGCTCCCACCTGATGGCCGAATCCGGCTACGACCCGGTCCAGATGGCGAAGTTCTTCGAGAAGCTTGCAGCCGGGGGCGAACGCATGCCGCAAATTCTCTCCGACCATCCCAATCCCGGCAATCGCGAGGCTGCCATTGCCGCCGAGATGCACACCCTGCCGGTCCGCAAGTACGGCTACGAGTCCGGCCAGTTCCAGCGCATGAAAAAGGAACTCGCCGCCCTCCCTCCGCCCGTCAAGAAAGCTGCCCCCCAACGATCGTCCCCGGCGGCAACGTTCCCGCCTCTCCCGCCAACTCCGGGTGGAAGGAATACCATGCCCCGGCATTCACCCTCAGCTATCCCGAAGGCTGGCAGCCCTTAGGCGGTGACAACGGAGCCGACGTCACTTTCGCCCCAAAAGACGGCGTCGTCACCCGTGCCGGCAAAAGCCAAATCGGCTTCGGCGCTGTCGCAGGAATCTTTTCACCGCAAAAAACTCGCACCGATCTCCGGGCCGCCACCGAGGACCTGATCCGCAAAGTCAAATCCGAAAATCCCCAGCTCGCAATCGTTACCGCGGCGCAGTCGGCCAGCGCCGGCAATGCCTCCGCGCTGCTCACAAACTTGAAAGAGGATTCACCCTTCGGCGGATCAGAAATCGATACGCTGCTTACCGTCTCCCGTCCGCAAGGTCTCTTCTTCCTCATCTGGATCACGCCGGAGGCAGACCACGCCCGTGTCCAGCCCAGCTTCGACCAGATGTCCGCCTCACTGAAATTCCCGTAGGACAGGCGTCGCAGCCTGGCCACTAGTCAGGTGTTCGTCACTCGTGCCGCAGCGCCGTCATCGGGTCCACGAGCGAGGCTCGCCGCGCCGGCAGCCACGCCGCCGCGATCGC!
 CGCCGCGCCCAGCACCGCCGCGGCTACCGCAAACACCGCCGGCTCCTGCGCCGTGATCCCGAAG
AGCATCTCTCTCGCCAGCCCCGTCAACGTCAGCGCCGCCGCCGCGCCAATCGCGCAACCCACAAACATCATCCCCGCCGCCTCGCGCAGCACCATCAGCACGATGTTGCCCCGCAGCGCTCCCAAGGCCATCCGCAGCCCGATCTCATTCGTCCGCCGCGACACCTGGAACGCCGTCACGCCGAAAATCCCCAGACACGCCACCGTCAGAGCCAGCAGCCCGAATAGACCACCCAGGATCGCCATAATCCGCTCCGTCACGATCGTGCCATCTACGAACGCCGCGAAGCTCTGCGGCCGCACCACGCGCAGTCCGGGGTCCGCCTCGCGCAGCACCCGGTCCAGCAAGGGAGCCAGCCGCATCGGGTCGCCGCGCTCCACCCGCGCCAGGAAACTGTAATTGCGCGGTTGCTCGCCTTCACTCTGCCTCCACGGAACGTACAGCGTTCGCGCCACATCGTGACGCAGGCTTGTTCTCACATCCTGCACCACGCCGACGATTTCGTACGCCACGCTCGCCGAAGTCACGCGCCGCCCCAATGCAGGCTCCCCGCCGAAGAAATAGCGCGCAAAACTCTCGTTCACAATCGCCACCCGCCGCCCGCCGTCCGCATCCCGCTCTTCGAATTCCCTGCCCGCCGCAACCGGCGTCCCCACGGTCGCGAAGAACCGCGGCGCGATCACGTTGAATTCGACTTCCTCGTTTTCGTCGGCGCGAAACTTATAGCCTTCCACCTGCACTGCCCGCGTCCATCCCCCACCTCCCATCGGAATCCCCGACGCCGCGCTCGCCACCGTAACACCCGGCAGCGCGGCCAGCCGCTCCACCACCGCCGCTTGTACCGCGCGCCCGCGGGCCGGTAGATAGGGAGCCATGTATTTCACGCCGAAGGTCAGCACTCCTTCCGTCCGGACGCCGCGCTCCGCGCTGTACAGCTTTACCAGGGTGCCCACGAAGAGTGTCGCCCCTACCAGCAGCACCATCGAAAT!
 CGAAAG
CTGCGCGATCACCAGGGCCCTGCTGAGCCTGCGGTGGCCTCCTCCGCGCGTCTGCTTCAACCCCGGATTCAGACTCACACGCAACGCGTGCAGCCCCGGAGCGAGTCCGGCCCCCACGCAGACCGCCAGCGAGAGCAGCGCGGT 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 TTTGCGGCGCAATCCTGCCGACGAGCCGCGACCGTAAGGGAGCGTCGAGCCCTCCGCGAATCCCATCGCTCCCCGGAGCGCCGGACAAACCCGAAATTCGTGGGGTTTTCGACCGTGCAGCCGGCTCGCCCCTCTGCGACTCGGCGACCCACCCTTGCAACTCCCCAGTGCCCAGGATTTCCCGCTCGCGCGCTCCATTCACTCACGCCAGTAAGGCACCGGCGCCGCCGGCCGGAAGCACTCTACCTCCTGCCACGTAACCGCTCC 
 >PredictedProphage1 -Hit 2 
 CGCGCGGGTGAAGAGATGGCGCGCGCGGTGGGCGATACGGCATCGGCGGCGGAGTATCGCCGGCTGTTCGAGAGCGGACGTCAGTGGATCGATGCCAAGCTGTTCAACGGCGAGTATTACATCCAGCAGATTCGCGGCGTGGCGAAGGACAAAGTGGCGAAAGCGATCATCGGCACGATGGGCAGCGATGATACCGAGAATCCGCAATACCAGGTGGGCGCGGGCTGCCTGGTGGACCAACTGGTGGGGCAGTACATGGCCGAGGTCGCGGGGCTGGGGCCGCTGGTGTCGCCGGAGAATATCCGCAAGACTTTGCAATCGATCTACCGGTACAACTATAAGCGATCGATGGCGACGCACGAAACGGTGCAGCGCACGTTCGCGCTGAATGACGAGGCGGCGATCGTGATCTGCGATTACGGGAAGGCAGAGCGGCCGCGAATTCCG 
 >PredictedProphage1 -Hit 3 
 CGCAAACATCCACGCCTTCCGCCAGCGCTTCCTCGCCCAGATACTTGCCCCAGCTCCAGCATGCGATGTACACATCGATCGGGTTCTTCATGCCGTTCACCCCGATATCGCCATATCCGCGCATCACGATCGGCCGGATGTAACAGGCATCCATTTTGTTCACCCGCACCACTTCCAGCATCGCGTCCGCGAGTTCCGCGGCGCTGAAACCGAGGTTGTCCATCCGGTAAATCTTGGCCGAATCCGTCATCCGGCGCACATGCTCGCGCA 
 >PredictedProphage1 -Hit 4 
 CCTGATGGCCGAATCCGGCTACGACCCGGTCCAGATGGCGAAGTTCTTCGAGAAGCTTGCAGCCGGGGGCGAACGCATGCCGCAAATTCTCTCCGACCATCCCAATCCCGGCAATCGCGAGGCTGCCATTGCCGCCGAGATGCACACCCTGCCGGTCCGCAAGTACGGCTACGAGTCCGGCCAGTTCCAGCGCATGAAAAAGGAACTCGCCGCCCTCCC 
 >PredictedProphage1 -Hit 5 
 ACCGCGCTGCTCTCGCTGGCGGTCTGCGTGGGGGCCGGACTCGCTCCGGGGCTGCACGCGTTGCGTGTGAGTCTGAATCCGGGGTTGAAGCAGACGCGCGGAGGAGGCCACCGCAGGCTCAGCAGGGCCCTGGTGATCGCGCAGCTTTCGATTTCGATGGTGCTGCTGGTAGGGGCGACACTCTTCGTGGGCACCCTGGTAAAGCTGTACAGCGCGGAGCGCGGCGTCCGGACGGAAGGAGTGCTGACCTTCGGCGTGAAATACATGGCTCCCTATCTACCGGCCCGCGGGCGCGCGGTACAAGCGGCGGTGGTGGAGCGGCTGGCCGCGCTGCCGGGTGTTACGGTGGCGAGCGCGGCGTCGGGGATTCCGATGGGAGGTGGGGGATGG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 FAAQSCRRAATVRERRALRESHRSPERRTNPKFVGFSTVQPARPSATRRPTLATPQCPGFPARALHSLTPVRHRRRRPEALYLLPRNRS 
 >PredictedProphage1 -Hit 2 
 RAGEEMARAVGDTASAAEYRRLFESGRQWIDAKLFNGEYYIQQIRGVAKDKVAKAIIGTMGSDDTENPQYQVGAGCLVDQLVGQYMAEVAGLGPLVSPENIRKTLQSIYRYNYKRSMATHETVQRTFALNDEAAIVICDYGKAERPRIP 
 >PredictedProphage1 -Hit 3 
 RKHPRLPPALPRPDTCPSSSMRCTHRSGSSCRSPRYRHIRASRSAGCNRHPFCSPAPLPASRPRVPRR_NRGCPSGKSWPNPSSGAHARA 
 >PredictedProphage1 -Hit 4 
 PDGRIRLRPGPDGEVLREACSRGRTHAANSLRPSQSRQSRGCHCRRDAHPAGPQVRLRVRPVPAHEKGTRRPP 
 >PredictedProphage1 -Hit 5 
 TALLSLAVCVGAGLAPGLHALRVSLNPGLKQTRGGGHRRLSRALVIAQLSISMVLLVGATLFVGTLVKLYSAERGVRTEGVLTFGVKYMAPYLPARGRAVQAAVVERLAALPGVTVASAASGIPMGGGGW 
 



Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig119

Genome size:  35737
Host's GC content:  63.28
Predicted Codon Position GC:  	1st:  65.82	 2nd:  43.79	 3rd:  74.78

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig120

Genome size:  32401
Host's GC content:  60.79
Predicted Codon Position GC:  	1st:  64.28	 2nd:  43.11	 3rd:  70.55

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig121

Genome size:  39157
Host's GC content:  62.12
Predicted Codon Position GC:  	1st:  65.10	 2nd:  43.47	 3rd:  72.81

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig122

Genome size:  36521
Host's GC content:  61.26
Predicted Codon Position GC:  	1st:  64.57	 2nd:  43.24	 3rd:  71.34

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig123

Genome size:  35132
Host's GC content:  62.53
Predicted Codon Position GC:  	1st:  65.36	 2nd:  43.58	 3rd:  73.50

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig124

Genome size:  41494
Host's GC content:  61.31
Predicted Codon Position GC:  	1st:  64.61	 2nd:  43.26	 3rd:  71.44

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig125

Genome size:  41406
Host's GC content:  62.38
Predicted Codon Position GC:  	1st:  65.26	 2nd:  43.54	 3rd:  73.24

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig126

Genome size:  35774
Host's GC content:  62.52
Predicted Codon Position GC:  	1st:  65.35	 2nd:  43.58	 3rd:  73.48

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig127

Genome size:  42341
Host's GC content:  62.00
Predicted Codon Position GC:  	1st:  65.03	 2nd:  43.44	 3rd:  72.60

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig128

Genome size:  45818
Host's GC content:  61.94
Predicted Codon Position GC:  	1st:  64.99	 2nd:  43.42	 3rd:  72.51

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig129

Genome size:  47137
Host's GC content:  61.61
Predicted Codon Position GC:  	1st:  64.79	 2nd:  43.34	 3rd:  71.95

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig130

Genome size:  42798
Host's GC content:  61.58
Predicted Codon Position GC:  	1st:  64.77	 2nd:  43.33	 3rd:  71.89

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig131

Genome size:  42968
Host's GC content:  61.15
Predicted Codon Position GC:  	1st:  64.51	 2nd:  43.21	 3rd:  71.17

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig132

Genome size:  46070
Host's GC content:  62.05
Predicted Codon Position GC:  	1st:  65.06	 2nd:  43.45	 3rd:  72.69

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig133

Genome size:  43788
Host's GC content:  62.68
Predicted Codon Position GC:  	1st:  65.45	 2nd:  43.62	 3rd:  73.76

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig134

Genome size:  53223
Host's GC content:  60.88
Predicted Codon Position GC:  	1st:  64.34	 2nd:  43.14	 3rd:  70.71

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig135

Genome size:  51305
Host's GC content:  63.00
Predicted Codon Position GC:  	1st:  65.64	 2nd:  43.71	 3rd:  74.29

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig136

Genome size:  52491
Host's GC content:  61.85
Predicted Codon Position GC:  	1st:  64.94	 2nd:  43.40	 3rd:  72.35

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig137

Genome size:  51184
Host's GC content:  62.44
Predicted Codon Position GC:  	1st:  65.30	 2nd:  43.56	 3rd:  73.34

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig138

Genome size:  50541
Host's GC content:  61.48
Predicted Codon Position GC:  	1st:  64.71	 2nd:  43.30	 3rd:  71.73

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig139

Genome size:  50850
Host's GC content:  61.94
Predicted Codon Position GC:  	1st:  65.00	 2nd:  43.43	 3rd:  72.51

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig140

Genome size:  59223
Host's GC content:  62.52
Predicted Codon Position GC:  	1st:  65.35	 2nd:  43.58	 3rd:  73.49

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig141

Genome size:  47710
Host's GC content:  62.48
Predicted Codon Position GC:  	1st:  65.33	 2nd:  43.57	 3rd:  73.42

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig142

Genome size:  52368
Host's GC content:  58.53
Predicted Codon Position GC:  	1st:  62.89	 2nd:  42.50	 3rd:  66.73

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig143

Genome size:  67293
Host's GC content:  61.58
Predicted Codon Position GC:  	1st:  64.77	 2nd:  43.33	 3rd:  71.89

 >PredictedProphage1 
 Length:   8585 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 62.45 	 63.76 	 68.34 	 47.07 	 75.87 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	4	0.0677966101694915
 Leu	TTA	0	0
 Leu	CTG	25	0.423728813559322
 Leu	CTA	2	0.0338983050847458
 Leu	CTT	12	0.203389830508475
 Leu	CTC	16	0.271186440677966
 Lys	AAG	29	0.828571428571429
 Lys	AAA	6	0.171428571428571
 Glu	GAG	29	0.659090909090909
 Glu	GAA	15	0.340909090909091
 Gln	CAG	23	0.696969696969697
 Gln	CAA	10	0.303030303030303
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	9	0.428571428571429
 His	CAC	12	0.571428571428571
 Asn	AAT	14	0.424242424242424
 Asn	AAC	19	0.575757575757576
 Ser	AGT	4	0.0816326530612245
 Ser	AGC	19	0.387755102040816
 Ser	TCG	19	0.387755102040816
 Ser	TCA	1	0.0204081632653061
 Ser	TCT	2	0.0408163265306122
 Ser	TCC	4	0.0816326530612245
 Trp	TGG	13	1
 Arg	AGG	4	0.0666666666666667
 Arg	AGA	1	0.0166666666666667
 Arg	CGG	26	0.433333333333333
 Arg	CGA	0	0
 Arg	CGT	0	0
 Arg	CGC	29	0.483333333333333
 Ala	GCG	50	0.555555555555556
 Ala	GCA	9	0.1
 Ala	GCT	9	0.1
 Ala	GCC	22	0.244444444444444
 Cys	TGT	3	0.6
 Cys	TGC	2	0.4
 Asp	GAT	27	0.397058823529412
 Asp	GAC	41	0.602941176470588
 Gly	GGG	31	0.289719626168224
 Gly	GGA	14	0.130841121495327
 Gly	GGT	16	0.149532710280374
 Gly	GGC	46	0.429906542056075
 Phe	TTT	11	0.407407407407407
 Phe	TTC	16	0.592592592592593
 Tyr	TAT	6	0.315789473684211
 Tyr	TAC	13	0.684210526315789
 Met	ATG	16	1
 Val	GTG	36	0.610169491525424
 Val	GTA	8	0.135593220338983
 Val	GTT	4	0.0677966101694915
 Val	GTC	11	0.186440677966102
 Thr	ACG	24	0.8
 Thr	ACA	1	0.0333333333333333
 Thr	ACT	0	0
 Thr	ACC	5	0.166666666666667
 Pro	CCG	23	0.575
 Pro	CCA	7	0.175
 Pro	CCT	3	0.075
 Pro	CCC	7	0.175
 Ile	ATA	2	0.0689655172413793
 Ile	ATT	6	0.206896551724138
 Ile	ATC	21	0.724137931034483
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 42815	42994	-1	ref|NP_570367.1|collagen alpha 1(I) chain precursor	36.6bits(83)	0.32
 45199	45690	-1	ref|NP_835731.1|similar to RNA polymerase ECF-type sigma factor	41.6bits(96)	0.010
 46381	46905	-1	ref|YP_024980.1|major tail subunit	37.7bits(86)	0.14
 48535	48915	-1	ref|NP_071830.1|putative tail protein	38.1bits(87)	0.11
 50467	51399	-1	ref|YP_053021.1|hypothetical protein	39.3bits(90)	0.049
 
 DNA sequence:
 CGAGCGATCTCCACCAGCGCCTTCGCGTTGCGCTGCGACATCAGGCTGTCCAGGATGCGCTGCTTCATCTGCTGATCCTGCTCCGCGTTGTACACCGTTACCAGAGCCTCCGCGCTGACCAGGCCGGGACGCTGGGAGCCTAGCGCCTGCATCGCCGCCATCCTCACTTTGGGGTCCTTCTCATTGCGCACCACTTCCAGGAGCTTGTCGGCATTCGAGTTGGAGTGCATGTAGCGCAGCAGCAGGATCTTGCCTTCCGGCGTCGTCTCCGCCTGGTAAAGCTGCCACAGTTCCGGATTGCCCTGCGCCTCGCCCAGGTAGCTGTACGCGATCTCGCGCAATTCCGGCGCCTTCTCGGTCTTAGCCGCCTGCAGCAGCCGGTCCTTGTCCCGATTGTTCATATACGCCTGGAGAACCGCGCGCTTCACCGCCAGGTCCGACGTGGACGCGTAAATCTCCGAGAGAATCTGCGAGTTGCCCGCGCGCCGCCGTTCCGTCATGTACGTGATTGCCTTCACCTGGAGGTCGGGATTGGCGCCGCCGCGCGCAATCTGTTCGATCATGGTCTGCGCCTTCGGAGAATTGCTCTGCGCCAGCACGAACAGCGCATTGCGTTTCACGCGCGGTGACGCCGACCCCTTCAACTGCCGTTCCAGCAGCGGCATCGCGCGCTCCGGATCGCTTTGCATCAGGCCGTTGATCGCCATCAGCTTCAGCTCTTCATCGCTCTCGCTCTCCGGCGACACGTTCTGCCCTGACGCCTGCTTGAGTTCGAGCTCCAGTGCTTTGGCATCGTCCAGCCACCGGCTGCTCGCGAAACGGCTGCGAAGCTCCGCGATCGCCGCCAGACCCTCGTCGCGCTTCCCCAGCTTGCCCAGCGCGTATGCCTTCCAGTAGAGCGCTCCATCGGCTCGCGGACTGTTGCGCGTCACCACTTCGCTGAAATAGCCGAGCGCCTGGTCCCACTGGCGATTGTCCAACGCGCTCT!
 GCCCGCTGCTATACAGCCGGTCGTCGCCC
ATATTGGTCAGCTTGCGCATTGCCGCTGGCGCCGGCATAGGCTTCGGCCCACCGTATCCGATACCCTGCCCCGACCCCACTTGCGGGGCAAACGCCAGGTTCATCCGCGCGCTGTCCGCCATCGCAAATGCCTTCGAGCGCATTTCATCGGCGTCGAACTTGAAGCTCTGTGCTATCTCCTTGGCGCGCTGAATCTGATCCTGGAGGTCGAAGTCCAGCTCGAAATTCTCCCGCGCCTTTAAGGCCATCGCCATCGGCGCATCCAGGTCGAATTCCATTGGGGGCATGGGCGGCATCGGTGCCATCGCCGGCATTGGCGGCATCGGAGCCATAGGTGCCACCGGCGCTATTGCAGCCGGCGCCGGCACGGGCGCGGCCGGGGGAACCGGTGGCGTCGGCGCCTGATCCAAGTAGTCGGCCGCCCTCGCCGCGTACGCGCGCGGCGCGGCCGGCGGCGCCGGAGCTGCCGGCGGTGTCTGCGCCATCGCCAGGGCAGCCGTGGCCGCTAGCGGGCAGATCGTTTTAAATATTCGAGAGTAGGTCATGTTCTTTCCTTTTAAAGTGTTCGTCCCGCCGTCTTTGCGGCCGGTACATCCTGGTTCCGGACGTTGGATCCCAGTACCCGGATTTTGAAGAGAATGCCTTCGGCTTCCAGCCTCTGGCGCAATTCCTGCAACTGCCGCGGGCTGATGTTCGATGGCGCATGCGTGATATCCACCAGCACGCGCTCCAGTTCGTCCAGCACGCCCGTGATCTGCGTGTCGCCCGTGTGCTCCGCCGTCTGCCGGTAGAGCCGTGTCTCCGTGACCAGGTCGCCGGCGCGCTCCTGTTCGCTCGAAATATCCATCGCGGCCTTTGGGTTGGCATTGGCCAGTTCGATCAACACCATCTGCGACCGCTCCAGATAATCTCCCACCGCCACCAGCAGCACCCGCTGGCCTGCCTGCGCGTCCACTGCCGCCACCTGCGCCGGCTTGTGACCTCCCGGA!
 TAGATC
CGTCCCGCGAAGAAGGCCGCCAACATCATGGCCGCGCACGCCGCACTCGCCGCCGCCCAGCGCCATCCGCTCGCCACTGCGAACCAGCTCCTGCGCCGCGCTGGAATGCGATGCTCAATGCGCTTCCATACCTGCGCGCCATAATCGGCAGCGCGCTCCGGCACCGGCAGCGAATCCACCACGTTCAACACGCGCTGCAGCGATCCATACAGCCCACGGCAATCGCTGCACGCTTCCAGGTGCTGCTCCATCGCCAGGGTGTCGCCGCCTTCACCAGCCTCCCCGGCCTCGCCGTAGTAATGCAAAATCAGTTGTTCTTCGCTCAGGTGATTCATCATGCTTGACTCAACGCGCTGCGCTCATATGGGGCTCCAAAGCCCTTCTCAATTTCTGCACCGCGCGAAATACGCTGTGCTTGGCCGCGCCCGGCTGACAGCCAAGCACGCGGCTCACGTCTTCAATACACATGCCTTCGAAATGGCGGAGCACAAATGCCGTCCGCTCCGAAGCGCTCAGTTCGTTCATCGCGTCCGCGACCCGCTCCCGGACCTGGCCGCTCATCGCCATGCGGTCCGGCGTCGGATCCTTAGAGGGCAGCAGCAGTACTGGGTCTTCCATCTCCGAATCCTCCGGCGCCATATGCTCGTTGCGCCGCTTGCGCGAGCGCACCAGGTCCAGCGAGCAGTTCACCGCGATCCGGTATAGCCACGTTCCAAAACTGGCGCGTTCGTCGAACTTGGCGAGTTGTTTGTACGCGCGTAGAAAACTCTCCTGCACTACATCCTCGCCGTCCTGTTGATTCCCGGTCATCCGAAATGCAAGCCGGAAAAGGGCGCGGCTGTGCCGCTCCACAAGCACCCGGAACGCGTCGGTGTCCCCCGCTCGCGCCCTGGTCACATACTCTAGATCGGTACATTCCATCCGGCTGTTCTTTAGACTGCAAGTCTTTCCCCCGGTTAGCAAGCCCCCCTTAACCCCAATCCCACCAG!
 CCCGAAGTCTCTTCCTTTGCGCTTCCTTTGCGGCTTTGCGAGAAATTCTTCCCCTCCGCTAAAA
CGGATCCCCCTCCCCCGTGCCAGCGCCGTCTTTCCCTTCCTGGATCTTGGCGAGACGTTGCGCATCCCCTCTCCCCTGGCATACCCTGTGAGAGCAATGGAAGCTAACCGTCGTCAAATCTTCACCGCGCTCCTCGCCGCTGCCGCCGCCCGTAAACTCACCGCGGCCGACGGGGTCACGATCCCCGGCAAGCGCCCCCTGATCCTCCACAACGACCGCCCCGAGGACCTCGAAACCCCCGTCCGGTACCTCAATACCTGGATCACCCCGGTCGATGCCTTCTTCGTCCGTCAGCACCTCCCGCGCCCCTCCGCGATCGATCCCGCCGCCTACCGCATCGCTATCAATGGGATGGTCTCGAAAGAGTCGCAGATCAGCCTCGCCGACCTCCAGAAGCTTCCCCAACACACCGTTCCCGCCACCCTGGAATGCACCGGCAACGGCCGCGCCTTTTTCACCCCCAAACTCCCCGGCATCCAGTGGGGACGCGGCGGCGTCGGCAATGCCGAGTGGACCGGCCCCCGCCTCAGCGACGTCCTTAAACTCGCCGGCGTCGATACCGCCGCCAAATTCCTGGAGATCGATGGCGCCGATTCCGGAGTTCTCCAGACACCCGATTTCGTCCGCTGCATGCCCATGGAAAAGGCCCTGCACCCCGCTACCCTCCTCGCCCTTAAGATGAACGGCGAGGCCCCCGAAATTCACGGCGTCCCCGCCCGCCTGATCGTCCCCGGCTGGGACGGCACCAGCTGGGTCAAATGGGTCATCCGATTGACCCCCACCGCCAAGGAAAGCGGCGGCTTCTTCATGAACCCCGGGTATCGCTACCCGAAATACGCGCTCCCGCCCGGTAGCGCCCCTCGCCCCGCCGAGCTCGAAGTAATCGAAGGCATGCCGGTGAAATCCACCCTCACCGTGCCCGAGGACCAGAGCAAGATCCCGCTTGCCCCCACCGTAATCCGGGGCTTTGCCTGGGCCGGCGAAAACGC!
 CATCGA
GCGCGTCGAAGTCTCCACCGATGGCGGCGCCAAATGGCAGAACGCCCAGATCTCCACCCAGAAGCTGCCCTTCGCCTGGCGGCTCTTCAACCTCAACTGGACCCCCAAGGAGCCTGGCTACTACACGATCCTTTCCCGCGCCACCGATACTGCCGGACGCGTGCAGCCCATCGTTCCCGCCTGGAATCCCTCGGGCTATCTGTGGAACGGCATCGATAAAGTTGGCGTTACCGTGGAGAAAGTCTAATGCGGACCACACTCATCTTGCTCGCATTCACCGTTGCGGCCTTCGCCGCCGACCAGGCCGTCATCGAAAAAGGCATGAAGGAGGAGCAGCGCACCTGCGTCCCGTGCCACAGCCTGCGCATCATCCATTCCAACCGCCTCAGCCGCGCCGGATGGAACAAGGAACTCGACAAGATGGCCGGCTGGGGCACCAAATACTCGGATCGCGACGCCATTCTCGAGTACCTGGTCGCCAACTTCGGTGACGATAAGCCCGTCGCTCCCCCAGAGTTAACAACCGACGGCGCGGTGAAAAAATAGTTCATCCGCTATTCTGGTTGCATGATGAAAATGATGCTGCTGGGCATGGCTATGGGCGCGATGGCTTTCGGCGCTTCCAGCGTTTACGATTTCACTCTCAATTCCATCGATGGAGCGCCGACCCCGCTCTCCACGTTCAAAGGCAAGGTCGTACTCCTCGTCAACGTCGCCAGCAAATGCGGCTTCACACCTCAATACGCCGGCCTCGAAAAACTCTACGAGAAGTACAAGGATCAGGGCCTCGTGCTCGTCGGCGTCCCTGCCAACAATTTCGGCGCGCAGGAGCCCGGCAGCAACGAAGAAATCAAAACGTTTTGCAGCCGAAACTACAACGTCACTTTTCCCATGATGAGCAAGGTTTCCGTCAAAGGCGCCGACAAAACTCCCCTTTACCAGTACTTGACCGACGCCTCCGCCAATCCCAAGACCGCGGGCGAGATTAA!
 ATGGAACTTCACCAAGTTTCTGATCGATAAGAAAGGCAATGTTATCAATCGCTTCGAGTCAGCC
GTTACCCCGGAATCGGCGGATATGCTGAAGGCGATCGAGGCCGCTCTGGCTCAATAAAGGTAGCCGCCCGTACCCCAAAGTCATTTTTATTTGGTCGGAATTCCTCCGTGTTGCGTCTATATAGCTTGAAGACCAACATGGAGGTTCAGATGCAGACCGCGCTCGCACGGCTACGCGCCAAGACAGACCAGGACGTGAGCACCCTGGTTGCGAGACAACTCAAACGCTCGCTTGCAGAGACCAAGCGTGGCAACTATCAGGACGTCACGCGCACCTATCGCTTTGCCCGCACCGTAATCGCCGTAGCCGGCCTCCCGCCAGCCCACCGCGAACCTCTGGAGCGCTATCTGGCAGCCCTACGCCCTCACATCGAACTCCCATCCTCCGCTGTGGCCTAAAACCCTTTGGGCCGCAGATGAACACAGATAAACGCAGATAAAACAAAAGCTCTTGCCTTTGTCTTATCTGTGTTCATCTGCGTTTATCTGCGGCCCATTCTGCTTTCCTTCTCTTACTGCGACCCCTTCTTCGCCGGAGCCTGCACCGCCGGGACATTCTCATCCCGGATCAGCTTGTTGAATGCCGCCAGGTCGGCCGTCATCAGCACCTCCAGCTTTTTCAGCTCCGAGTTCACCTGCGTCGCGAGGTCTTCATACACCATGTACGATTGCTGCGTCGGCTGGTCGTCGGAGCTCTGCACCACGCCAAGCACGTGCGCCAGCTTATTGTTCAGCTTGATCGGATAGTTCAGCGGATCCTCGCTTGCCCGGTTCTTCGTCTGGTAGAGCGCCTCTTCCACCGATGTCAGCTTCTGGTTGAGCGCCTTCGCCGCATCCGCCACCTTCTTCGAATCGCGCTTCGCATAGTCGTCGAGTTGCTTCCGCAGTTCCCGGATCCGGATCACCGCGTCATTCGTATCGCTGAGCTTATCGCGCACTTGTATCGAGAGCGAAAGCTGCTTGGCATAGTCCTCCGGCGTCGTATCCAGC!
 CGTGGA
TCCTTCTTCACCTCGAAGCTCTGCTGCTGCGTCTTCCCGTCCACCGTCAGCCGCACCGTGTACTTGCCCGGCACAACCCGCGGACCGGTCGTGCTTCCCGCCCACAGAATCATACCCGGGAAAACCGTCGCATCCGGATACCGCAGATTCCACACGAAACGATTCAACCCAGCCTGCGCCGTAAGCCGCGCCGGTGGCGCACCCCGGAACGGGTTCTCCTCTTCGCCTTCCGGACCCACCTGCGGCCGCGGAACCTCGCGCGTCGAGAACTTGTTCACCACCTTCCCCGCCGCGTCCATAAACTCCATCGTGACTTCACCCTGCGGCCGCGCCTTCAGCCAGTAGTTCACTACGGCGCCGCCCGGAGGATTCTCGCCCACCGCCGGACCGCCGCCGCGTCCGCCACCCCCACCGCCGCGGCCGCCGCCGCCGAACCGGTACGTGTCCTTCGGCTGGAACAGCTTCGCATCCTCCGTGCCCGCGAAGTCATGTGCCTGGTACAGCATCGGCACATCGTCCAGCACCCAGAACGCTCGGCCCTCGGTCCCGATCACCAGCTCCTTCTCGCGTTTGTGGAACTGCATATCAGTAATCGGCGTGATCGGCAGATTCAACTGGAAGCTCTTCCAGTTTTCGCCGTCGTCGAACGAAATGTACATCCCGGTCTCCGTGCCCGCCACCAGCAGCCCTTTGCGATTCGGATCCTCCCGCACCACGCGCGTAAACGCGCTGTCCGGAATTCCGTTGACGATCTTCTTCCACGTCTTCCCGTAGTCCGTGGTCTTGTACAGGTACGGCCGGAAATCGTCCAGCTGGTAATTCGTCGCCGCCACGTACGCCGTGCCCGCATCATGGCTTGAGGCGTCGATCGAGTTGATCCGGATCCACTCCGGCATTCCCGGCGGCGTCACGTTGTCCCACTTCTTGCCGCCGTCTCGCGTCACGTGCACCAGCCCATCGTCCGACCCCGTCCAGATCACGCCCTTCGC!
 CACCGGCGATTCCATGATCGTGAAGATCGTGCAGTAGTACTCCACGCTCGTGTTGTCCTGCGTG
ATCGGTCCGCCCGACGTGCCCATCTTCGATTTGTCGTTGCGCGTCAAATCCGGACTGATCACTTCCCAGCTCTGCCCTTCGTTCATCGTCCGGTGCACCACGTTCGACCCGATGTACAGCGCCTTCGGATCGTGCGGCGAAAACACGATCGGGAAGCTCCACTGGAAGCGGTACTTCATCGCCTCCACGCCATATCCCATCGTGTTGTCCGGCCACGCATTCAAATTGCGGCTCTGCCCCGTGCGTTTGTCCTGCCGCGTAATCAGCCCGTCGTACGAGCCCGCGTACACAATCTGCGAATTGCGGGGATCGGGCGCGATCCAGCCGCTCTCGCCGCCGCCGACGTCGTACCAATCCGCTTGCGTGATCCCAGGCCCTGCGGTCCGGCTCGCGATCCGCACCGTCGAGTTGTCCTGCTGCGCGCCATAGATGTGATACGGGAAGTCCTGATCCAGCGCCACGCGGTAGAACTGCGCCGTCGGCTGATTGTCCACCGTGCTCCACGTGCGCCCGCCGTCCTTCGTGATGGTGGCGCCGCCGTCGTTGCTCTGGATCATCCGCTTCGGATCGTTGGGCGCGATCCACAGCCCGTGATTGTCGCCGTGCGGCGGGTTCATGTTCGTGAACGTCTTTCCGCCGTCGATCGATTTGTGCATGCCCACGTTCAACGCGTAAATCGTGTCCGCATTTTGCGGATCGGCGAAGATGTGCGCGTAGTACCACGCGCGCTGCCGCAGGATATTCTGCTCGTTCACGCGCGTCCACATCCGCCCGCCGTTGTCGCTGCGGAACAGCCCGCCATCCGCCGCCTCCACCAGCGCCCACACGCGCTCCGGATTCGCGGGCGAAATCGCTACACCGATGCGCCCCAGAACCCCGCGCGGAAGCCCGGGCGCCCGCGAAATCTCATTCCACGTATCGCCGCCGTCCGTGCTCTTGAAAAGCCCGCTCCCCGGTCCGCCGCTATCCATGCGCCACGGCTTCCGGCT!
 GATCTC
CCAGAAACTCGCATACAAGACCCGCGGATTGCTCGGGTCCATCGCCAGGTCCACCGCGCCCGTCTTGTTGTCGCGCTTCAGAATCTGCTTCCACGTCGCGCCGCCGTCGGTCGTCCGGTACACGCCGCGCATCTCGTTCGGCCCCCACAGGTGTCCCACCGCCGCCACGTACACGATGTCCGGATTCTTCGGGTGGATCCGCACCGCGCCGATGTGATAGCTGTCCTGCAGCCCGACATTCTTCCACGTGCGCCCCGCGTCCACCGATTTGTAGACACCGTCCCCATGCGTCGCATTCCCGCGTACGCAGGCCTCGCCCATTCCCGCGTACACCACATTCGGGTCGGAATCCGCCACCGCGATCGCGCCCACCGACCCCGTCCTAAACTGCCCGTCCGAGACGGGGACCCACGAGAGCCCGCTGTCGGT 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 GAAGGACCCCAAAGTGAGGATGGCGGCGATGCAGGCGCTAGGCTCCCAGCGTCCCGGCCTGGTCAGCGCGGAGGCTCTGGTAACGGTGTACAACGCGGAGCAGGATCAGCAGATGAAGCAGCGCATCCTGGACAGCCTGATGTCGCAGCGCAACGCGAAGGCGCTGGTGGAGATCGCTCG 
 >PredictedProphage1 -Hit 2 
 TTCCGGGTGCTTGTGGAGCGGCACAGCCGCGCCCTTTTCCGGCTTGCATTTCGGATGACCGGGAATCAACAGGACGGCGAGGATGTAGTGCAGGAGAGTTTTCTACGCGCGTACAAACAACTCGCCAAGTTCGACGAACGCGCCAGTTTTGGAACGTGGCTATACCGGATCGCGGTGAACTGCTCGCTGGACCTGGTGCGCTCGCGCAAGCGGCGCAACGAGCATATGGCGCCGGAGGATTCGGAGATGGAAGACCCAGTACTGCTGCTGCCCTCTAAGGATCCGACGCCGGACCGCATGGCGATGAGCGGCCAGGTCCGGGAGCGGGTCGCGGACGCGATGAACGAACTGAGCGCTTCGGAGCGGACGGCATTTGTGCTCCGCCATTTCGAAGGCATGTGTATTGAAGACGTGAGCCGCGTGCTTGGCTGTCAGCCGGGCGCGGCCAAGCACAGCGTATTTCGCGCGGTGCAGAAATTGAGAAGGGCTTTG 
 >PredictedProphage1 -Hit 3 
 GGCGCCGCCATCGGTGGAGACTTCGACGCGCTCGATGGCGTTTTCGCCGGCCCAGGCAAAGCCCCGGATTACGGTGGGGGCAAGCGGGATCTTGCTCTGGTCCTCGGGCACGGTGAGGGTGGATTTCACCGGCATGCCTTCGATTACTTCGAGCTCGGCGGGGCGAGGGGCGCTACCGGGCGGGAGCGCGTATTTCGGGTAGCGATACCCGGGGTTCATGAAGAAGCCGCCGCTTTCCTTGGCGGTGGGGGTCAATCGGATGACCCATTTGACCCAGCTGGTGCCGTCCCAGCCGGGGACGATCAGGCGGGCGGGGACGCCGTGAATTTCGGGGGCCTCGCCGTTCATCTTAAGGGCGAGGAGGGTAGCGGGGTGCAGGGCCTTTTCCATGGGCATGCAGCGGACGAAATCGGGTGTCTGGAGAACTCCGGAATCGGCGCCATCGATCTCCAGGAATTTGGCGGCGGTATCGACGCCGGCGAGTTTAAGGACGTCGCTGAGGCGGGGGCCGGTCCACTCGGCATT 
 >PredictedProphage1 -Hit 4 
 CTGGATACGACGCCGGAGGACTATGCCAAGCAGCTTTCGCTCTCGATACAAGTGCGCGATAAGCTCAGCGATACGAATGACGCGGTGATCCGGATCCGGGAACTGCGGAAGCAACTCGACGACTATGCGAAGCGCGATTCGAAGAAGGTGGCGGATGCGGCGAAGGCGCTCAACCAGAAGCTGACATCGGTGGAAGAGGCGCTCTACCAGACGAAGAACCGGGCAAGCGAGGATCCGCTGAACTATCCGATCAAGCTGAACAATAAGCTGGCGCACGTGCTTGGCGTGGTGCAGAGCTCCGACGACCAGCCGACGCAGCAATCGTACATGGTGTATGAAGACCTCGCGACGCAGGTGAACTCGGAGCTGAAAAAGCTGGAG 
 >PredictedProphage1 -Hit 5 
 ACCGACAGCGGGCTCTCGTGGGTCCCCGTCTCGGACGGGCAGTTTAGGACGGGGTCGGTGGGCGCGATCGCGGTGGCGGATTCCGACCCGAATGTGGTGTACGCGGGAATGGGCGAGGCCTGCGTACGCGGGAATGCGACGCATGGGGACGGTGTCTACAAATCGGTGGACGCGGGGCGCACGTGGAAGAATGTCGGGCTGCAGGACAGCTATCACATCGGCGCGGTGCGGATCCACCCGAAGAATCCGGACATCGTGTACGTGGCGGCGGTGGGACACCTGTGGGGGCCGAACGAGATGCGCGGCGTGTACCGGACGACCGACGGCGGCGCGACGTGGAAGCAGATTCTGAAGCGCGACAACAAGACGGGCGCGGTGGACCTGGCGATGGACCCGAGCAATCCGCGGGTCTTGTATGCGAGTTTCTGGGAGATCAGCCGGAAGCCGTGGCGCATGGATAGCGGCGGACCGGGGAGCGGGCTTTTCAAGAGCACGGACGGCGGCGATACGTGGAATGAGATTTCGCGGGCGCCCGGGCTTCCGCGCGGGGTTCTGGGGCGCATCGGTGTAGCGATTTCGCCCGCGAATCCGGAGCGCGTGTGGGCGCTGGTGGAGGCGGCGGATGGCGGGCTGTTCCGCAGCGACAACGGCGGGCGGATGTGGACGCGCGTGAACGAGCAGAATATCCTGCGGCAGCGCGCGTGGTACTACGCGCACATCTTCGCCGATCCGCAAAATGCGGACACGATTTACGCGTTGAACGTGGGCATGCACAAATCGATCGACGGCGGAAAGACGTTCACGAACATGAACCCGCCGCACGGCGACAATCACGGGCTGTGGATCGCGCCCAACGATCCGAAGCGGATGATCCAGAGCAACGACGGCGGCGCCACCATCACGAAGGACGGCGGGCGCACGTGGAGCACGGTG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 EGPQSEDGGDAGARLPASRPGQRGGSGNGVQRGAGSADEAAHPGQPDVAAQREGAGGDRS 
 >PredictedProphage1 -Hit 2 
 FRVLVERHSRALFRLAFRMTGNQQDGEDVVQESFLRAYKQLAKFDERASFGTWLYRIAVNCSLDLVRSRKRRNEHMAPEDSEMEDPVLLLPSKDPTPDRMAMSGQVRERVADAMNELSASERTAFVLRHFEGMCIEDVSRVLGCQPGAAKHSVFRAVQKLRRAL 
 >PredictedProphage1 -Hit 3 
 GAAIGGDFDALDGVFAGPGKAPDYGGGKRDLALVLGHGEGGFHRHAFDYFELGGARGATGRERVFRVAIPGVHEEAAAFLGGGGQSDDPFDPAGAVPAGDDQAGGDAVNFGGLAVHLKGEEGSGVQGLFHGHAADEIGCLENSGIGAIDLQEFGGGIDAGEFKDVAEAGAGPLGI 
 >PredictedProphage1 -Hit 4 
 LDTTPEDYAKQLSLSIQVRDKLSDTNDAVIRIRELRKQLDDYAKRDSKKVADAAKALNQKLTSVEEALYQTKNRASEDPLNYPIKLNNKLAHVLGVVQSSDDQPTQQSYMVYEDLATQVNSELKKLE 
 >PredictedProphage1 -Hit 5 
 TDSGLSWVPVSDGQFRTGSVGAIAVADSDPNVVYAGMGEACVRGNATHGDGVYKSVDAGRTWKNVGLQDSYHIGAVRIHPKNPDIVYVAAVGHLWGPNEMRGVYRTTDGGATWKQILKRDNKTGAVDLAMDPSNPRVLYASFWEISRKPWRMDSGGPGSGLFKSTDGGDTWNEISRAPGLPRGVLGRIGVAISPANPERVWALVEAADGGLFRSDNGGRMWTRVNEQNILRQRAWYYAHIFADPQNADTIYALNVGMHKSIDGGKTFTNMNPPHGDNHGLWIAPNDPKRMIQSNDGGATITKDGGRTWSTV 
 



Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig144

Genome size:  63978
Host's GC content:  61.91
Predicted Codon Position GC:  	1st:  64.98	 2nd:  43.42	 3rd:  72.46

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig145

Genome size:  56161
Host's GC content:  63.05
Predicted Codon Position GC:  	1st:  65.68	 2nd:  43.72	 3rd:  74.38

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig146

Genome size:  57447
Host's GC content:  62.05
Predicted Codon Position GC:  	1st:  65.06	 2nd:  43.45	 3rd:  72.69

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig147

Genome size:  50818
Host's GC content:  61.51
Predicted Codon Position GC:  	1st:  64.73	 2nd:  43.31	 3rd:  71.77

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig148

Genome size:  56342
Host's GC content:  62.26
Predicted Codon Position GC:  	1st:  65.19	 2nd:  43.51	 3rd:  73.05

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig149

Genome size:  72067
Host's GC content:  61.30
Predicted Codon Position GC:  	1st:  64.60	 2nd:  43.25	 3rd:  71.42

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig150

Genome size:  63063
Host's GC content:  63.05
Predicted Codon Position GC:  	1st:  65.68	 2nd:  43.72	 3rd:  74.38

 >PredictedProphage1 
 Length:   14135 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 63.59 	 65.15 	 68.97 	 60.50 	 65.99 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	3	0.0731707317073171
 Leu	TTA	1	0.024390243902439
 Leu	CTG	18	0.439024390243902
 Leu	CTA	1	0.024390243902439
 Leu	CTT	3	0.0731707317073171
 Leu	CTC	15	0.365853658536585
 Lys	AAG	7	0.777777777777778
 Lys	AAA	2	0.222222222222222
 Glu	GAG	8	0.380952380952381
 Glu	GAA	13	0.619047619047619
 Gln	CAG	10	0.666666666666667
 Gln	CAA	5	0.333333333333333
 End	TGA	1	0.5
 End	TAG	1	0.5
 End	TAA	0	0
 His	CAT	9	0.473684210526316
 His	CAC	10	0.526315789473684
 Asn	AAT	6	0.5
 Asn	AAC	6	0.5
 Ser	AGT	1	0.0212765957446809
 Ser	AGC	5	0.106382978723404
 Ser	TCG	13	0.276595744680851
 Ser	TCA	8	0.170212765957447
 Ser	TCT	8	0.170212765957447
 Ser	TCC	12	0.25531914893617
 Trp	TGG	5	1
 Arg	AGG	4	0.0459770114942529
 Arg	AGA	1	0.0114942528735632
 Arg	CGG	12	0.137931034482759
 Arg	CGA	20	0.229885057471264
 Arg	CGT	5	0.0574712643678161
 Arg	CGC	45	0.517241379310345
 Ala	GCG	19	0.243589743589744
 Ala	GCA	15	0.192307692307692
 Ala	GCT	14	0.179487179487179
 Ala	GCC	30	0.384615384615385
 Cys	TGT	4	0.333333333333333
 Cys	TGC	8	0.666666666666667
 Asp	GAT	22	0.55
 Asp	GAC	18	0.45
 Gly	GGG	9	0.169811320754717
 Gly	GGA	7	0.132075471698113
 Gly	GGT	9	0.169811320754717
 Gly	GGC	28	0.528301886792453
 Phe	TTT	5	0.217391304347826
 Phe	TTC	18	0.782608695652174
 Tyr	TAT	4	0.307692307692308
 Tyr	TAC	9	0.692307692307692
 Met	ATG	5	1
 Val	GTG	12	0.413793103448276
 Val	GTA	2	0.0689655172413793
 Val	GTT	3	0.103448275862069
 Val	GTC	12	0.413793103448276
 Thr	ACG	10	0.27027027027027
 Thr	ACA	9	0.243243243243243
 Thr	ACT	6	0.162162162162162
 Thr	ACC	12	0.324324324324324
 Pro	CCG	26	0.393939393939394
 Pro	CCA	17	0.257575757575758
 Pro	CCT	11	0.166666666666667
 Pro	CCC	12	0.181818181818182
 Ile	ATA	1	0.0416666666666667
 Ile	ATT	4	0.166666666666667
 Ile	ATC	19	0.791666666666667
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 45981	46340	-1	ref|NP_958267.1|hypothetical protein	36.2bits(82)	0.39
 50662	50853	-1	ref|NP_835697.1|probable poly A polymerase	41.2bits(95)	0.012
 51022	51504	-1	ref|NP_944186.1|hypothetical protein	52.4bits(124)	5e-06
 54828	55316	-1	ref|NP_958267.1|hypothetical protein	38.1bits(87)	0.10
 59726	60115	-1	ref|YP_053021.1|hypothetical protein	36.2bits(82)	0.39
 
 DNA sequence:
 CGGAGCGTTTTCCGTGCGAGACCGCGGTGGACGATGTGGAGTGTCCTCTGGTGCGCGGGCCTTTCGAGCTTGCGATCGTGATCCTGGTGCTGGAGCACGTCGATTGGCGGCGCACGGTTGAGGGATTGTGCGGGATCGCCCGGCGCGTGTTCGTGGTGATCCAGCAGAATCCAGAGGGACTGGTCGCGCGGGCGCCTGGCGGGACGATGTCGCTGGTTCGCGGGCAGCTGCTGCGCGCGGATGAGTTGATCGCGGAATTCGAGCGGCATAGATTCCGCATGCTGAGGAGGTCAGTGCGCGCGGTGCGAGATGGGAAATCGATGGTGGGGATGGAGTTTTGGCGTACGCGGGAAGCCGCCTGAAAGGCGGCTGCAGCCAGGATTGGCTGCCCCACAAAAACCTACGGGTGCGGTTGGCGGCGCTCTAATAACACGACGTCGCGCCAATGGCCAGCGAGGCGGCCGATGCGCTCGCGGGTTCCGACGATGCGAAAGCCTGCTGATTGGTGGAGGCGGAGGCTCGCCTCATTTTCCGGGAAGATGCCGGCCTGCAGGGTCCAGATGCCGGCGGTCTCGGACTCGCGTATCAATTCGCGCAGGAGCGCCTTGCCGACGCCCGCGCCGCGGGATTGTGCCGCAACATACACGCTCACCTCGGCTACCCCGGCGTAAACCCGGCGGGCCGAAACGGGGCTGAGTGCGGCGAATCCGAGAATCGTCTCCGCCGCGGCCACGAGGCGGCAGTGCGGCAGGTGCGCGGCGTCCCACCGCTCCCACTCCGGCGCCACGGTCTCGAACGTGGCATTGCCGGTGGCGATTCCTTCCAGATAGATAGCGCGCACCGCGGGCCAATCGGGCGGCAGCAGGGTGCGGATCGTGAACTCCATTGTCATCACGCTATCATGGAGCAGTTCATGACGACCCTCAGGGCCCTACTCCGGGATAATCCCAATTATCGCTATACGTGGATGGCCCAAGTGGTCAGCGAG!
 ATCGGCGACTACTTCAACAACATCGCGGTCTTCGCGCTGGTGATGGAGAAGTCGGGTTCGGGGCTGGTAGTCACGGGCGTGATGCTGGCGCGGGCGATTCCGGCGGTGGTCGCGGGGCCGGTGGCGGGCGTGCTGCTGGACCGGCTCGACCGGCGGCAGATCATGATCGTGAGCGACCTGGTGCGCGCGGTGATCGCGCTGGCATTCGTGTTCACGATTCACCAGCCGCGGCCGTG
GCTGCTCTACGTGCTCAGCGCGGGACTCATGTTCGCATCGCCGTTCTTTACGGCCGGGCGCGCGTCGATTCTGCCGACCATCGCCAGCACCGAACAACTGCACGCCGCCAACTCGCTGACCCAGACCACGCAATGGGCAACGCTCACGGCCGGCACCCTGCTGGCGGGGTATAGTGCGGGATTCCTGGGGTACTACTGGGCGTTCGTCATCAACTCGCTGAGCTTTGTGTTCTCGGCGATCGCCATCTGGCAGATCAAGCGGCCGGGCGGCTTCCGCGCGATCCGGCACGCCTCGCACGTAGCCAAGCGCGGCTGGCTGGAATACCGCGACGGTCTTTCGTATATGCGCAGCGTACCGCTGATGATGGGAATCGCCATGATTTCGGTGGGGTGGTCGATGGGCGGAGGCGCGGCGCAGATTCTGTTCGCGCTGTTCGGGGAGCAGATCTTTCATCGCGGCGCCACCGGGATCGGGTCGATCTGGGGCTTCGCGGGGATCGGCCTGCTGATCGGCGGCGCGATCGGGCACGTGACCGGGCGCACGGTGAGTTTCGCCGGCTACAAGCGGGCGGTGACGCTCTCGTACCTGCTGCACGGCGCGGCGTATATGCTGTTCAGCCAGTCGGAATCGTATGCCGCCGCGCTGATCTTCATGATGTTCTCGCGGGTGGGGATGGCGGTGACCAGCGTGCTCAACAACGCGCAATTGCTGCGGCACACGCCTGACCAGTTTCGTGGCAGGGTCTTTTCTACGATGGAATCGATCCGCTGGAGCGTGATGATTGTGTCCATGGCGGCCGCGGGGATCGCGAGTCAGTATGCGAGCCCGCGGACGATTGGATGGGTTGCAGGATCCTTTGGCGCGGTGACAGCGGTTGCCTGGGGCTGGCTGGACTGGTCCGGACGGTTGCCGGAACCGAAATAAGCCTTAGAACCACGGGGCCATCAAATTTCGCGGTTTGCAGCCGATGAGTGACACAGGGAAACAA!
 GATTGC
CGAACGCATCCAGCAATACCGCCGGACTGCTCGCCCTTTGCAACACGCATCGGCCCATGCGTGTGCTAGCGGCGGAAGACAACCCGGTTTTTCAATCGATGTTGAAGACCATGTTGACGCGGTGGGGCTATGAGGCGGTGATCGCGCGCGACGGCACCGAGGCCTGGAACATTCTGGAAGGCGATGGCGCACCCAGGCTGGCGATCTTGGATTGGATGATGCCTGGAATGGATGGCGTAGAGATCTGCCGCCGGATTCGCAGCGCCAACCGGGAACCTTATGTGTATATTCTTCTGCTGACGGCACGCACGGAATCGCAGGACTTGATCGAAGGGATGGACGCGGGCGCGGACGATTATCTGACCAAGCCGTTCAATGCGCATGAATTGCGCGTCCGGATCCGAGCCGGCCGGCGGATTCTGGACCTGCAGGAGGAATTGCTAAAGGCCCGCGAGGCGCTGCGCGAGCAGGCGACGCATGACGGGCTGACGGGCCTTCTCAATCGCACGAGCATTCTAGAGAAGCTGGATGACGAACTTTCGCGCGCCGCCCGCGACGGCAGTTCCGTCTCGGTGCTGATGGTGGATCTGGACCGCTTCAAATCGGTCAACGACACGCAGGGACATCTGGCGGGGGACGCGGTGCTGCGCGAGGCTTCGAGCCGCCTGAGATCGGCATCGCGAAGGTACGATTCGGTGGGCCGCTATGGCGGCGAGGAATTTCTAGTGGTGCTTCCCGGCTGCGAAAAGGCAGCGGCGGAGTTGCAGGCCGAGCGGCTGCGCGAGGCGATCGGCGGGACTCCGTTCCGGGCGGATTCACGTCCGCTGGCGATGACGTGCAGCATTGGGCTGGCATGCTCCAGCCACTGCGCGCCTGAGGATTTAATCCGCGAGGCGGACGACGCGCTTTACCAGGCGAAGGCGGGCGGGCGCAACCGGGTGGTGGCGCACACGGAGCTTTCGATGGGTATTTAGCTGTTGATATCTTCG!
 TGAGCTTCGATGCGTTTCTTGAGGCCATCGAGTTGGGACTTCTGCGGTTCTGGGGCTGCCGACT
GGGCGGCCTGGGTTTCCTTCAAGGCCGTGGTGAAATCGGCATCGGCGACGGCGGCGCGCGCCCTGGCCAAATGACCCAACCAGTGGTCGGGGAAGCGCCGGGCCACGGTCCGGTAGATCGCAATCGCATCGGCCTTCTGTTTCTGGGTCTGCAACGTGCGGCCGTAGATGTAGAGTTGAGTGGCGGTCCCCAGTTCCATCGCTTTGGCGCTGGCAGCGGCGCTCTCGGTAGTGCGATTCAGCGCGGTCAGGATCCGCGCCCTGGTCATCAGGTTTTCAAAGCGTTCCTCCATCTGGATGGAGCGCGCGGTCCAGATGAGGGCCTCTTCGAGATTGGTCTTATTGTCCGCGCACCATGTGGCAGCGTCGTCCCAGCCGGTCCAGATGTATTGAGCCGAGTTCCGCAACTGCGAGCGAATGTTGGCGAGCGTGGCCTCGGGGTCGGCTTTTACGGTAAACGGAACGGCGAGCTTTTCCCAGCTGAGAGTGACGGCGGCGGAATCGGCCTTTACGTCGTCGAAATCGTAGGTTAAGGCCTCGTGTATTTCGGTGGACCGCGGTTTCACGGTCACGCGCAGGGCATCCTCTTTCTGGTTATAGGAAAAACTGCCCCAGGCGCCCGCGGTTTTCGAGAAGATCACGGTCCAGGAATCGGCGGTGGGAAGCATGTGGAGACCGTAAATTCCCTTGGCCAGCGGCTGCCCCTCCACGGTTACCGGATCGCTGAATTCGATGGTGGTATTTTCGTTCGCGCCGGCGCGCCATACCTGGCCGTACGGGACCATGCCGCCCCACACTTTGCGGCCGCCAACCAGCGGGCGATGATAGACGATCGTAACGTCGGTGAGCGCGACGCGCTGGCTCACGGTGGCGCGCTGGCTCTGCCTCGGCAAAGACATGACCAGCGATTGCGCGGGCAGCGCGGCGGAGCCGGCGGCCAGCAGGATACCGATCGAAAGACAACTACGTAACATGATGCTTGTCCCCCTG!
 TCGGAC
TAACAGACGTAGTTAAAGGGGAAAGGTGTCGCGGATCAGATGAATCGCTTCGCCCCGCGTCTGAATGGTGCCTTCGAGCTGGGCGTCTTCAATGACCGAAAGGATCCGCGAGAATTGCGGTCCGGGCTGGTAGCCCATCCCGATCAAATCGGCGCCGGTTACCAAAGGCTCCGGCTGCAGGTGTTTTTCGCTGTACTCGGCGAGCTTGCGCCTGGCCAGTTCGTAATTCTCCAGCCGGCGGTTGCTGCTCATCACGTCGAGGCGGTGGAGTTCGAGATGCTCTTCGAAATCGGGCAGGCGCAAGAAGCGCTTCAACGTGCTCTCCTTCATGTGGTGCACGTCTTTAAAGCGCATGTGATTTTCGACGAGCGCTTCGACCTGGTCGATCTCCTCCCGGGAAAAACGCAGGCGCGTGAGAATGGCATGGGCGATTCGCACACCTTCTTCGACATGGCCGTCGAAGCGGATGCGGTCCGCCACGCGGAAGGTCGGCGGCTTACCGACATCGTGCAGCAGCGCTCCGAGGGCGAGCGTCGGCGTGGGATTGCGCAACTGCTCCAGGAGGAGGAGCGTGTGGGCCCACACATCGCCCTCGGGATGAAATTGCGGAGGCTGGTCCACGCCTTTCATGGCCGCCACCTCGGGCAAAAGGTCGGCGAGCATGCCGGCGGCGTCGAGCAGTTCGAAGCCGCGGCGCGCGCCGCCTTCGGTGAGGATCCGCACCAGTTCCTCACGGATCCGCTCCATAGCGACCTTGAGGATCAAGGCGTGGTCGCGGCGGATGGCGTCGAAGGTGGCGGGCTCGATTTCAAAGCCCAGGCGAGCCGCGAAGCGCACGGCGCGCAGCAACCGCAGGTGATCTTCGCGGAACCGGGCGTAAGGGTCGCCTATGGCACGCACGATGCCGCGTTTGAGGTCGCCCTGCCCATCCACAAAATCGAGCACGCGGCCAGTGTCGGGATCGAGCATCAGGCCGTTGATGGTGAAGT!
 CGCGGCGCAGAACGTCTTCGCGAGGATCGCACTCGAAGCGCACCTGCTCCGGATGCCGCCCATC
CAGGTAATCGTGATCGCTGCGGAAGGTGGCGACTTCGACCTGATCGAAGACGTCGCGCACCAGGATTACGCCGAAGTGGGCGCCGACCCGGCCGGAACTCGGGAAGAGGTCCATGATGCGGTCGGGGCGCGCGTCCGTGGCGATATCGTAGTCCTTCGGCTTGCAGCCGAGGAGGTGATCGCGGACGCAGCCGCCGACCAGATATGCCTGATGTCCCGCGCCGCGCAACTTGGCGATTACCCGGCGTGCAAGCGCTTCCGATTCCACCTTCCTATGCTAATATGAAGTCGCCGAGCTCCACCTGGAGACGGGGGACCCAAGTTTTTTTGGGGCGCAGTCCGCAAGGACGGAGTACTTTCAAGCTCTAGCCCGACAGCTAACCCCGTAGGCGGATTTGAGAGTCACCCTGATGGGTGATCGAGGAGCTATTTCCGTGACATCCGAACAACGGCCCGCGGCCGTTAAAGTAGTTGTGGCGACAACAGTAATGTTGTCCTTCATTTCGTTCTGGCGGGCCGCCGCCATTGTGCTCAGCGATCTGGCATCGAGCGCGTATTACGTCGGGGGAATCGCGGAAGGGGCAATCGGGAAGGCCGCGCCATGGTTCATCCTGGCGATCATGTTGTTCTCCTACGCGGTACGCGCGATTTACATCGAGAGCTGCTCGATGTTCGTGCGGGGCGGCGTATATAAGGTAGTCCACGAGGCCATGGGCGGAACGCTCGCCAAGTTCTCGGTTTCGGCGTTGATGTTCGACTATGTGTTGACCGGCCCGATCAGCGGCGTCAGCGCCGGCCTGTACCTGGGCGGACTGATCAACGAGATTGGCGAGAACATGCACATGCCTTCCGTGCACGTTTACCCGCCATACTTCGCAGCGGTCTTCGCGATTGGCGTGACGCTTTACTTCTGGCGCAAGAACATCATCGGCATGCACGAATCCAGCGAGAAGGCGCTGCGCATTATGCAGATCACCACGGTGATGGTGG!
 TGATCC
TGATTGTGTGGTGCGTGGTCACGATCCTTAAGGTGGGTTACCAGCCGGTGCCGCTGCCGGTGCCGGAAAATTTGAAATTCAATCCTGACGCGCTGGGCTGGTTGAAGGGTACGGTGGCGCCTTCGATCACGGTGATTGCGATCCTGATCGGGCTGGGCCACTCGCTGCTGGCGATGAGCGGCGAAGAGAGCCTCGCGCAGGTAAATCGCGAGATCGCGCATCCGAAACTGAAGAACCTGGAGCGCGCGGGGTTCGTGATTTTCATCTACAGCATGATGTTTACGTCGCTGGTCTCGTTCTTCGCAGTGATGATCATTCCCGACGGACCGCGGCAGGGTTTTCTGGACAACCTGATCGGCGGGCTTTCGATGTACCTGGTGGGACCGCTGCCGCTGCGACTGCTGTTCCACGGCTTCGTCGTGCTGGTGGGCACGCTGATTCTCTCGGGCGCCGTGAACACCGCGATCATCGGCTCCAACGGCGTGCTCAATCGCGTGGCCGAGGACGGCGTGCTGCCGGACTGGTTCCGGCATCCGCACCACAAGTTCGGGACCACGTCACGCCTTATCAACCTGATCGTCATCCTGCAGGTGCTCACGATCGTGATCAGCCGCGGCGATATGGTAATGCTGGGGGAGGCCTATGCTTTCGGCGTGGTCTGGAGTTTCGCGATGAAGTCGCTGAGCGTGCTGATGCTGCGGTACAAGCAGCCGGGCGCGCGCGAATGGAAGGTGCCGTTGAACTTCCACATCGGCAAGACCGAGATCCCACTGGGGCTGATGATGATTACGGTGGCGCTGTTCGCGCTCGCGATCATCAACGTGCTCACCAAGAAAGTAGCCACGATTTCGGGCGTGACGTTCACGATCGCGTTTTTCATTGTTTTCGAATGCAGCGATATCTACAATCGCAAACGCAAAGCCGGTCATTCGCAGGAGATGGAAAAGTTCCGGTTGGATACGCATGCGGAGGTCTCCACCGAGAGCCTG!
 AGCGTGCGGCCAGGCAACGTGCTGGTGGCGGTGCGGAATCCCAACCGGCTGCAGCACCTGGCGC
GGATTCTGAAGAAGACCGACACGCGCAAGATGGATATCGTGGTGCTCTCGGTGCGCAACACGACGCAGGCCGGCAGCGGCGAACACTCGCTGGATGCGGCGCAGATTTTCTCCGACGCCGAGACAACAGTGTTCAGCAAAGTGGTGATGCTGGCGGAGAAGGCCGGCAAGCACGTGGAATTAATGGTGGTGCCGGGCAACGATCCCTACGAGGCGGTGGTGCAGACGGCGGGACTGCTGCAATCCTCGCGCATCGTGATGGGGCTCTCGCCGAAGCTGACGCCGAGCGAGCAGGGCGCGCAGGTCGGGGAATATTGGGAGAAGCTGCCGGAGCCGCGGCCATCGCTATCGCTGGAGCTGGTGCTGGAGAATCAGAAGGACGTGGTGTTCTTCAACCTGGGCCCGCATCCGCCGCGGCTGTGGCCAGAGGATATCGATCTTACGCACAGGCTCTGGCTGGATCTGAGCGCACGCGGTCCGGGGGCGAAGCTGCATCATCGCGATGTGATCAGCGTGGCGCTGCGGCGGATGGCGACGGAGTTGCAGTCGCCCCGCGCGGGCGAGGTGGTGGACGATATCGTGCGGGAAGCGATCGGGCACCCGTCGCCGGATGAGTAAGAGATCGCTCCCTCACGGTCGCGGTTCGCGTGTGGCGCAATTAGAATAGGAAAGTGAACGCTTTGACGCGCGAGCTGCTGGTCTGGGTCGCGGCGCGGCCACGGACTTACGACGAGACTATGGACGCCTGGCGGAGCAACTGTCCGCGGCACTCGACTTGGGAAGACGCTTGCATCGACGGGCTGGTTGAAGTCACGGACGGTGAAGTCCGGCTTACGACGGCGGGCAGCGCGGCTGTGCGAAATTTCACAAGCTACTCTGTGAGCGGTTAACAGTCTTCGGGCGCGCGGCGTCTTACCCTCAACGAAGGAGGGCTCGATGATTTCGAAATCCGCGATCGTTCTCTGTTTCCTGTTTCCGGCCTTTGCCGGC!
 GACCTG
GTGGTTCATGAGTGGGGCACGTTCACTTCAGTCGCTGGGGAGCGCGGGGAACCGGTTTCATGGGCGTCGCTCTCCGCGCCGTCGGATCTGCCGTGCTTCGTGTACCGGCTGAGCGCGCAGTGCGTGAAGTGCAACGCTACGAGCCTGGTCCGGATGGAGACGCCGGTGCTGTACTTCTACTCTCCGCACCCGACGACTGTTTCGGTGCACGTCGATCTCCCGAGCGGCGCGATCACGGAGTGGTACCCGAAGGCCAGCGGGCCGCCTCGGGACGTCACCTACGGCCGCGACGGCAGGATCGATTGGGGCCCGGTGCAAATTGTGCCGGGAGCCGCGCCGGACTTCCTCAGCGACGGCAGCGACAGCCATTATTATCCGGCGCGCAATACCGATTCGGTGCCGCTGCGCGTGGGGAACGAACAGGAAAAGCTGCTCTTCTATCGCGGCGTGGCCGACCAAGGCGTTGCGATCGAGGCGGAGTTCCAGCCCGACGGTAAACTCGAGTTGCGCAACGCCGCGAACACTTCCCTGCCCTTCGCGGTGCTGTTCGAGAAGCGCGCCGGCAAGACAGGCTACCGCGTGCTGCGCGATCTCGACCGCTGGGCTGCGATCGACCCGCCCCCGTTGACGGCAAACATTGCGAACCTTCGCCGCGAGCTCGCCAGTGCCCTCACGGAGGCCGGCCTGTATCCGAAGGAGGCGGCCGCGATGATCGATACGTGGCGCGATTCCTGGTTCGAGGAAGGAATGCGCGTGTTCTACATTCTGCCGCGAAACACGGTCGATGAGACGCTGCCGTTGAAGGTAACGCCTGCGCCCGCGGCGACGGTTCGGGTGTTCGTGGGGCGCGTGGAGATCCTGTCGCCGGGGATGAAAGCATCGCTCGCGAGCGCGCTGGCTACAGGCGATACGGCGACTCTGGAAAGGTGTGGGCGCTTCCTGGCGGCCTTCCAGCCGCGCATTCGGAATGTGGTGATTTCGCCGGCCGC!
 GCAGGCATTCATCGACAGCATGCGCGCACAGAATACCAATCGCGTGTCGCCCTGCAAGGAGCCG
CTCTCACTGCCGACCAATCAGTAGAAACTTCGCGATGTTTTCGTTGAGAAACTTCGCGTCCGCGGGATTGCTGGCGGCGCCGGCGGTGTGTCCCCACAGCGAGGGGATGGGCATCAGCGTCACCTTTGGGATGAACGGAGCTTCAAAGCGCGCATCACCGACCGGGAAGTAGAGGTCGGTCTCCGACGGCATGTAGAGGAGCGGGACTTTAATGGAGCGCAGCGCACGCTCGGTATCGCCACTGAAGCCGGGAGTGGCGCCGACGTCGTGGTGCTGCCAGGTCCGGGCCTGCAGGATATAGTCGTTGGCGTCGGCGTTGAAGCGGGTGCGAAATCGATTGGAGACCTGCTCGAAGGTGGTCCCCGCGGGCGAACTGGCGCGCCAGAGTTCGCGGCGCCACCACTCCTGCGAGTAGAGCCACGCGGCCCAGACCATGCCGAACGCCTCGAGGCCTTTCTTCGGGGGAGACGTGTAGTCGCCATTCAGGAAGGCGGCGTCGGCGGTCAGCGCTGCGATCTGTCCTTCGAGGCGCACGATGCCGTGTGGATACGTCTTGGCGGTGCCCGAAGTGGCGACGATGCGGTCCGCGAAATCCGGATAACTCACGGCCCATTGGAATGCCTGCTGCGCGCCCATCGAAAAGCCGATGACGGCGCGCAGGTGCGTGACTTTGAGATCTTCGGTGAGCAGGCGGTGAACGGCTTCCACGTTGTCGCGAATCGTCATCACGGGAAAGCGCGGCCCGTGAAAGGGCTCGGGCGTATTGCTGGGTGACGAGGAACTGCCGTTGCCGAAGAGCTCGCTGGTGATCAGGAAGAGTTGCGCCGGGTCAAGCGCTTTTCCGGAACCGATCAGCCACTCATAGCCGCGCAGATTGGCCATATAGTGCGAGGGCAGGAGCACCGCATTGCTATGGTCCGCATTCAGGTGGCCATAGGTTCCGTAGACGATGCGCGCCTGGGGCAGAGTCGCGCCACTTTCCGTATGGA!
 AGTCCG
AAATTATGAACTCATGGCGTTCCGGAGTGACGGGCGATTGCGCGATCGCGGCGCGGCAGAGGATCAGCAGGACGAGTGCTTTCATGTTGGACTATTTTAGACTGAGAGTTGTGACCTGGAGATCAACTGCGGAATTTGAGGCCATGACCACGCTGGATTCGGGCGGCGCGGAGATCGTGTGGATTCCGGCGGGGAGCGTGCTGGAGAATGTGCTGCTGCCGCCTAGTCCGGCTTTTGACGATCCCGACTCGGGAGCGCGGCCGGTGGAGTTTGATTACGGCGGGCGGCAGCACACGGCGACCACCGACGACTTTCACGTGGTCGGGGGATGCGTGGAGACCGCCTGAGATCGCTCCCTAACGGTCGCGGTTCGCGCGAGCGTGTTCTCCGCGGAGCGCCGGCTGAAAGTGGGCGGCACGGTCGAAAACCTCCACGAATCTCGGGTCTGTCCGGCGTTCCGGGGAGCGATGGGATTCGCGGAGGGCTCGACGCTCCCTTACGGTCGCGGCTCGTCGGGGAGCGGTTTTCATCCCCTTAAATGGCGCGCAGCGCCATCGCGACAGCCAGGATTGGCTGCCCCACTGGACTACTTCGCGGGGGGCGCGGCCTTCGGCGGACTCACTTTTGCTTTCAGGGCTGACCATCTTGCCATGAGGGCGGTGTAGGCGGCGTCCTGTTGAGTGCAGGCTTGCAGTTGGGCGGCGGTGGGCGGCATTTCCGCGCCCTGCATGGCCATGACGGCGCCGACCATCTGGCCGCCGATGGTGGCGAGCGTGGGCGGTGGCAAGGGCTCCGCAGGTGCGCCGAAGCCACCACCGCCTCCGCCGCGGCCTGCACGGCCGCCTCCGGCGTCCGGAGCCGCTACGGGCGCGATGTCTTCGAGTTGCTTGATCAGGGTATCGTTGGCGGGGGATAGCGGGCGCGCTTTGACCTTGTCCAACATTGCGCGCGCTTCCTTATATGCCGCGGCGGCGGTGGCGGCGCGGGTC!
 TCCATCTGCGTAGTGAGGGTGAAGATCTGCTGCACGGCCGGTGTGATCTTGACGCGCGGGTCCA
TCTTTACCGTGATCGGCTGCGTCAGGCTTTGGCCGTTCGCGGTGAGGCGGACCGAATATGCGCCAGGGGCCACCCATGGCGAGTTCACGCCGGTATAGGTGCGATGCGGGACGGCGCCATTTCCACCACCACCGCCGCCACGTCCACCACCTCCGCCGCCGGGAATCGGATCGTAGTGCATGTCCCACAAGAAACGATGCATGCCGGCGCCAGTCTTGAGCACCTGCGTGGCGCCGACCCAATACAGCGGGTTAGCGCAGTCGGGCGCGGTGGGAGTCTGCTGGCACACCTTGTTGTACGCGACCGGATCGATCGCGGGGTCTGGATTCCGGCCCGTGTCGTTGCTGGTGTAACTGCGAACCACTTTGCCCTGCGGATTGAGGATCTCGAGCTTAACCTCGCCCGACGCCGGGCCGGGCAGGTAGTAGTCGATGACGGCACCGGCCGGGGGATTCTCTCCTGCGTGCACTTCGGGCGGCCACGGCGTGGGATCGTTGGTGGCGAAGCGGACGCGGACGGCGGTGGCGGGCTTGAACAGGAAGGCATTCGACGCGGCGGCCGCATCGGCCGCCTGGCGCAGCGGGGTCACGTCGTCCAGGATCCAGAAGCCGCGGCCGTGAGTTCCGGCCACGAGGTCGCTGCACATGCAGGAGGCATCGTCCTTGACCTGGATGTCGCGCACGGAGATTGCGGGCATGTCGAGGCGCAGCGATTGCCAGTGGTCGCCATCGTCGAAGGAGACCCAGACCTGCGTGTCGGTGGCAGCGTAGAGCAGGCCCTTCTTGCGCGGATCTTCGCGGATGGAGTTGGCGACGGCGCCGCCGGAGATTCCGTTGTTGATCTCGGTCCAGGTCTTGCCGCCATCGTGTGTACGCCAGAAATGCGGGTTCATGTCGTCGAGCCGGAGCGTGTTGGCGGCGGCGTAAGCCGTCTTGGTATCGAAGTGGCCGGCATCCATATTAAAGATGCGCGTCCAGGCTTTGATGGCA!
 GGCGGA
GTCACATTGGTCCACTTGGCGCCGCCATCGGTCGTGAACTGGATGAGTCCGTCGCCGGTCCCGGCCCAAAGAACGTTGACGTCGAGCGGCGAAGGCGCGATCGCAGTGACGGTGCCCATGGGCGACGCGGTCACGGTGGGGGCGTACTTGCCCGCGTTCTCCGGCGTCTCCCAGGTCTGGCGCGTGAGGTCGCCAGAGATCGGCGTCCAGCTATGGCCGCCGTTGATGGTCTTCCACACACCGGCCGTTCCATAGTAGAGAATGTTCGGGTCCTTCGGCGACCAGATGAGCGGCTGGGTGCGCACGGTGCGTGCGGGCGGTTCGTTCGCTGCCGGAGCGCCGCCGCGACCGGGACCGACAGCTGCTTTCTGCGCGGTGAGGCGGTTGTAGACTGTAACCTTGCCACCGTAGACGAGGTCGGGGTTTTTCGGGTCGGGCGCAGCCATTCCGTACTCTTCGATGCCGACGGGATGCCAGTCGTGGAAGGTGATCTCGCCATCCATGCCGCGGCTATCGACACAGGCGGAGCCGGAATCCTGCTGGCCGCCGCAGAGGCGGTAGGGGAAGGCGTTGTCGGCGGTCACGTGGTACATCGCGGCGGTGGGCTGGTTGTACCAGTTGCTCCAGGATTCGCCGCGGTTGGCGGAGAGCACGCCGCCCTGATCGGCGACCAGGAAAATGATGTTGGGGTTCTCGGGATTGATCCAGCTCTTCTGATAGTCGTCGCCGCCAGGGGCGCCGCGAACGGCAGACCAGGTCTTACCGCCATCCTCGGTGCGCCAAAAGACGGTGGAGCAGCTGTAAATCACGTTCTCGTTCTTGGGATCGACGCTGATGGTGGGCAGGTCGCCGCCGCCGATGCGCGCCAGGGGACGCGGATCGGGATTGGGGGCGGCCAGCGCCCAGTGGTCGCCGGCGTCGGTGGATTTGTAGAGCGCGATGGCGCCGCCACCACCACCACGTCCGCCGCGCCCGCCGCCGCGTCCTGC!
 CGCGGGGGCGGCGCCCGGTGGGGTACCGGCGGCCACGGTCGCGTAGAGGATTTTGGAATTGCTG
GGAGCGACGGCGAGGTTGGCCTCGATGATGGGCGGTAGTCCGGCGGTCAGCTGCTTCCAGGTGGTGCCGCCGTCGGTGGATTTGTAGATACCGCCATCGGAGCCGCCGAAGGCGCCGTTTTCATAGAAACCCTGCTGCTGCTGCCAGAGCGCGGCGTAGACGGTGTTGGGATCCTTGGGATCGATGCGCACGTCGTTGCCGCTGGTGTACTCATCCTTGTAAAGGACTTTCTGAAATGTAGCACCCCCGTCGGTCGAGCGGAAAATACCGCGCTCGGCGTTGGGCCCGTAGGGGTGGCCTAGAGCGGCTACGAACAGGCGGTTCGGATTGCGCGGATCGACTTCGATATCGGCGATCATTTGAGAATCGCGCAGGCCGAGGTGGGTCCACGTCTTGCCGGCGTCGGTGGACTTGTACATGCCATCGCCCGTCGCCAGGTCGGGGCGGATGATGCCGGCGCCGGAGCCGACGTAGATCACGTTCGGATTGGAAGCGGCCACCGCGATGGCGCCGATCGAGCCGGTAGGCTGCTGGTCGAAGAGCGGCACCCAAGTAGAGCCGAAATCGGTGGAGCGCCAAACCCCGCCGTTATCGAAACCGATGTAGGCGACATTAGGCTGGCT 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 AGGCGGCTTCCCGCGTACGCCAAAACTCCATCCCCACCATCGATTTCCCATCTCGCACCGCGCGCACTGACCTCCTCAGCATGCGGAATCTATGCCGCTCGAATTCCGCGATCAACTCATCCGCGCGCAGCAGCTGCCCGCGAACCAGCGACATCGTCCCGCCAGGCGCCCGCGCGACCAGTCCCTCTGGATTCTGCTGGATCACCACGAACACGCGCCGGGCGATCCCGCACAATCCCTCAACCGTGCGCCGCCAATCGACGTGCTCCAGCACCAGGATCACGATCGCAAGCTCGAAAGGCCCGCGCACCAGAGGACACTCCACATCGTCCACCGCGGTCTCGCACGGAAAACGCTCCG 
 >PredictedProphage1 -Hit 2 
 CAATTTCATCCCGAGGGCGATGTGTGGGCCCACACGCTCCTCCTCCTGGAGCAGTTGCGCAATCCCACGCCGACGCTCGCCCTCGGAGCGCTGCTGCACGATGTCGGTAAGCCGCCGACCTTCCGCGTGGCGGACCGCATCCGCTTCGACGGCCATGTCGAAGAAGGTGTGCGAATCGCCCATGCCATTCTC 
 >PredictedProphage1 -Hit 3 
 TATCTGGTCGGCGGCTGCGTCCGCGATCACCTCCTCGGCTGCAAGCCGAAGGACTACGATATCGCCACGGACGCGCGCCCCGACCGCATCATGGACCTCTTCCCGAGTTCCGGCCGGGTCGGCGCCCACTTCGGCGTAATCCTGGTGCGCGACGTCTTCGATCAGGTCGAAGTCGCCACCTTCCGCAGCGATCACGATTACCTGGATGGGCGGCATCCGGAGCAGGTGCGCTTCGAGTGCGATCCTCGCGAAGACGTTCTGCGCCGCGACTTCACCATCAACGGCCTGATGCTCGATCCCGACACTGGCCGCGTGCTCGATTTTGTGGATGGGCAGGGCGACCTCAAACGCGGCATCGTGCGTGCCATAGGCGACCCTTACGCCCGGTTCCGCGAAGATCACCTGCGGTTGCTGCGCGCCGTGCGCTTCGCGGCTCGCCTGGGCTTTGAAATCGAGCCCGCCACCTTCGACGCCATCCGCCGC 
 >PredictedProphage1 -Hit 4 
 CCACATTCCGAATGCGCGGCTGGAAGGCCGCCAGGAAGCGCCCACACCTTTCCAGAGTCGCCGTATCGCCTGTAGCCAGCGCGCTCGCGAGCGATGCTTTCATCCCCGGCGACAGGATCTCCACGCGCCCCACGAACACCCGAACCGTCGCCGCGGGCGCAGGCGTTACCTTCAACGGCAGCGTCTCATCGACCGTGTTTCGCGGCAGAATGTAGAACACGCGCATTCCTTCCTCGAACCAGGAATCGCGCCACGTATCGATCATCGCGGCCGCCTCCTTCGGATACAGGCCGGCCTCCGTGAGGGCACTGGCGAGCTCGCGGCGAAGGTTCGCAATGTTTGCCGTCAACGGGGGCGGGTCGATCGCAGCCCAGCGGTCGAGATCGCGCAGCACGCGGTAGCCTGTCTTGCCGGCGCGCTTCTCGAACAGCACCGCGAAGGGCAGGGAAGTGTTCGCGGCGTTGCGCAACTCGAGTTTACCGTCGGGCT 
 >PredictedProphage1 -Hit 5 
 AGCCAGCCTAATGTCGCCTACATCGGTTTCGATAACGGCGGGGTTTGGCGCTCCACCGATTTCGGCTCTACTTGGGTGCCGCTCTTCGACCAGCAGCCTACCGGCTCGATCGGCGCCATCGCGGTGGCCGCTTCCAATCCGAACGTGATCTACGTCGGCTCCGGCGCCGGCATCATCCGCCCCGACCTGGCGACGGGCGATGGCATGTACAAGTCCACCGACGCCGGCAAGACGTGGACCCACCTCGGCCTGCGCGATTCTCAAATGATCGCCGATATCGAAGTCGATCCGCGCAATCCGAACCGCCTGTTCGTAGCCGCTCTAGGCCACCCCTACGGGCCCAACGCCGAGCGCGGTATTTTCCGCTCGACCGACGGGGGTGCTACATTT 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 RRLPAYAKTPSPPSISHLAPRALTSSACGIYAARIPRSTHPRAAAAREPATSSRQAPARPVPLDSAGSPRTRAGRSRTIPQPCAANRRAPAPGSRSQARKARAPEDTPHRPPRSRTENAP 
 >PredictedProphage1 -Hit 2 
 QFHPEGDVWAHTLLLLEQLRNPTPTLALGALLHDVGKPPTFRVADRIRFDGHVEEGVRIAHAIL 
 >PredictedProphage1 -Hit 3 
 YLVGGCVRDHLLGCKPKDYDIATDARPDRIMDLFPSSGRVGAHFGVILVRDVFDQVEVATFRSDHDYLDGRHPEQVRFECDPREDVLRRDFTINGLMLDPDTGRVLDFVDGQGDLKRGIVRAIGDPYARFREDHLRLLRAVRFAARLGFEIEPATFDAIRR 
 >PredictedProphage1 -Hit 4 
 PHSECAAGRPPGSAHTFPESPYRL_PARSRAMLSSPATGSPRAPRTPEPSPRAQALPSTAASHRPCFAAECRTRAFLPRTRNRATYRSSRPPPSDTGRPP_GHWRARGEGSQCLPSTGAGRSQPSGRDRAARGSLSCRRASRTAPRRAGKCSRRCATRVYRRA 
 >PredictedProphage1 -Hit 5 
 SQPNVAYIGFDNGGVWRSTDFGSTWVPLFDQQPTGSIGAIAVAASNPNVIYVGSGAGIIRPDLATGDGMYKSTDAGKTWTHLGLRDSQMIADIEVDPRNPNRLFVAALGHPYGPNAERGIFRSTDGGATF 
 



Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig151

Genome size:  77124
Host's GC content:  61.55
Predicted Codon Position GC:  	1st:  64.75	 2nd:  43.32	 3rd:  71.83

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig152

Genome size:  67619
Host's GC content:  62.99
Predicted Codon Position GC:  	1st:  65.64	 2nd:  43.71	 3rd:  74.28

 >PredictedProphage1 
 Length:   9423 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 62.34 	 62.11 	 54.76 	 57.64 	 73.93 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	8	0.131147540983607
 Leu	TTA	2	0.0327868852459016
 Leu	CTG	32	0.524590163934426
 Leu	CTA	2	0.0327868852459016
 Leu	CTT	4	0.0655737704918033
 Leu	CTC	13	0.213114754098361
 Lys	AAG	6	0.545454545454545
 Lys	AAA	5	0.454545454545455
 Glu	GAG	3	0.6
 Glu	GAA	2	0.4
 Gln	CAG	25	0.892857142857143
 Gln	CAA	3	0.107142857142857
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	3	0.375
 His	CAC	5	0.625
 Asn	AAT	6	0.222222222222222
 Asn	AAC	21	0.777777777777778
 Ser	AGT	13	0.146067415730337
 Ser	AGC	33	0.370786516853933
 Ser	TCG	16	0.179775280898876
 Ser	TCA	2	0.0224719101123595
 Ser	TCT	3	0.0337078651685393
 Ser	TCC	22	0.247191011235955
 Trp	TGG	4	1
 Arg	AGG	0	0
 Arg	AGA	2	0.133333333333333
 Arg	CGG	3	0.2
 Arg	CGA	1	0.0666666666666667
 Arg	CGT	1	0.0666666666666667
 Arg	CGC	8	0.533333333333333
 Ala	GCG	20	0.210526315789474
 Ala	GCA	21	0.221052631578947
 Ala	GCT	18	0.189473684210526
 Ala	GCC	36	0.378947368421053
 Cys	TGT	1	0.25
 Cys	TGC	3	0.75
 Asp	GAT	12	0.5
 Asp	GAC	12	0.5
 Gly	GGG	9	0.104651162790698
 Gly	GGA	12	0.13953488372093
 Gly	GGT	13	0.151162790697674
 Gly	GGC	52	0.604651162790698
 Phe	TTT	1	0.0526315789473684
 Phe	TTC	18	0.947368421052632
 Tyr	TAT	12	0.428571428571429
 Tyr	TAC	16	0.571428571428571
 Met	ATG	9	1
 Val	GTG	25	0.333333333333333
 Val	GTA	8	0.106666666666667
 Val	GTT	8	0.106666666666667
 Val	GTC	34	0.453333333333333
 Thr	ACG	35	0.304347826086957
 Thr	ACA	12	0.104347826086957
 Thr	ACT	10	0.0869565217391304
 Thr	ACC	58	0.504347826086956
 Pro	CCG	19	0.365384615384615
 Pro	CCA	2	0.0384615384615385
 Pro	CCT	11	0.211538461538462
 Pro	CCC	20	0.384615384615385
 Ile	ATA	2	0.0465116279069767
 Ile	ATT	16	0.372093023255814
 Ile	ATC	25	0.581395348837209
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 9815	10087	1	ref|NP_112719.1|ORF56 	39.7bits(91)	0.038
 14581	15096	-1	ref|NP_996598.1|hypothetical protein predicted by GeneMark	40.0bits(92)	0.029
 16414	17316	-1	ref|NP_705657.1|gp31 	38.1bits(87)	0.11
 17836	18330	-1	ref|NP_064745.1|gp7 	48.1bits(113)	1e-04
 19031	19237	-1	ref|YP_006979.1|putative tail protein	36.2bits(82)	0.42
 
 DNA sequence:
 CTCGATACGCCGGAGACGGCATTCGCCGCCCATCTCCGCCTGGTGGATATTCACCCTTTCAATGACGGTAACGGGCGTACAGCGCGACTGCTGATGAATCTGGTGCTGCTTCGCGGCGGTTATCCTCCCGTGGCAGTCCGGCCCGAGGATCGCCTGGATTACATTCGCAGCTTACAGCGCGCACAATCCGGGCAGGGTACGGAGAGCTTCACGAGCCTGCTCTATCAGCGGCTGGATGCCACGCTCGACGACTACTTGAGCGTGCTGCACGCGACTTAAGCGCGCCAGTTGATGCCGACGTTCATTTTCTTGCGGGCGTATTCCCAACTGCGTTCCAGATCCACGCGCTGCTGCTCTTTGAGTGCCTCGTCCATCACGGCGGCCTTCTTGCCGGGGACATCCTCGATCACCATCGCGCCCATGAACGGGTGGCCGGTCTTGGCGAGTTCGACAAAGCGCGCGAACTCCCAGGCGGGCATCTTCGGGAATGCCTTCCAGAAATCGGCTTTCAGGTAGGGCAGGGGACGCGGTGGGCGGCCGGTGATGATTTCCAACTGCATTGAGGAGGTGGGGCACAGACGGCGGAATTCCTGCACGAAGCGGACGAGATCGACATTGCCATCGCCGCAGGCGACCCACTGCCCGGCAGCGCCCTCGGGGGTCTCGAACACGACCGAGTCGCGGACGTGCGTGGTGACCACGTAGGGCGCGAGGATCTCGAGCGCGACGAAGGGGTCTTCCACACACCAGATGGGATTGCCGGTGTCCAGGCAGGAGGCCACGAAATCCTTGCCGGCGGTCTCGATGATGGTCCGCACTTCGCGGGCCTGCATGTCGCCGGAGTGATTTTCGAGCGCGATCTTGACGCCGAGGTCCATGGCCTCGGAGCGCACCGAGCGGAAAACCTTGATGGTGTTCTCCATGTGGGCCTCAATGGGGAGAGGGCCGAGCCGGTCTTCGCTCGAACCCATGTAGCATCGCATGGATT!
 TGGAGCCCACCGCGTGGGCGACCTTCAGGCCTTCGATGATCTGGTCGCGTGCGGGCGGACCCTTCTTGTTGAAGCTCTTGCTGGAATCGCAGATGCAGCCCATGCCGCTATCGATCGAGATATGCAACTGCGCGGCGCGGTCCTTCACCTTCTGCAGGTTCTGCGCGTCGAGACTGCCGTAATCGCCGAGAGCGGAGAACTGGATCGTGTCCAGCTTCTGGCTGGCGGCGTAGTCGAGGAGTTCGATGCCCTTCCATTTGAACGCGCGCACGGAGTAGGTATCGAAGCCGAGCTTTACCGGGACCTCTTCGGCGGGCGCCGCGGAAAGGGCAGCGGCTGCCACCGGCAGGGTCTGAAGGAAGGTGCGACGAAGCATGAAGATACTGTAACGCAGGTACCCGTCCGGGGCGGAATTCCCCATTGACAGATTCAGCTATATACCCTAATGTCGATAGGGTATGGTTAGATTGCTCGTTTTTATGACAGTTATGGCGTTATCTCTGTTCGGCCAGGTGGGCAGCAGCACCTTGACGGGCCGAGTGGCGGACGCTTCGGGGGCGGCGATTCCGGGAGTCGCGATCCGGATCGTCAATCAGGATTCGGGAGCGGCACTCGACTTGGTAACCAATCACGAGGGCAGCTATACGGCGTCGGCGCTCCTGCCGGGAACCTACCGGGTGGAGGCGCGGGCGGCTGGTTTCGACCCCTTGGTCCGCAAGGGAGTGGAGCTCGCGGTGGTGCAGACCGTCGCGGCCGATTTCACCTTGCAGGTGGGCGGGCAGAATCAGACGGTGGAAGTGACGGGCGACCTCCCGGCGCTGGACACGCAGAGTTCGTCGGTGGGGCAGCTCGTCAATCACAAGATGATCGACGATCTGCCGATGCCGAACCGGGCGGCCACGTCGCTGATCAACCTTTCGCCCGGGGTGGTGATGATCACCAGCGGAGAGGGCGCCGAAAACT
ATCCGGTTTTCTCGGTCGCCGGCGGTCGCGCCCGAAACCAGGATTTCACGCTGGATGGCGGCAACGTGACCAACGCGGTGGGCGTGACGCGGCCGCAGCAGCAGACAAGCCTGCCGCTGGACGCGATGCAGGAATTCCGCGTGATCACCAACAACTATTCGGCGGAGTACGGGCACTCCACGGGCGGAATCATCGCGCTTTCCACGAAATCCGGCACCAACCAGTTTCACGGCAGCCTTTTCGAGTTCGCACGCAATAACGCGTTCGACGCGCGCAATTTCTTCGCCGCGGCGACGCCGCCCTTGAACCTGCACCAGTTCGGCGGCTCGGTGGGTGGTCCGATCCGCAAGGACAAGACGCACTTCTTCGCCAGCTGGGAGGAGACTCGCGAGACCTTCGGCAGCGCGAGCGTGGCGACGGTGCCGGCGCTGGCCGAGCGCGGCGGCGATTTCTCCGCGTTGAGTTCCGTAATCTACGATCCCGCGACGCTGAGCGGCGGGAAGAAGCAGCCCTTCGCCGGCAACATCATGCCGCGATCCTCGATGGACCCGGTGACGCTGGCGGCGCTCGCGTATTTCCCGCTTCCCAATCGCGGGGCGGCAGGCGCGCTATCGAACAACTTTGGCGCCAACAGCCACTCCACGCTGCGCCGCGACATTCTGGTGGGCAAACTCGATCACAACGTGAGCTCGAACGATTTGCTGACGGCGCGCTACTACATCAACGATTACGCGCAGGTGGATGACGGCGCCTATGGGATCCCGGTAGCCGACCCCAACGCGAGTACGACCGACGGGCGGGTGCAGAGCATGATGGCGAGCTACGTCCACATCTTTAGTCCCACGGTGACCAATAATCTTTCGGTGAGCTACGACCAGCGCAAATTTCTGCAGCAGCGGCTGGGCGCCGGCGCGGGACTGGCGCAGCAGATCGGCCTGGCGAACGTGAGCGCGGCGGCATTCCCGACTTTTGCGGTCAATGGGTATGTC!
 GCGCTG
GGCGCGCCCGGGACCACGAATGCGGCCGTGGCCCGACTGCAGACGCCGATCACCGACACGCAGGTGCTGGAATCGGTCAGCAAGTTCGCCGGCAAGCATGCGATCAAAGCGGGGGTGGAATACCGGCGCGGGGCCAACCGGGAGACGGACGACATTACGTCGTCAGGGGCGCTGACGTTCACGCGGCAGATTACAGACCAGCCGGGCGTCTCGGGCACGGGGGATGGGTTCGCGAGTTTTCTGACCGGCCTGGCGAATGCGGCTTCGCTGCAAAAGCTGGACACGATTCCGTCGCATGCGGCCTACTGGGCGGCGTACGCGCAGGACGACTTTCGCGTGGCGGAGCGGCTCACGCTGAACATCGGACTGCGCTGGGAGGCGGAGCTGCCGCGATCGGTGGATGGGAACCGGATGAACGCATTCGATCCGGCGGCCCTCAATCCGGTTTCGGGAACGCCGGGCGTAGTGACGTTCGCGGGTGTGAACGGCGTGCCGCGGACGGCCTTCAACGCCAACTATCACAACTTCGCGCCGCGCTTCGGATTCTCCTGGCGCGCGCCCTTCGCCAAAAACCTGGTGGTGCGCGGCGGCGGCGGAATCTTTTTCGGGCCCATGGTGAGCAACAGCGTGGGGCCCGCGGCCTCGCTGGGCTTCGGCGATGCGCTCAGTCTGGTGGCGGCAAGCGCGGACACCACCTGGACCCTGGCGATGCGCAACGGTTTTCCGGTGTACACGCGGCCCTCAATATCCTCGAGCGGCTTCGGCGCTGTGCCGGTGGGGGCGAAAACCACCACCGCGGTCACGTTCTTCGATCGCGCGCGGCCCGCTCCGGTGTCCTACCAGTTCAACTTCGAAGTGCAGGACGAGGTGGCACCGAACCTGGTCGTCGAGGCGGGCTACATGGGCAACGTCGGGCGGCATCTGACGGCGAGCGATCTTTCCATTGATCAGGTGGCGCCGCAGCTGCTTGGGCCGGGGAACCTGCAGGC!
 GCTGCGGCCGTTCCCGCAGTTCAGCAACGTGTCGATCATCAATCCGCCGGTGGGTAACTCCAGC
TATCACGCGGGTTTCGTCAAGCTGGAGCGCCGCTTCAGCCACGGGCTCTCGCTGCTGGCGCACTACACGTTCTCCAAGTTTTTGGACGATGCGGCCAGCGCCAACGAATTCGGGGATCCGGGGAGTTATATGGATGCCTACAACCGGCGGCTCGATAAGGGGCTCAGCGGCAGCGATATTCCGCATCGCGGCGTGATCACGCTGCTCTATTCGGCGCCTGCCGTTACGCGGTTGCGCCTGGTGCGGGCGGCGACCGCGGGATGGCAGCTCGGGCTGTTGACCGTGCTGCAATCCGGCGCACCGTTCACAGTATACGATTCGGTGAATCAATCGAACTCGTTTTCCGCGGGGACGATGCGGCCGGATCGTGTTGGGGATGTGAGCGTGAGCGATCCGACGCTGGCCCGCTGGTTCAATACCGCGGCATTCCGTAGCGCGGCGCCATACACGTTCGGGAATTCGCCGAGGAGCGTGGGAAGGGGTCCCGCGTGGAAGAACGTGGACCTCACGTTGGCGCGCAATTTCAAAATTCGGGAGCGGCTGCACACGGAAGTTCGCGGAGAGTTCTTCAACGTGATCAATCATGCGAATTTCGATCTGCCGGGTCACACTCTGGGGAATGCCGATTTCGGGGTGATCTCGTCGGCCGAGGCCGCGCGAACGGTGCAATTGGGGTTGCGGTTGTTGTTCTAGGAATAGAAAACGGCGGCGGGAGGTTGCCCTCCCGCCGCCGCGGTTGTACAACGGTTTTGTTTGGCTGATGGCTAGGTTGCCGTGATGTTGAAGACCACGGTGATGTAGCCGGTCACGCCAGTGGAATCCACTGCCTTGAACACGACCGTGCCCGAGGATATGCCTGTCGGAACACCGGTAATGCTTCCATCGGCGTGCCATTGCAGCCCGGTGGGCAGAGTGCCGCTGTCTATGGTGTAGACATAGCCGCCGGAGCCGCCGCTGGCCACAATGGAGCCGGTTCCACCGGCGCCGGG!
 AGTGAC
GTTGCCGTTGACTACGATCGACGAACTCATGAACAGACCGGCGCCGACATGGACGGTGAAGCTGACGGTGCCGGTGATCGGGGGCGTGGAAGTATCGGTTGCCGTGACGGTAACCGGATAATCTCCCATCGTACCCATAGCGGGGGTTCCCGTAATCTGGCCGCCGGTGGTCAGGGACAGGCCAGAGGGCAGTACGCCCGAGGTAATTGCGTACGTGTAACCCGAGCCGCTGCCTTCGGTAGCGACGACTAGGTGGCCGGCTCCCGTTGTGGCAGCCGCGCCGACTTTTTCCGTAAGAACCGCTGGGTTTCCAGTGGCATCCGGCGGTGTGGCAACGACCAGGCGCGGCGCCACCCAAACCATCACGCCGGTCTGGCTGTACTTGTTGTCCTTGGTCTTGACGCATACCGGCAGTTGCGTGGGTTGCGTGATGTTCGTGATGGAGCCGCTGTAGGTCGCGCAGTCGTCCCCAACAGAAGTGTAGAACGTGCCCGAAGTGCTGGGGAGCGTCGCATTGACCTGATAGAGGCCGGCGATGGAATCGGCCACCCACCCGGCATAATCGACCGATTGGGCAGGTACGCCGCCGATCTTGACGACCGGAAGTTGATCGACCTTGTCCAGGCAGGGAACGAAGCGTCCCGTGTTGAGTAGCGAACTCTGGAGGATCAAGCCGTCCACCGTAGAGAGAGCGACGCCGGTGAGGGCGCCGAGCGCGTCGGTGTAGCCCGACGGTGCGATGCAATCATCCGACCATTTCAAGCCGTTGCCGCTGTTGTTGGCGGAGGCGGTGGCATTGTCGGCGACAGTGCTGGGAGCGCCCATACCGGTCATGTAGACCATCACCGGGTCCGAAGTGGCGCCGGAGTGCATGACGACGGGATTGCTTTGGCCGACCACAAAGTAGTTCTTGTCGAGGATGGCGCCGTTGCCCTGACCACTGGCTGCTATGGTGAAGATTCCAGGGTTGGTCGCAACCGCGGTTACAG!
 GGAAGGGATTGCTGGACACGGTGCTGGCTCCGGTTCCGAAGCTCACCACGATGTCTACCAGGTT
GTTGCCGGAGATCGCGGTGGTGACCGTCGAGGGAACGAGCAGATTGATCTGATTGTTGGTGGCGAACAGCAAGGGTGCGGTCACCGATGTGAAGGTCGGGCCGTCAGGCGCGTGTTGCTGGAAGGTGACCTGCAGCGTCCGGGTGACGCTGGCCCCATCCGTGTTGCTCAAGGATGCGGGATATGCCAGGGTCGAGCTTTGCGGAGTTCCATACATGATGCTGTTGGTGCCCACGCAGCTGGAGCATAGATTCGTGCCGAAGATGCTGATCATGTCATATGGCGCCACCGGAGGATTACTGGGGGCCTGAACATACGACGAGGCGCTGGTGACCGTCTGAATGATGGGCTTCGCGCCGATGGTCAGCGTGGTCTTGCCCGTGGGAACGGTGCAGGTGGCGCCGGCCGGGTTGCATACACCTACGGTTACGCCGAAGGTTGTGGCGGTCGCAAAATCCAGGAGCGCGTCCGGGGTGTTCGGGACCGTAATGGTCAGCAGGATATTCGAAGCATTGAGCACGTTGACGTTGAAATTGGTGTCCGTGACAAAGGCGCCCGCCTGATTCACGATTCCTACCGTGGTTGCCTGGGTGATGTCGGTGCTCTTGACGAAGCCGCTGCCGATCAGGACAACCTGCACCTGCTGGCCGGGGCTCAGCGTCGGCACGATCATGGGGCTGACTCCGGTGAGAATGGCGCCCGGGGCCTGGGCCGTGAGGTTGAACGTGACCACATAAGTGGTGGCAGGACTGCCGGATGTGATACTCACTGTTCCCGACACCATCGTGCCAGGCGCGACGCCGGTGAAGGCGGACTGGCTGAAGGTGACAGGGATCGTTGTGCCGAAACTGTAGGCCAAGCCCGCGATTTCGGCTTTGGGGATAATCGGAGCCAGGGTGCCGCCGCTCACAATGCTATATGCGATGGGAGCGTCGCTGGATTTCAGCGTGACGTAGAGGGTGGGAAGCGGCTGTCCGATGGTCCAGGAAC!
 AGCTCT
GCGTCGCATTGGTCACGTTGCAGCCGGGAGTTGCCGTGCCGCTGACCGAAAGGGTGGACTGGGGGTTACTCACCCGCATGGGAATGTTTACGAGCAGATCGCCGTAGTTCGCGCTCTGAATGCGGATCTTCTGGCTGTAAGATCCCGGAGCCATGGTATCGGCGATGCTGGTGGAACTGAAGCGCAGGCTTCTGGGCGTGAGCCCGCTGGTGGCGTCAACCGTGAGCCACGTCGGCAGAGAACTGGTGTCCACGGTGAAGTAATACGGAGCTCCAGGCGTAGTGTTGGTGATCGAGACGTCCAGATAGCCGGGTGTACCGGAACCTCTGACATAGGTCAACGCAGGTGCGCTGAGACTCGACTGCAACGGTGTGGCAGCGACCATGTTCAGGGTGACGTTGATGATCTTGTCCAGGTTCTGACCGTTGGTCAAGTGAATGGTCCCCGAATGCGAGCCCGTGGTAAAGGCGCCGCAAGTGCTGTTCGGAGCGATGGTGAAGTTGTAAGGCGTAGTCCCCGCGGTGCCGCCTACGCTGGCGGCCGCCGGATTCAAAGTCGCCCACGCAAGGGCGGTGCTCACGCTCGCGGATGTATTGACGCTGAAGGCCAGGTTGGCGGCGGTAGGACCGGTCACGGAAACGAGCTGTGCCTGCCCCAGGCTATAGTCGCTGGCGGTGGTGCCGGACCCGGTATGGGTACAGTTGATGCTAATCGCGCTCGGCGACACGGTAAGTGGGGAGACACCCGCGGTTACCGTGAAGGATACCGTAATTACCTTGTCTGTCACGGTAATTCCCTGCGGTCCGCCGGTGACTGTGCCGGTGAGGCTGAAGGTTTGGGTCGTCGTTCCCGCACCCGCGTTGGCGCAATATGGCTGTGCATTGACGGAGACGCTGACACCGCTCCAGGATGACGAGGTTTGCGCTGTCGAGGGTACCGAAACTACGAGCGGACTGGCGGACGCCAGCACGGGAGAACCGGCTTTGGTG!
 TAAGCGGTAGCCGTATAGACGATGGAAGCGCCCACGGGCGGAGCTGCCGCCAGGGCGACATTGA
ACAGCTGCGCGGTAGGAGTTGCGGAGCCTGAGTTGCAAGCAAACGTCAGACTCGCGGAGGGAGTAACGGCCGATGTTAAGGCACTGCCTGCTACAACGAAGGTCACCGTAATCACTTTGTCGGTGACGGTGACGCCGGTCGGGGCGCCGCTGACGGTTCCTGTCAGGTTGAAGGTCTGAGTGGTGCTGCCAATGCCGGCGGCAACGGCGCAGTAGGGCTGCGCGTTTACGCTGACACTAATGCCTGCCCATGACGACGGGGTTTGTGCCGTGGATGGCACGGTAACCACGAGTGGACTCCCGGCCGCCTGGACGGATGCACCCGCGTTCGTGTATGCCGTAGCCGAGTAGACGATGGAGCTGCCTGTGATCGGAGCTGCCGACAATACCGCGGTAAGCAGCTGCGCGGTAGGTGCGGCGTTGCTGGTGCTGCAGTTGTAGGTAAAGCTCGAAGCTGGGGTGACGGTGGTGGTGTAAGCGATCGCGGGGACCGTGAAGGTGACGGTGATGGTTCCGCTGGTCAAGCCGCCCGTACCGGTGAAATTGAAAGCGGCAGTGGAAGTTCCCGTGGCGCTGATGTTTGCGCAGTACGGTTGTGAGTTGATGTTGAAGGTGATGCCGGTGGAATAGGCGATGGCGCCACCGGTGGTGGTGGCGGCGAGAGTAGTGCCCGCGGCCGCGACTGCTGTGATCGGGCTCGATCCCGTGAGAGAGGTGCCGATCGTGATCGTCGATGACGGCGACGCCGAAAGCGTCACGGTGACCGGGTGGTTGGTGGATATCAGGTTGGCTGCCGAGGAGGTTTGCAGGTTGCAACTGACGGCGATACCGGACGTGGTGACGTCGGTTGCTCCTACCTTAACGACAATTCCGGATGCAAACAAACTGCTCGTGGAGGTAACCAGCGCGAGCAGGAGGAGAAGAATAGCTCTCGATCTGTCGATTCTGAGATGGTGTTTCATTTAGCGCTTCCTTTGCTTGACTCGACGG!
 CTTTCC
TGCCGCGGGCGACCATTTGATCGGTCACTGAGCTTCGTATCGGCATCCTGATCGAAAATCATGAGGGGGACTTTGACCTAGTACCACTAGCCGGAGAGAATTTCGGAGAGGTTGATGGCACCGTTAGTTGACGGATAGGGTGAAGGTCAAACTGCCGCTCAGCGGGTTCGCCGCGGCATCATTGGCGGTGATCGTGATGCTGTAGGTGCCCTTGGCGGCCGCTGTCGGAATCCCGGAGATTGCACCGCTGGCAGGGTCGAGCGTCAACCCGGCAGGCAGCGACCCGCGGGTCACAGCATACTGATACGGAGCAGCGCCCTGGCTGGCCTTTAC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 CTCGATACGCCGGAGACGGCATTCGCCGCCCATCTCCGCCTGGTGGATATTCACCCTTTCAATGACGGTAACGGGCGTACAGCGCGACTGCTGATGAATCTGGTGCTGCTTCGCGGCGGTTATCCTCCCGTGGCAGTCCGGCCCGAGGATCGCCTGGATTACATTCGCAGCTTACAGCGCGCACAATCCGGGCAGGGTACGGAGAGCTTCACGAGCCTGCTCTATCAGCGGCTGGATGCCACGCTCGACGACTACTTGAGCGTGCTGCACGCG 
 >PredictedProphage1 -Hit 2 
 AAAGTCGGCGCGGCTGCCACAACGGGAGCCGGCCACCTAGTCGTCGCTACCGAAGGCAGCGGCTCGGGTTACACGTACGCAATTACCTCGGGCGTACTGCCCTCTGGCCTGTCCCTGACCACCGGCGGCCAGATTACGGGAACCCCCGCTATGGGTACGATGGGAGATTATCCGGTTACCGTCACGGCAACCGATACTTCCACGCCCCCGATCACCGGCACCGTCAGCTTCACCGTCCATGTCGGCGCCGGTCTGTTCATGAGTTCGTCGATCGTAGTCAACGGCAACGTCACTCCCGGCGCCGGTGGAACCGGCTCCATTGTGGCCAGCGGCGGCTCCGGCGGCTATGTCTACACCATAGACAGCGGCACTCTGCCCACCGGGCTGCAATGGCACGCCGATGGAAGCATTACCGGTGTTCCGACAGGCATATCCTCGGGCACGGTCGTGTTCAAGGCAGTGGATTCCACTGGCGTGACCGGCTACATCACCGTGGTCTTCAACATCACGGCAACC 
 >PredictedProphage1 -Hit 3 
 ACGGGCTCGCATTCGGGGACCATTCACTTGACCAACGGTCAGAACCTGGACAAGATCATCAACGTCACCCTGAACATGGTCGCTGCCACACCGTTGCAGTCGAGTCTCAGCGCACCTGCGTTGACCTATGTCAGAGGTTCCGGTACACCCGGCTATCTGGACGTCTCGATCACCAACACTACGCCTGGAGCTCCGTATTACTTCACCGTGGACACCAGTTCTCTGCCGACGTGGCTCACGGTTGACGCCACCAGCGGGCTCACGCCCAGAAGCCTGCGCTTCAGTTCCACCAGCATCGCCGATACCATGGCTCCGGGATCTTACAGCCAGAAGATCCGCATTCAGAGCGCGAACTACGGCGATCTGCTCGTAAACATTCCCATGCGGGTGAGTAACCCCCAGTCCACCCTTTCGGTCAGCGGCACGGCAACTCCCGGCTGCAACGTGACCAATGCGACGCAGAGCTGTTCCTGGACCATCGGACAGCCGCTTCCCACCCTCTACGTCACGCTGAAATCCAGCGACGCTCCCATCGCATATAGCATTGTGAGCGGCGGCACCCTGGCTCCGATTATCCCCAAAGCCGAAATCGCGGGCTTGGCCTACAGTTTCGGCACAACGATCCCTGTCACCTTCAGCCAGTCCGCCTTCACCGGCGTCGCGCCTGGCACGATGGTGTCGGGAACAGTGAGTATCACATCCGGCAGTCCTGCCACCACTTATGTGGTCACGTTCAACCTCACGGCCCAGGCCCCGGGCGCCATTCTCACCGGAGTCAGCCCCATGATCGTGCCGACGCTGAGCCCCGGCCAGCAGGTGCAGGTTGTCCTGATCGGCAGCGGCTTCGTCAAGAGCACCGACATCACCCAGGCAACCACGGTAGGAATCGTGAATCAGGCGGGC 
 >PredictedProphage1 -Hit 4 
 AACGCCGCACCTACCGCGCAGCTGCTTACCGCGGTATTGTCGGCAGCTCCGATCACAGGCAGCTCCATCGTCTACTCGGCTACGGCATACACGAACGCGGGTGCATCCGTCCAGGCGGCCGGGAGTCCACTCGTGGTTACCGTGCCATCCACGGCACAAACCCCGTCGTCATGGGCAGGCATTAGTGTCAGCGTAAACGCGCAGCCCTACTGCGCCGTTGCCGCCGGCATTGGCAGCACCACTCAGACCTTCAACCTGACAGGAACCGTCAGCGGCGCCCCGACCGGCGTCACCGTCACCGACAAAGTGATTACGGTGACCTTCGTTGTAGCAGGCAGTGCCTTAACATCGGCCGTTACTCCCTCCGCGAGTCTGACGTTTGCTTGCAACTCAGGCTCCGCAACTCCTACCGCGCAGCTGTTCAATGTCGCCCTGGCGGCAGCTCCGCCCGTGGGCGCTTCCATCGTCTATACGGCTACCGCTTACACCAAAGCC 
 >PredictedProphage1 -Hit 5 
 GTAAAGGCCAGCCAGGGCGCTGCTCCGTATCAGTATGCTGTGACCCGCGGGTCGCTGCCTGCCGGGTTGACGCTCGACCCTGCCAGCGGTGCAATCTCCGGGATTCCGACAGCGGCCGCCAAGGGCACCTACAGCATCACGATCACCGCCAATGATGCCGCGGCGAACCCGCTGAGCGGCAGTTTGACCTTCACCCTATCCGTCAAC 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 LDTPETAFAAHLRLVDIHPFNDGNGRTARLLMNLVLLRGGYPPVAVRPEDRLDYIRSLQRAQSGQGTESFTSLLYQRLDATLDDYLSVLHA 
 >PredictedProphage1 -Hit 2 
 KVGAAATTGAGHLVVATEGSGSGYTYAITSGVLPSGLSLTTGGQITGTPAMGTMGDYPVTVTATDTSTPPITGTVSFTVHVGAGLFMSSSIVVNGNVTPGAGGTGSIVASGGSGGYVYTIDSGTLPTGLQWHADGSITGVPTGISSGTVVFKAVDSTGVTGYITVVFNITAT 
 >PredictedProphage1 -Hit 3 
 TGSHSGTIHLTNGQNLDKIINVTLNMVAATPLQSSLSAPALTYVRGSGTPGYLDVSITNTTPGAPYYFTVDTSSLPTWLTVDATSGLTPRSLRFSSTSIADTMAPGSYSQKIRIQSANYGDLLVNIPMRVSNPQSTLSVSGTATPGCNVTNATQSCSWTIGQPLPTLYVTLKSSDAPIAYSIVSGGTLAPIIPKAEIAGLAYSFGTTIPVTFSQSAFTGVAPGTMVSGTVSITSGSPATTYVVTFNLTAQAPGAILTGVSPMIVPTLSPGQQVQVVLIGSGFVKSTDITQATTVGIVNQAG 
 >PredictedProphage1 -Hit 4 
 NAAPTAQLLTAVLSAAPITGSSIVYSATAYTNAGASVQAAGSPLVVTVPSTAQTPSSWAGISVSVNAQPYCAVAAGIGSTTQTFNLTGTVSGAPTGVTVTDKVITVTFVVAGSALTSAVTPSASLTFACNSGSATPTAQLFNVALAAAPPVGASIVYTATAYTKA 
 >PredictedProphage1 -Hit 5 
 VKASQGAAPYQYAVTRGSLPAGLTLDPASGAISGIPTAAAKGTYSITITANDAAANPLSGSLTFTLSVN 
 



Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig153

Genome size:  59821
Host's GC content:  63.62
Predicted Codon Position GC:  	1st:  66.02	 2nd:  43.88	 3rd:  75.34

 >PredictedProphage1 
 Length:   13334 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 62.10 	 60.93 	 59.90 	 41.11 	 81.79 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	17	0.123188405797101
 Leu	TTA	1	0.0072463768115942
 Leu	CTG	73	0.528985507246377
 Leu	CTA	4	0.0289855072463768
 Leu	CTT	6	0.0434782608695652
 Leu	CTC	37	0.268115942028986
 Lys	AAG	56	0.746666666666667
 Lys	AAA	19	0.253333333333333
 Glu	GAG	54	0.627906976744186
 Glu	GAA	32	0.372093023255814
 Gln	CAG	44	0.916666666666667
 Gln	CAA	4	0.0833333333333333
 End	TGA	1	1
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	10	0.344827586206897
 His	CAC	19	0.655172413793103
 Asn	AAT	15	0.326086956521739
 Asn	AAC	31	0.673913043478261
 Ser	AGT	5	0.0602409638554217
 Ser	AGC	24	0.289156626506024
 Ser	TCG	29	0.349397590361446
 Ser	TCA	1	0.0120481927710843
 Ser	TCT	2	0.0240963855421687
 Ser	TCC	22	0.265060240963855
 Trp	TGG	10	1
 Arg	AGG	5	0.05
 Arg	AGA	2	0.02
 Arg	CGG	31	0.31
 Arg	CGA	5	0.05
 Arg	CGT	7	0.07
 Arg	CGC	50	0.5
 Ala	GCG	65	0.565217391304348
 Ala	GCA	8	0.0695652173913043
 Ala	GCT	4	0.0347826086956522
 Ala	GCC	38	0.330434782608696
 Cys	TGT	4	0.173913043478261
 Cys	TGC	19	0.826086956521739
 Asp	GAT	37	0.435294117647059
 Asp	GAC	48	0.564705882352941
 Gly	GGG	33	0.379310344827586
 Gly	GGA	15	0.172413793103448
 Gly	GGT	4	0.0459770114942529
 Gly	GGC	35	0.402298850574713
 Phe	TTT	8	0.142857142857143
 Phe	TTC	48	0.857142857142857
 Tyr	TAT	13	0.302325581395349
 Tyr	TAC	30	0.697674418604651
 Met	ATG	37	1
 Val	GTG	56	0.622222222222222
 Val	GTA	5	0.0555555555555556
 Val	GTT	2	0.0222222222222222
 Val	GTC	27	0.3
 Thr	ACG	35	0.479452054794521
 Thr	ACA	3	0.0410958904109589
 Thr	ACT	5	0.0684931506849315
 Thr	ACC	30	0.410958904109589
 Pro	CCG	52	0.658227848101266
 Pro	CCA	2	0.0253164556962025
 Pro	CCT	2	0.0253164556962025
 Pro	CCC	23	0.291139240506329
 Ile	ATA	2	0.0235294117647059
 Ile	ATT	25	0.294117647058824
 Ile	ATC	58	0.682352941176471
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 37646	37909	-1	ref|NP_438136.1|hypothetical protein	40.8bits(94)	0.015
 38064	38792	-1	ref|NP_665964.1|putative plasmid partitioning protein Soj	87.0bits(214)	2e-16
 41426	41851	-1	ref|NP_542342.1|unknown 	39.7bits(91)	0.034
 44700	47333	1	ref|NP_818250.1|gp199 	407bits(1045)	1e-113
 50866	50979	-1	ref|YP_164268.1|hypothetical protein	36.2bits(82)	0.37
 
 DNA sequence:
 GTTCTCGATTAGAGTGATCTCGAGCAGGCGTCCTTCCGGGATATCCCGGACCACCACCGGGACGGTTGCTACTTCGGCCAGCTTGGAGGCTCGCCAGCGGCGTTCCCCGGCCACCAACTGGTAGCGGTCACCCTTTCGCGTGACCACAAGGGGTTGGATGATGCCGTTGGAGCGAATGGATTGGGCCAGTTCGGCGAGAGGTTCCTGCGCGAAGACGCGGCGAGGCTGGAGCGGGTTCGCGTCGATCAGCGCGGGATCGATGAAGAGCGTGAGCTCCGCGTTTTCGGGCAATTCGGGCTTCTCAGCGGCAGGGGGCGGCGGAGCGACGGGAGGAGGCGCGGGGGTGCGGGTTGGGAGCAGTGCGCCAATGCCTTTGCCGAGGGCTCTACGCGGGTTGTCGGTTTTTTGCATGATCCAAGATCTCTTTCGCGAGTTTGATATAGCTTTCGGCCCCGCGGGAGCGGGGGTCGTAGGTGAGGATGGGTTTTCCGAAGCTGGGCGCTTCGGCGAGGCGCACGCTACGGGGGATGACGGTTTTGAAGACCTGGTCTTTGAAAAAGTCGCGGAGGTCGGTGGCGACCTGGCGGGTGAGGTTGGTGCGATCATCGAACATGGTGAGGAGGATGCCCTCGACTTCGAGGGGATGGTGGAAGGACTCCCGTATGCGCTCTATGGTGTCCATGAGCTCGGAGATGCCTTCGAGGGCGAAGAATTCGCACTGGATGGGGACGAGTACGGAATCGGCGGCGAGGAGGGCGTTCAGTGTGAGAAGGTCGAGGGCCGGCGGGCAGTCGATCAGGATGAACTCGTAGTTCTTCCTGATTTCGTTGATGCGAGTGCGGAGGAGGAATTCGCGGTTCGGCAGGTCCACCATTTCCAGGTTCGAGCCGACCAGGTTCTTATCCGCGGTAATGATCTGAAGACCTTCGAAGTCGGTCGGGCGGATGGCGTCCTTCATGTGCGAGTCGCCCAGAAGCACGTGATAGAG!
 ACTGGG
TTTATCGGGGTCTTTCGTGACGCCGAGACCGCTGGTACAGTTCCCCTGCGGGTCGGAGTCAATTACGAGGACGCGGATATCGTTCGCGGCAAGGGAGGCGGCGAGATTGATAGCGGTTGTGGTTTTCCCGACGCCGCCTTTTTGATTGGCAATTGCGAAGACTCGGCTCAAGGGGTGATGGTAGCATGCTGTTTCACGTGAAACAAAACGGCTGATGTTCGTGTGAGGGAATGAGGTTGTTTCACGTGAAACAGATTAGTTCGGCCCGATGTGGAGGCTGAGGTAGCAGTCCAGCACAGCGATGGCGGCTGGCGTGACGCCGGGCACGCGGCCGGCCTGACCGAGCGTGCCGGGGCGGACCTTGTCCAACTTGTCCTGAATCTCACGCGATAGCCCGGGAATTCCTCTGTATTCGAACCCATGCGGGATAGCGCGGCGCTCGGAGTCCTTCATCCGCGCCATCTGGCGCTCCTGCTGCTGGATGTACCCGCCATATTTGGCCTCAGTGGAGACGGTCTCCAGAAGTCCGCGACAGGGTGCTTCGCCCAGGACTTCCACGATCCAGGGAAGGAAATCGCTGATCGAGACCTCAGGGCGCTTCAGCAGTTGGCCGTTCTTGTGGGTTTCGAAGGCCTGCGTGAGACGCAACTTCTGGCGTTCCTTGCGCTGGAAGAGCTCCCAACGCTCGTCGGTAGCGAGACCGGCGCGGCGGCCGAGGGGAGTGAGGCGGGCATCGGCGTTATCGATGCGAAGGTGAAGGCGAAATTCGGCACGCGAAGTAAACATCCGGTACGGTTCGTCGGCGCCCTTGGTGATCAGGTCGTCCACCAGGATTCCGGCGTAGCCCTCGGTCCGGCCGATGATCACCGGGTCGCTGCCTCCCAAGCTCATAGCTGCGTTCAACCCGGCGATGAGACCCTGGATTCCCGCCTCTTCATAGCCCGACGTGCCGTTGATCTGACCGGCGAGGTAGAGACCGGGAATCGATT!
 TGACCTCCAGGGTGTGGTTTAGCTCACGAGGGTCGATCGCATCATATTCAATGGCGTAGCCCGGGCGGATCATTTCGGCCTGCTCCAGGCCAGGAATGGAGGCAACCATGGCGACCTGTACATCGGTCGGCATGCTGGTGGACATTCCGTTCACGTAGACCTCATGGGTATCCAGCCCTTCCGGTTCTAGAAAAATCTGGTGACGGACCTTGTCCGGGAATTTGACGAACTTGTCCTCTATCGACGGACAATAGCGCGGACCCACGCCTTCAATCTGGCCGCTATATAAAGGTGAGCGGGGAATCGCCTCCTGCAGGACGCGGCGGGTTTCGTCTGTGGTGTAGCCGATGTGACACTGGATCTGCTGGCGCTCGATCCGGCCAGTCAGAAAAGAGAACGGGGTGGGCTCAGCATCACCGGCCTGAGGCTCGAAACTGGACCAATCGATACTGCGGCCGTCGAGCCGGGGAGGTGTCCCGGTTTTCAAGCGGGTCCAGTTCAAGCCCATGCTGCGCAGTTGGTCACCCAAGAGTTGGGAGGGCGCTTCGCCGTTGCGGCCGCAGCTATAGGTCATCTCACCGACGTGTGCCAGGCCGTTCAGGAAAGTCCCTGTGGTGACGATCACCGCTCCCGCCGGAATCGTGCGGCCGTCACGCAGGAGCACACCGTTGACTCGGCGGACGGCATCGAAGGTCAGGGCAGCCACCTCAGCCTGCTTGATGCGTAAATTGGGTTCCGCTTCCAGGACCTCGCGCATGCGGAAGCGGTAAAGCTTCTTATCCATCTGCGCGCGCGGAGACCAGACG
GCGGGACCGCGGGAAGTGTTCAGCAGGCGGAACTGGATGCCGACGGAATCGGCGACCTCTCCCATGACGCCGCCCAAGGCGTCGATCTCGCGGACGAGGTGGCCTTTGGCGATGCCGCCGATCGCGGGGTTGCAGCTCATCTGCGCGATCAGGTCGAGGTTCATGGTGACCATGGCGGTGCGCAGGCCGATGCGCGCACAGGCGCGCGCCGCTTCGCAGCCGGCGTGGCCGGCGCCGATAACAACGACGTCGTACCGTTCGGGCATTGCTACCATTGTACGGTGAAGATACTGGTTATCGGCAGTGGCGGACGAGAGCATGCGCTGTGCTGGAAGCTGGCGCAGTCACCAGGGGTGGAGGTTTTCGCCAACCCCGGCAATCCGGGAATGGCGCTGGTGGCGACCTGCATTCCGGGGGAGGCGCTCGACGCAGCGCTGGCGATCCGAGCCGACCTGACGGTAGTGGGTCCGGAAGTCCCGCTGGTGGCCGGGGTGGTGGATGCCTTTCGGGCGCAGGGCCTGAAGATTGTGGGGCCGGATGCCGAGGCGGCACAACTCGAAGGCAGCAAAATATTTGCAAAGAACTTTTTCATGAAGAGTGGAATCCCCACGGCGCGGTATGAGGCCGTGGACGACCCACAGCAGGCGCGCGCGGCGCTCTCCCGGTTCGGCTTCCCGGTGGTGCTGAAGGCCGACGGGCTGGCGGCGGGGAAGGGCGTGATCATTGCGCAGAACGCAGCGGAAGCGGATGCTGCGCTCGAAACGCTCAAGGGAGCGATCGTGGTCGAAGAGTTCCTGACCGGGCAGGAGGTCAGCTTTATCGCGCTCTGCGACGGGAAGGACGCGCTGCCGCTCGCGGCGACGCAGGATCACAAAGCCGTCTTCGACGGGGACCGCGGACCGAACACGGGCGGCATGGGGGCGTATTGCGCGAGCGGCATCCTCAGTGACGCGGACTGCCAAATGGTGATGGAGCGCGTGATTTATCCG!
 ACGGTG
CGGGCGATGAACTTCACGGGTTTCCTGTATGCGGGCCTGATGATGACAACCGAGGGGCCGAGGGTGCTGGAGTTCAACGTCCGACTGGGGGATCCGGAGACACAGCCGCTGATGCACCGCATGAAATCAGACTTCGTTCCCGCATTGATGGCGGCGGCGGAGGGCCGGTTAGCGGGGCACACACTGGAATGGAACGCGGGGCCCAGCGTGTGCGTGGTCATGACGTCCGCGGGATACCCGGGGACGTTCGAGGCGGGCAAGGAAATCCTCGGAGTGGAACAGGCGGAGGCGCACGGCGCGGTGGTCTTTCAGGCGGGGACGCGGCTGCTGCACGGACGGCTGGAGACGGCCGGCGGGCGGGTCCTCGGGGTGACGGCGAGCGGGGCGGATTTGCCGGCGGCGATCGGGATGGCGTACGAAGCGGTGGCGAAGATTCAATTCGAGGGAATGCACTACCGGCACGATATCGCGCGGAAGGGGATAATTCGGGGATAATAGGGACGGTATGGGGACGTAGCTCAGATGGATAGAGCGGTCGCCTCCTAAGCGACAGGTCGGCAGTTCGAATCTGCCCGTCCCTACCAACTACAGTAAGAGATCGCTCCCTGACGGTCGCGGTTCGTCAGGGGTCGGTCTTCGTCACCTTAGAAAAAACTCCTTAACAAAAAGGCGGGTTGCGGCGTCTGATCGGGTATGCAGTCGCTGTGGCAGGATTTGCGGTATGGGTTGCGCGGGATGCGGAGCAATCCGGGATTCACCGCGCTGGCGATGGCAACCCTGGCCCTGGGTATCGGGGCGGGGACCACGATGTTCAGCGTGATCAAGAATGTGTTGATCTCGCCCTTTCCTTACAAAGAAGCGGAGCGCATCGCGGCCTTCCGGATCCACGACCTGGATAGCGGGCGGCCGGGAGGGCGGAGCTTCTTCAAAGCCGCGGATTACCGGGAGTTCCGGCGCGGGAACCATGTTTTCAGCGAAGACACAGGCGG!
 CGGGAATGAGGACGTCCTTTGGACGACCCCGGAGGGGACGGAGCAGTTCGATGGCGGCTACCTG
ACGCCGAACAGCTTCGACTTCCTGGGCGTGGCGCCGCTGGTCGGCCGCGGCATCAACGTTGAAGACGGGAAGCCGGGTGCACCGCCGGTCTTCGTGATGAGCTACAAAATGTGGATGAAACGCTTCAGCGGAGACCCGAAGATCCTGGGGCGGAGCTTCGTGCTCAATGGGACGCCGACCACGCTGGTCGGGATTATGCCGAAGCGGTTCACCAAGCGGGGCGCCGATTTGTGGGTTGCGGCGGATCTGGATCCGACGAGCGAACGGTACTTCCTCTTCCAGGGGCGAATGAAGCCTGGGGTCACGCTCAAACAAGTGGAAGCGGACCTGATGCCGATTGCTCAGCGGCTGGCGCAGGCGAATCCGAAGGAATACCCGAAACGGTTCTCGATCGAAGCGAGCAGCTATGTGGACAGCATCGTGGGCCCGTTCAAGAAGACGCTGCTGACGTTGAGCGCGGCGGTAGCGCTGCTGCTGTTCATCGCGTGCGCGAACGTGGCGAACATGCTGCTGGCGCGATCGACAGCGAGAGACCGGGAGATGGCCATCCGGTCGGCGTTAGGAGCGAGCCGGTGGCGGGTGGTCCGACAGCTCCTGGTGGAGAGCGTTCTGCTCGGCATCGGCGGAGCGGTGTTGGGGTGCGCTCTGGCATACGGCGGGATCAAAGCTCTGGTCGCGTTGATACCTGAGGGCGCGATTCCGCAGGAGGCGGAGATCGGCCTGGACCCGCAGGCGCTCTGGTTCAGCCTGGCGCTGGCGGTGTGCACTGCGCTGGTATTCGGCCTGGCACCGGCGCTGCAGACAGCACGGCGCGACATCGTGGAGCCGTTGAAGGATTCCGGACGCGGGGTCAGCGGCGGCTTCCGTCGCGGGCGTTTGCGCAATGCGCTGGTGGTGGTGGAACTCGCGCTTTCGCTAGTCCTATTGACAGGCGCGGGCGTCATGATCCGGACATTCGTCAAACTGACTTCGACGGACCTCGGATTCGA!
 TGCGAA
GAACATCCTGGTGGCGCGGCTGCCATTTCCCAAGGACCAATACAAGACCGTCGCGGAGAAGCAGCGCTTCTTCAGCCAGTTGCTGCCGCGGCTGAAGGCGCTGCCGGGCGTGGTGGAAGCGACGACGACCAGCGGCCTGCCGCCGTATGGCGGGATTGGCACCGATATCGAGATCGCGGGAAAGCAGCATACGGACCGCTGGCGCGCGGAATATCAACTGGTGAGCGAAGGCTATCTGCGAACGCTGCGCGGGAAGGTGGTGCGCGGCCGGATGTTGGACGAAGGCGATGTGGCGGGCGCGCGCAAAGTGGCGGTGATCAACCAGACGCTGGCGGCAAAGTGGTTCCTCCATGAAGATCCGCTGGGACATCAGGTGAGACTGCTGCGCAATGTGAGCGATGGCGGGGGAGCGGTGGCGGGGGCGACGCAACCGTATTACGAGATCGTCGGGATCATGAGCGATATGAAAAACTCGGGGCTCCAGGATCCCACGGAGCCGGAACTGTTGGTGCCGTATACATCGACGGGGAGTTTTGAGCGTGGGATTCTGGTGCGGACGGCGGGCAAACCGCTGGCGATGTTGAATGCGGTGCGGCGGGAGGTCTGGGCGGTGGACCGCAACGTGTCCACCACGATGACCCGATCGCTGGAGGACTTCCTGAGCGATTTCAGTTACGCGCAGCCGAGATTCACGCTGCTGGTGCTGGGTGTGTTTGCCGGGTGTGGACTGCTGCTGGTGGCGATTGGCGTGTACAGCGTGATCGCTTACACAGTGTCTCGGCAGACGCACGAGATCGGGATCCGGGTGGCGCTCGGCGCGAGCCGCGGAGACGTGATCGGGATGGTGGTGAAGATGGGGATGTGGTTGATCGCGCTGGGGCTCGGCGTGGGGCTCGCGGTGAGTCTGGCGGTGAGCAAGGTGCTCTCGAGCGAACTGTTCGGGGTGAGCGCGCGGGATCCGCTGACGTTTGCGTTGGTGTCGCTGGTGG!
 TGCTGGCGGCGGGGGCGGCGGCGTGCTGGGTTCCGGCGATGAAGGCGACGCGGATCGACCCGAT
GGTGGCGCTGCGGTTCGAGTAAGGCAAGAGATCGCTCCCTGACGGTCGTGGTTCGCGAGGGGACGAGACGGCGGTGAGAGGGCGTACAGGCAAAGGGTGCGCGAGGTAAAATGGGGAATCCAAGCCCTCCCCCGGGGAAGCGGAATCTCCGAACATGTCCTTCGTCCATTTACATTGCCATACCGATTATTCGCTGCTAGACGGCGCGTGCGATATCGACCAGTTGATGAAGATCATGGTCGAGCAGAAGATGCCGGCGGTGGCGATGACCGACCACGGGAACCTCTTCGGGGCGGTGAAGTTTTACAACGCGGCGAAGGCGTCGGGGATTCATCCGGTGATCGGGTGCGAGGTGTATGTCTCGCAGAAGGGGCACAAGGAGCGGACGAATACTGACCGGTACAACCATCTGGTGCTGCTCTGCGAGAACCAGCAGGGATACAAGAACCTGATCAAGCTGGTTTCGACTTCGTACCTGGAAGGGTTTTACTATAAGCCGCGCATCGATCTCGATTTGCTGTCGCAGCATTCCGAGGGGCTGATCGGGATGTCGGCGTGTTTGCGCGGACACATTCCGGAGACGATTCTCAATGATAAGTACGACGATGCGCGGCGCATGGCGCATCAGTATGGGGACATTTTCGGGGCGAAGAATTTCTTCCTGGAAATCCAGGATCATCACCTGGAGCAGGACAAGCGGCTGACGCCGGAGCTGGTGCGGCTCTCGAGCGAGACGGGATTTCCGCTGGTGGCGACGAACGATTCGCACTACCTGCGGAAGGACGATGCGCGGGCGCACGAGATCCTGATGTGCATCCAGACGGGGAAGAGCTTCAACGATCCGAACCGGATGCGCTGGAGCACGCCGGACTTTTACCTGAAGACGCGCGAAGAGATGATGCAGCTGTTCGGCGAACTGGAGCACTCGCTGGACCGCACCTGGGAGATCGCGCAGCGCTGCCATGTGAAGCTGGAGAAAGTGCTCGATC!
 CGTTCC
CGCGGTTCGATATTCCGACCGAGCACACCACCGATACGTACTTCGAGTACGTGGCGCGAATGGGATTCGAGAAGCGGCGCGGGCGCCTGGAAGCAATGAAGGCGAAGGGGACGCTGAAGCACGACCTGGAGGAATACGCAGAGCGGCTGGATCGCGAAATCAAGATGATCCAGAACATGAAGTTCTCGGGCTACTTTTTGGTGGTGTGGGACTTCATCCGGTACGCGAAGGACCAGGGGATTCCGGTGGGACCGGGCCGCGGGTCGGCGGCCGGCAGCCTGGTGAGTTATGCGATGGAGATCACGGACATCGACCCGCTGCAATACGGACTGCTGTTCGAGCGCTTCCTAAATCCGGAACGCGTCAGCTTTCCCGACGTGGACGTGGATTTTTGCATGAATCGCCGCGGCGAAGTGATTCAGTACGTGACGCAGAAATACGGGCGCGAGCAGGTGGCGCAGATCATCACGTTCAATACGCTGGGTGCGCGGGCGGCGATCAAGGATGTGGGGCGCGTGCTGGAGATGCCGCTGCCGGAAGTGGAGCGGCTGACCAAGCTGGTGCCGGCGACGCTGAATATTTCGCTGCAGGAGGCGATCGACCAGGAGCCGGGATTCAAGGAGGCGGCGCGGAAAGATCCGCGTTGCGACGATGTGCTGAAAGTGGCGCTACGCCTCGAGGGCCTCTCGCGCAATTGCAGCGTGCACGCGGCCGGCGTGGTGATTTCGCCATTGCCGCTGCAGGACCTGGTGCCGCTGTACAAGACGAACCGCGACGAAATTGTGACGCAGTTCGATATGGGCGGACTGGAGAAGTTGCAGCTCCTGAAGATGGACTTCCTGGGGCTGACGACGCTGACGCTGATCCAGGACGCGCTGCGGCTGATCAAGAAGCGGCACGGGGTGACGATTGTGCCGGAGGACCTGCCGCTCGACGATAAAGGCACGTACGAGGTCTTCTGCAAGGGCATTACGAGCGGCGTGTTCCAG!
 TTCGAATCGAGCGGGATGCGCGACATTCTGCGACGTTATCAGCCGAGCCGGTTGGAGGACTTGA
CGGCGTTGAACGCGTTGTACCGGCCGGGCCCGATTCAGGGCGGCATGGTGGACGATTTCATCGAGCGCAAATGGGGACGGAAGGCGGTGCAGTACGATCTGCCGGAGCTGCAGGTGCTGCTGGAAGAGACGTACGGAGTGATTGTGTACCAGGAACAGGTAATGCAGATTTCGAATCGCATTGCCGGGTATTCGCTGGGCGACGCGGATTTGCTGCGCCGCGCAATGGGCAAGAAAAAGCTCGAGGAGATGGTGAAGCAGCGCGAGCGGTTCGTGAAGGGCGCGCTGGAGCGGGGCTTCAATCAGAAGAAGGTCGAGAAGATTTTCGATTTGATGGAGCAGTTCGCGGGGTACGGGTTCAACAAATCGCACTCGGCGGCATATGCGTACCTGGCATTCGTCACCGCGTATTTGAAGGCGCACTATCCGGTGGATTTCATGGCGGCGCTGCTGACGTCGGAAACCGGGAACACGGCGAAGGTGGTGAAGTACATCAACGAATGCCGTGAGATGGGGATCAAGATTCTGCCGCCGGACGTAAACCACAGCGAATGGAGTTTCACGCCGGACGGAGATGCGATCCGGTTCGGGATGGGCGCGATCAAGAATGTGGGGCAGTCCGCGGTGGAGGCGATCGGCAAGACGCGTGCGGAAGTGGGCAAGTTCCCGTCGCTGCACGAGTTCTGCGAGAAGGTGGATCTTGGGGCGGTCAACCGGCGGATGATCGAGAGCCTGATTCGAGCGGGCGCAATGGATTCGCTGGAAGGAACGCGCAGCCAGAAGTTCGCAGCGGTGGAAGGCGCGATGGAGGCGGGAGCGCGGGCGCAGCGCGACCGGGAGAGCGGACAGGTCGGGCTGTTCGGCGAGGTGATCGCAGCCGACGAGCCGCACTCCGCGCCGCTGCCGAATATTCCGGATTGGTCGGAAAAGGAAAAGCTGGCGGGCGAGAAGGAGTTGCTCGGGTTCTGGGTCACGGGGCATCCGATGGAC!
 CGGTAT
ATGGAAAAGGTCGCGGAGCTGGCGAACGCGGACACGTCGTCGCTGGAGGGGCTGGCGAAGAACCACGAGGTCGCGATTTGCGGCGTGCTGACGGGGATCGCGAGAAAGCGCAATCGGGAAGGCAAGCCGTGGTGCGCGATGACGCTGGAAGATCGCGCGGGGAGTGTGGAGGCGCTGCTGTTCGCGACGAATTACGAGAGGCTGGCGAGCCAGGCTGTGGAGGACACGGTGGTGCTGATGAGGGCACTGGTGCTGCCGGAGGAGGGCACGAATCCGAAGCTTTCGGTGCAGGACATCGTGGCGCTGGATAATGCGCGGATCGATATGCCGAGCGTGATTGCGATCCGGGTGTGGCTGGGGCGGAATGGCGGGGTGGACCGGGCGGCGGCGCTCGAGGAGCTGTTCAAGCGCAAGCCAGGTCCGACATCGGTGCGGCTGCGGCTGGAGGCTCCGCGCGATTTTTCGATATTGATCGATGTGGAAGCGAAGGTGCGGCCGGATAGGGAATTCAAGGCGGCAGTGGAGCAGATTTGCGGACCGGAGTGCGTGGAAAAGGTGGCGGGGTAAACTAATTATATGGACTGGAGTCGCTGTGGCGCGGTCGATCGAAGCGCGGAGAAGCTCGGTGGGAGATGGTGCTTCCGCGGTACTCGTCTACCGGTTGCTGCGTTGTTCGAGCATCTCGACCAGGGCTCGACTATCGATGAGTTCCTGGAGTGGTTCCCGGCTGTATGCAGAGAACAGGTGCATGAAGTCCTTGCCTTTGCGAAGGATTCGCTGGAACAGCCCGCGGCAGTCGCGTGAGGATTCTTTTCGACGCTAACACTCCGGCACCCCTTGCGCATTTCCTGCGAGGACATGAGGTGGTGCGGGCGGACGAACTTGGCTGGCAGCTCTTGAGAACGGAGCCTAATTGGACGCTGCCGAGCAAGCGGGGTTCGATCTGCTATTGACTTGCGACCAGAATGTCCGGTACCAGCAGAACTTTA!
 CCAGCCGTAAACTGGCTCTGGTCGTCCTCTCTTCAATTACTGGCCTATGCTGCGGGGGGTAGCG
GCACGAGTGGCCACCGCCGTTGAGGCTGCAGGAAGGTGGGTTGAGCCGCCGACTCGCGCGATGCGATGGGCAAGACCTCACAGCGTGCGGGCTTCAAAGTTGCGCACCTCGTCGTCTTTCACGGTGTAGCGAACTTCGATCGGCTGGCAGCAGACTTCGCAATCTTCGACATAGGTTTGTCCTTTGACGGAGGTGTCCAGCACCATCGAGATTCTCTCGCCGCAGTAGGGGCATACGAAGAAGTGCTCCATTGCCTCCAGGATAAAGGATCACTCGGTTGGGCGGTGCTGGTGGGTGAGGTAGTACGCGATTCGATCAGCGTCCTCCCGGCTGAATCTGAGGGAGAGCGTCGCCATCCGGTTGTAATCCCGGCCTCTCCATCTGGCCTTCAGGATGCCGTCCTCCGAGTGGCGCGCCATACCCTGGAGGACGTGGGCGATTTCGTGAGCCAGCACATAGCCGAAGAGATTTGGTACCGGTGCGGAGAACGCGTCCACCCGATCGAGAAAGACGTGGATGCGTGGGCCCGAACTGCTCCCGGCTATGGCATACGCCAGGGAATCGGGCGGCCTGTCCGCGTCGGCAGCCTGGTCCACCTGAAGTTCGATGATATCGGCGCGGGCACAGGAGGGCGATTGCGGGTCCGGGGGTACGGCGCCGTCCCGCCAGTTCAGTTGGACGCCAATCTCGCGGAAGGCGCGAGTGGCGACGAAGATTGCGCGGGCGCGCTGCTTCAGGGGCAGATTTACTTTCTCGTTGACATAAATCGTGACCACCGGCAGGTTACATTTTGCATCGCCGGCGTATAGCTTGGGGAACATCAGGAAGGTGGCCAGGAGAATTCGGAGAATTGAATTGCACATTACTGAACTAGTTATAAGGCGCCGAGTCCCGGGAAGTATTAGAGCGAGATGAGGAAGGGATGAGGTTGTCCGATGCTTCACAGCGGACGCGGTCGCATGTGTTAAATCGAATTAGTGAGACGCGGT!
 TGAAAC
GCTCGCAGCGAACGAGCACCACGCGCGCAGCCAGGATTGGCTGCCAGTTTGAACAGTGCGGCAAGCCGCAGGCTGAAATCGTGGTTTACACGTACAACGGACGCTCCCTCACGGTCGCGGCTCTGATGGCGGCGAATATTCCGGTGCGGATGTTTGCGGCCTACGAGCACACAAGAGCAGTGTAATACTCAGGCGGTATGCCGCATATTGAAATCGTGGGTTACGCGTGCGAATATTCCGGTGCGGATGTTTGCGGCCTGCGAGCAAACAAGGGCAGTGTAATACTCAGGCGGTATGCCGCAAACTGAGGTCGAGCGTCACGATTATCGACCGGCTCTGATGCGGCTCGCTTGGCTTACCGGCGCACCAAAGCGTAAGTTACGGGTAAGGGGACGGAGAGTGACGGGATGGCGAGGCAGGCGGCGCGGAGGGAGTCCTTCGCATCCGGGGTGACCTTGCCGCGGAAGCCGGAGCCGTTGACGATGGTCCACCAATCCTCGGGGGATGCGAGGGACTGAGAGTAGTCCTCGTAAGTTATTTCCGCACCGGGGATGCCGGAATCGGCAAATAACTTTTCGACGGAGCCGGGCTCGGCAAGGCGGGTCCAGCGGTGCGGGCCAGGGAAGATGCCGTCGAGGGGCGCGAAGGCGCTGGGTCCCCAGACGGTGATCGCGAGCGTGCCGCCGGGGCGGAGGAAGCGCCACATCTTTTGCAGCGCGGCCGACATATCCTCAAAGAAAAAGATGCCGAAGACGCAGACAACGGCGTCGAAGGTAGCGGGGCGAAAGTACACCTGCTCGAAATCGGCGTGTCGGAACTCGGCGTTGGGGACGGCCTTGGCACGGGCGAGGTTCAACAGGCCGGGCGCGAGATCGACACCGATGACGCGGCCGGATGGGGCGACGGCACGGGCGGCGGGGATGGCGGAGCCGCCGGCGCCGCAGCAGACGTCGAGCACGATTGCGCCAGGAGAAAGCTGCGCGCGTTCT!
 ACCGTGCGCTCACCGAAGCGCTGCCAAAAGGCAAGGGGCGGCGCTTCGAAGGAATCGGCGGCGG
CGGTGTACGTGTCGGAAATCTGTTGCTTCGGATCGGGTGTCATCGAATTTGCGAAACCACGGTGGCGGCTTTGGCGTGCGAGTCGTTGGGATATTGTTCGAGCGCGATCTGGAAGGCGCGCTGCGCGAGTTTGGTCTTGTTCGCCTTCTGCGCGGCGCGGCCCCAGGGTTCCCCGACAGGGCGGGGATAATACGGCGGCTCGGTGTAGACCAGGCGGCGCTCCGCGGCGCTGGCAATCTGGAATTGCTTGAGGGCGCGATCCACGCGGCCATCGGCGAGCTCCAGGTGCGCCAGCATCTCGAAGC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 TTCATCGATCCCGCGCTGATCGACGCGAACCCGCTCCAGCCTCGCCGCGTCTTCGCGCAGGAACCTCTCGCCGAACTGGCCCAATCCATTCGCTCCAACGGCATCATCCAACCCCTTGTGGTCACGCGAAAGGGTGACCGCTACCAGTTGGTGGCCGGGGAACGCCGCTGGCGAGCCTCCAAGCTGGCCGAAGTAGCAACCGTCCCGGTGGTGGTCCGGGATATCCCGGAAGGACGCCTGCTCGAGATCACTCTAATCGAGAAC 
 >PredictedProphage1 -Hit 2 
 ATTGCCAATCAAAAAGGCGGCGTCGGGAAAACCACAACCGCTATCAATCTCGCCGCCTCCCTTGCCGCGAACGATATCCGCGTCCTCGTAATTGACTCCGACCCGCAGGGGAACTGTACCAGCGGTCTCGGCGTCACGAAAGACCCCGATAAACCCAGTCTCTATCACGTGCTTCTGGGCGACTCGCACATGAAGGACGCCATCCGCCCGACCGACTTCGAAGGTCTTCAGATCATTACCGCGGATAAGAACCTGGTCGGCTCGAACCTGGAAATGGTGGACCTGCCGAACCGCGAATTCCTCCTCCGCACTCGCATCAACGAAATCAGGAAGAACTACGAGTTCATCCTGATCGACTGCCCGCCGGCCCTCGACCTTCTCACACTGAACGCCCTCCTCGCCGCCGATTCCGTACTCGTCCCCATCCAGTGCGAATTCTTCGCCCTCGAAGGCATCTCCGAGCTCATGGACACCATAGAGCGCATACGGGAGTCCTTCCACCATCCCCTCGAAGTCGAGGGCATCCTCCTCACCATGTTCGATGATCGCACCAACCTCACCCGCCAGGTCGCCACCGACCTCCGCGACTTTTTCAAAGACCAGGTCTTCAAAACCGTCATCCCCCGTAGCGTGCGCCTCGCCGAAGCGCCCAGCTTCGGAAAACCCATCCTCACCTACGACCCCCGCTCCCGCGGGGCCGAAAGCTATATCAAACTCGCGAAAGAGATC 
 >PredictedProphage1 -Hit 3 
 GCTTCGTACGCCATCCCGATCGCCGCCGGCAAATCCGCCCCGCTCGCCGTCACCCCGAGGACCCGCCCGCCGGCCGTCTCCAGCCGTCCGTGCAGCAGCCGCGTCCCCGCCTGAAAGACCACCGCGCCGTGCGCCTCCGCCTGTTCCACTCCGAGGATTTCCTTGCCCGCCTCGAACGTCCCCGGGTATCCCGCGGACGTCATGACCACGCACACGCTGGGCCCCGCGTTCCATTCCAGTGTGTGCCCCGCTAACCGGCCCTCCGCCGCCGCCATCAATGCGGGAACGAAGTCTGATTTCATGCGGTGCATCAGCGGCTGTGTCTCCGGATCCCCCAGTCGGACGTTGAACTCCAGCACCCTCGGCCCCTCGGTTGTCATCATCAGGCCCGCATACAGGAAACCCGTGAAGTTCATCGCCCGCACC 
 >PredictedProphage1 -Hit 4 
 TTACATTGCCATACCGATTATTCGCTGCTAGACGGCGCGTGCGATATCGACCAGTTGATGAAGATCATGGTCGAGCAGAAGATGCCGGCGGTGGCGATGACCGACCACGGGAACCTCTTCGGGGCGGTGAAGTTTTACAACGCGGCGAAGGCGTCGGGGATTCATCCGGTGATCGGGTGCGAGGTGTATGTCTCGCAGAAGGGGCACAAGGAGCGGACGAATACTGACCGGTACAACCATCTGGTGCTGCTCTGCGAGAACCAGCAGGGATACAAGAACCTGATCAAGCTGGTTTCGACTTCGTACCTGGAAGGGTTTTACTATAAGCCGCGCATCGATCTCGATTTGCTGTCGCAGCATTCCGAGGGGCTGATCGGGATGTCGGCGTGTTTGCGCGGACACATTCCGGAGACGATTCTCAATGATAAGTACGACGATGCGCGGCGCATGGCGCATCAGTATGGGGACATTTTCGGGGCGAAGAATTTCTTCCTGGAAATCCAGGATCATCACCTGGAGCAGGACAAGCGGCTGACGCCGGAGCTGGTGCGGCTCTCGAGCGAGACGGGATTTCCGCTGGTGGCGACGAACGATTCGCACTACCTGCGGAAGGACGATGCGCGGGCGCACGAGATCCTGATGTGCATCCAGACGGGGAAGAGCTTCAACGATCCGAACCGGATGCGCTGGAGCACGCCGGACTTTTACCTGAAGACGCGCGAAGAGATGATGCAGCTGTTCGGCGAACTGGAGCACTCGCTGGACCGCACCTGGGAGATCGCGCAGCGCTGCCATGTGAAGCTGGAGAAAGTGCTCGATCCGTTCCCGCGGTTCGATATTCCGACCGAGCACACCACCGATACGTACTTCGAGTACGTGGCGCGAATGGGATTCGAGAAGCGGCGCGGGCGCCTGGAAGCAATGAAGGCGAAGGGGACGCTGAAGCACGACCTGGAGGAATACGCAGAGCGGCTGGATCGCGAAATCA!
 AGATGA
TCCAGAACATGAAGTTCTCGGGCTACTTTTTGGTGGTGTGGGACTTCATCCGGTACGCGAAGGACCAGGGGATTCCGGTGGGACCGGGCCGCGGGTCGGCGGCCGGCAGCCTGGTGAGTTATGCGATGGAGATCACGGACATCGACCCGCTGCAATACGGACTGCTGTTCGAGCGCTTCCTAAATCCGGAACGCGTCAGCTTTCCCGACGTGGACGTGGATTTTTGCATGAATCGCCGCGGCGAAGTGATTCAGTACGTGACGCAGAAATACGGGCGCGAGCAGGTGGCGCAGATCATCACGTTCAATACGCTGGGTGCGCGGGCGGCGATCAAGGATGTGGGGCGCGTGCTGGAGATGCCGCTGCCGGAAGTGGAGCGGCTGACCAAGCTGGTGCCGGCGACGCTGAATATTTCGCTGCAGGAGGCGATCGACCAGGAGCCGGGATTCAAGGAGGCGGCGCGGAAAGATCCGCGTTGCGACGATGTGCTGAAAGTGGCGCTACGCCTCGAGGGCCTCTCGCGCAATTGCAGCGTGCACGCGGCCGGCGTGGTGATTTCGCCATTGCCGCTGCAGGACCTGGTGCCGCTGTACAAGACGAACCGCGACGAAATTGTGACGCAGTTCGATATGGGCGGACTGGAGAAGTTGCAGCTCCTGAAGATGGACTTCCTGGGGCTGACGACGCTGACGCTGATCCAGGACGCGCTGCGGCTGATCAAGAAGCGGCACGGGGTGACGATTGTGCCGGAGGACCTGCCGCTCGACGATAAAGGCACGTACGAGGTCTTCTGCAAGGGCATTACGAGCGGCGTGTTCCAGTTCGAATCGAGCGGGATGCGCGACATTCTGCGACGTTATCAGCCGAGCCGGTTGGAGGACTTGACGGCGTTGAACGCGTTGTACCGGCCGGGCCCGATTCAGGGCGGCATGGTGGACGATTTCATCGAGCGCAAATGGGGACGGAAGGCGGTGCAGTACGATCTGCCG!
 GAGCTGCAGGTGCTGCTGGAAGAGACGTACGGAGTGATTGTGTACCAGGAACAGGTAATGCAGATTTCGAATCGCATTGCCGGGTATTCGCTGGGCGACGCGGATTTGCTGCGCCGCGCAATGGGCAAGAAAAAGCTCGAGGAGATGGTGAAGCAGCGCGAGCGGTTCGTGAAGGGCGCGCTGGAGCGGGGCTTCAATCAGAAGAAGGTCGAGAAGATTTTCGATTTGATGGA
GCAGTTCGCGGGGTACGGGTTCAACAAATCGCACTCGGCGGCATATGCGTACCTGGCATTCGTCACCGCGTATTTGAAGGCGCACTATCCGGTGGATTTCATGGCGGCGCTGCTGACGTCGGAAACCGGGAACACGGCGAAGGTGGTGAAGTACATCAACGAATGCCGTGAGATGGGGATCAAGATTCTGCCGCCGGACGTAAACCACAGCGAATGGAGTTTCACGCCGGACGGAGATGCGATCCGGTTCGGGATGGGCGCGATCAAGAATGTGGGGCAGTCCGCGGTGGAGGCGATCGGCAAGACGCGTGCGGAAGTGGGCAAGTTCCCGTCGCTGCACGAGTTCTGCGAGAAGGTGGATCTTGGGGCGGTCAACCGGCGGATGATCGAGAGCCTGATTCGAGCGGGCGCAATGGAT 
 >PredictedProphage1 -Hit 5 
 GCTTCGAGATGCTGGCGCACCTGGAGCTCGCCGATGGCCGCGTGGATCGCGCCCTCAAGCAATTCCAGATTGCCAGCGCCGCGGAGCGCCGCCTGGTCTACACCGAGCCGCCGT 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 FIDPALIDANPLQPRRVFAQEPLAELAQSIRSNGIIQPLVVTRKGDRYQLVAGERRWRASKLAEVATVPVVVRDIPEGRLLEITLIEN 
 >PredictedProphage1 -Hit 2 
 IANQKGGVGKTTTAINLAASLAANDIRVLVIDSDPQGNCTSGLGVTKDPDKPSLYHVLLGDSHMKDAIRPTDFEGLQIITADKNLVGSNLEMVDLPNREFLLRTRINEIRKNYEFILIDCPPALDLLTLNALLAADSVLVPIQCEFFALEGISELMDTIERIRESFHHPLEVEGILLTMFDDRTNLTRQVATDLRDFFKDQVFKTVIPRSVRLAEAPSFGKPILTYDPRSRGAESYIKLAKEI 
 >PredictedProphage1 -Hit 3 
 ASYAIPIAAGKSAPLAVTPRTRPPAVSSRPCSSRVPA_KTTAPCASACSTPRISLPASNVPGYPADVMTTHTLGPAFHSSVCPANRPSAAAINAGTKSDFMRCISGCVSGSPSRTLNSSTLGPSVVIIRPAYRKPVKFIART 
 >PredictedProphage1 -Hit 4 
 LHCHTDYSLLDGACDIDQLMKIMVEQKMPAVAMTDHGNLFGAVKFYNAAKASGIHPVIGCEVYVSQKGHKERTNTDRYNHLVLLCENQQGYKNLIKLVSTSYLEGFYYKPRIDLDLLSQHSEGLIGMSACLRGHIPETILNDKYDDARRMAHQYGDIFGAKNFFLEIQDHHLEQDKRLTPELVRLSSETGFPLVATNDSHYLRKDDARAHEILMCIQTGKSFNDPNRMRWSTPDFYLKTREEMMQLFGELEHSLDRTWEIAQRCHVKLEKVLDPFPRFDIPTEHTTDTYFEYVARMGFEKRRGRLEAMKAKGTLKHDLEEYAERLDREIKMIQNMKFSGYFLVVWDFIRYAKDQGIPVGPGRGSAAGSLVSYAMEITDIDPLQYGLLFERFLNPERVSFPDVDVDFCMNRRGEVIQYVTQKYGREQVAQIITFNTLGARAAIKDVGRVLEMPLPEVERLTKLVPATLNISLQEAIDQEPGFKEAARKDPRCDDVLKVALRLEGLSRNCSVHAAGVVISPLPLQDLVPLYKTNRDEIVTQFDMGGLEKLQLLKMDFLGLTTLTLIQDALRLIKKRHGVTIVPEDLPLDDKGTYEVFCKGITSGVFQFESSGMRDILRRYQPSRLEDLTALNALYRPGPIQGGMVDDFIERKWGRKAVQYDLPELQVLLEETYGVIVYQEQVMQISNRIAGYSLGDADLLRRAMGKKKLEEMVKQRERFVKGALERGFNQKKVEKIFDLMEQFAGYGFNKSHSAAYAYLAFVTAYLKAHYPVDFMAALLTSETGNTAKVVKYINECREMGIKILPPDVNHSEWSFTPDGDAIRFGMGAIKNVGQSAVEAIGKTRAEVGKFPSLHEFCEKVDLGAVNRRMIESLIRAGAMD 
 >PredictedProphage1 -Hit 5 
 ASRCWRTWSSPMAAWIAPSSNSRLPAPRSAAWSTPSRR 
 



Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig154

Genome size:  60134
Host's GC content:  62.63
Predicted Codon Position GC:  	1st:  65.42	 2nd:  43.61	 3rd:  73.67

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig155

Genome size:  68487
Host's GC content:  61.98
Predicted Codon Position GC:  	1st:  65.02	 2nd:  43.43	 3rd:  72.57

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig156

Genome size:  66464
Host's GC content:  63.06
Predicted Codon Position GC:  	1st:  65.68	 2nd:  43.73	 3rd:  74.40

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig157

Genome size:  60450
Host's GC content:  62.44
Predicted Codon Position GC:  	1st:  65.30	 2nd:  43.56	 3rd:  73.36

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig158

Genome size:  68235
Host's GC content:  61.85
Predicted Codon Position GC:  	1st:  64.94	 2nd:  43.40	 3rd:  72.35

 >PredictedProphage1 
 Length:   7877 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 61.14 	 62.74 	 55.90 	 55.16 	 77.15 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	12	0.214285714285714
 Leu	TTA	0	0
 Leu	CTG	23	0.410714285714286
 Leu	CTA	0	0
 Leu	CTT	3	0.0535714285714286
 Leu	CTC	18	0.321428571428571
 Lys	AAG	13	0.684210526315789
 Lys	AAA	6	0.315789473684211
 Glu	GAG	2	0.222222222222222
 Glu	GAA	7	0.777777777777778
 Gln	CAG	25	0.735294117647059
 Gln	CAA	9	0.264705882352941
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	5	0.5
 His	CAC	5	0.5
 Asn	AAT	15	0.319148936170213
 Asn	AAC	32	0.680851063829787
 Ser	AGT	4	0.043956043956044
 Ser	AGC	23	0.252747252747253
 Ser	TCG	24	0.263736263736264
 Ser	TCA	6	0.0659340659340659
 Ser	TCT	8	0.0879120879120879
 Ser	TCC	26	0.285714285714286
 Trp	TGG	3	1
 Arg	AGG	1	0.0769230769230769
 Arg	AGA	0	0
 Arg	CGG	2	0.153846153846154
 Arg	CGA	2	0.153846153846154
 Arg	CGT	0	0
 Arg	CGC	8	0.615384615384615
 Ala	GCG	62	0.492063492063492
 Ala	GCA	13	0.103174603174603
 Ala	GCT	9	0.0714285714285714
 Ala	GCC	42	0.333333333333333
 Cys	TGT	0	0
 Cys	TGC	0	0
 Asp	GAT	19	0.41304347826087
 Asp	GAC	27	0.58695652173913
 Gly	GGG	19	0.188118811881188
 Gly	GGA	10	0.099009900990099
 Gly	GGT	22	0.217821782178218
 Gly	GGC	50	0.495049504950495
 Phe	TTT	5	0.277777777777778
 Phe	TTC	13	0.722222222222222
 Tyr	TAT	5	0.3125
 Tyr	TAC	11	0.6875
 Met	ATG	8	1
 Val	GTG	28	0.482758620689655
 Val	GTA	7	0.120689655172414
 Val	GTT	4	0.0689655172413793
 Val	GTC	19	0.327586206896552
 Thr	ACG	47	0.47
 Thr	ACA	8	0.08
 Thr	ACT	5	0.05
 Thr	ACC	40	0.4
 Pro	CCG	9	0.6
 Pro	CCA	2	0.133333333333333
 Pro	CCT	1	0.0666666666666667
 Pro	CCC	3	0.2
 Ile	ATA	1	0.0227272727272727
 Ile	ATT	10	0.227272727272727
 Ile	ATC	33	0.75
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 13943	14341	-1	ref|NP_958187.1|gene 11 protein	37.7bits(86)	0.14
 14600	14953	-1	ref|NP_044832.1|hypothetical protein	39.3bits(90)	0.050
 15538	16392	-1	ref|NP_064745.1|gp7 	49.7bits(117)	4e-05
 19274	19966	-1	ref|NP_064745.1|gp7 	41.2bits(95)	0.013
 21679	21819	-1	ref|YP_164288.1|regulatory protein	37.0bits(84)	0.25
 
 DNA sequence:
 GAGAGAGAGCTGGAAGCCGAGCGCCGGGCCCGCGGGTGCGACCCACGGGGAGGCCGTCTGGCTGATGGACCTGGTATCGGACCCAGCCGTCAGTTGGGTCTGGAGGCTGGCGGGACCCGAGATCCCATCGGCCGCCAAAATGTCTGGCTGCGTATTACCGGGACCAGCTGCGGTCAGGTTGATTCGGTAATCCGAAGTGCCATTGCCGACGTCCACGACCGCAGCCTTCACCTTGTTACCAAACTGCGAGTTGATGGCATCCGCCACGCCCTGCGCGGTCGTGTCGCTGGTAACAATGTCGTAAGCCGTGCCTCCGATGGAAAGTTGGTAGTTCAACGCAGGATTAGAATCCCAGCTTTGGCCGGTTTGGCTGGTGGCGAGTGTATTTGAGCCGGTGGTCTGCTGGGTTTGAAGGTTGCCTGCGCTTACCGAACCGATGAGCAGCCCGGGTTTCAGGTCTCCCAGTTTGACTGCCTGCAGGGAAATCCGGTAATCCGGACTCGCGCTGCTACCGACATTCACCAGAGTCGCACGGACCTTATCGCCATAACTGGAGTTGATCGCGGAAACGAGACTGGCGGCGCTATTGTTCGCCGGCGAAAGAGAGTATTTTACGCCGCCCAAGGACAGTTGATAGGTACGTGTGGAATCCGTCCCCCCAACCCAATTGCTGGCAGTCATGCTGGTAGCGTAAACCCCGGCGTTGACTACGTCGATCGTGTAGTCGCCTTCGGCGGCCCCTGTGCTCACACTGACACCGGCTTTCGTTGGGTCCGAAACGGTCGCCTGGAAAGCGGATCCCGTGAGCGAGTCGGCGATTCCTTGGATGGCGGATTGAAGCGCTTTGAACTTACCGTCAAGGCCGGTCAATGCGGTTGCCTGGCTGCTGAGGTTCGTCTTGTCGGTGTTCAATTGGGTAATCGGCAGCGACGCGATGGCCGTTGCCCGGCTAATCACGTTCTGAAAATCCGCCGAAAACTGGCTGGAC!
 CCGGTG
AAGATACCGCTGCTTGAGGTCGCCATGAACAACTCCCATAATTGGCTCCGGCGAGAAAGCCGACGCTCTCCCGCCAGGCTACGTTACTGGTTCACCGCTAGCCCCTGAGGAGTGCCATTACAGCCTGAGGAGCGGAGTTCGCCTGGGCCATCGCAGCCATGCTGGCCTGCTGCAGCACCTGGGCCTTAGTCAGGTTCGCCGCTTCCGCCGCCACGTCGGCATCGCGAATCTGCGATTGCGCGGCGGAGAAGTTACTGATCTGGGATTGCGCCAGCCCGATCGCATAGCTCAGCTGGTTCTGTCCCTTACCGATAGCCGCCTGGGCGACGCCGAGTTGCTTCACCGCGTTACCCAGGGTGATGACGGCCTGCGTCGCGCCATCTTTGGTGCTGATGTCGGCAGCGCCGCTATTGCCGGATTGGACCGTGGTTCCCTGCCTGGCGGTGGCGCCGGCCGTGCCGTCGAACATACCGGCGGAGATCTCTGGGGTGCTGTTATTGGCGGTTCCCACGCCCACCGAGAAATTATTCAGGGAGCTGATGAAACGAATGCCTTCGGCGGTACCGCTGGCATTGGTTTCCTTCACCGCGACAATCTGTTTCAAGGTCGGGTCGCCGCTGGCCTGGAGACCGTTGTTGATTGTGGCAATCGCGGTATCTACGTCATAGCCGTTGGTGGCATTGAGTGTGATGGAAGTCGATTTCGCGGTACCATCGGCCGCGGCAGCTCCGAAACTGATCACCTGCTGGTCGGCATTGGCGCCCGACGCACCGCCCTTGTTGGTCAAGCCGGTAAAGCTGAACACGTCGTTCATGGCCCCGAGGCCGGTCTGCGAGGAACCGGCTGAAGACACCATGGCGGCATGATCGACCGCGCGGTAGGTGGCTGAAGAAGAGACACCGGTGCCCAGCCCGAGATTGAGTGTGCCGGACTGGCTCTCTACCGTCATGCGGAAGTTCGTGGTGGATGCCCCCGCCGAGATGGTGGCC!
 AGGTTCGCGCCCACCGTGATGCCCGCCGCATGCAACTGCTGGTTGGCATCGATCGCCGCTTGCAGCGCCGTGGCCGTGGTTCCCAAGTTGCCTGTGGACGTGACGCTGACCAGGATCTTGTCCCCGCCGTTGATGGAGAACGCCAGCGTCGCTTTGTCGTTCGCCGAGCCCGCATTCAGCGCCGCGCCCGGCGTAATCGTGCCGTAGCTCGCCGTCGCCGTGGAGGACCCGACACCGTACCCGAGCACATTACCAGCATCACCCACCGCCGTCACCGAGATTGCCTGTCCGGCCTTGCCGGAGAAGACGATGTGGTTGTTGCCGTCCACCGATGCCGTGATCCCCGCCGCGTGCAGCGCCGTATAGGACGCGTCGCCCGTGACCTTGCCCAGCACATCGGCCGCCGTGGTTTCCGATGCATCCGTGGTTACACTCAGGTTATAGTCCGTGCCGTCCACATGCAGCGTCATGGTGGCGGTCTGGGCTGCCCCCGGTGCAGCCGCCGTGCCTCCCGTGACCGCCGTCCCCTGCTGCCAGGCGCCGAAGCCGAGGGTGTTGGCGGTGTCGCCCGCCGCTTCCACGTGAATGCTCTGGTTGCTGTTGCCCGTGAAATTCAGCTTATGCGTGGTGGTATCCACGGTGGCCGTGACGCCGAGGTTGGCGAGTGCGGCATAGCCGTTCGCGCCGCGCACAGCCGCCTGGAATTCCCCGTCCGTGTCGTCGGTCGCGGCGAGCTTTACGTTGAGGTCTCTTTCCGCTCCATCCACGAAAACCTTCAGGTTGACATAGTTCAGCGACGCGCCGGCGCCAACCGCCGCACCCTGCACCGACTGGCTGACCGATGCGCCCTTTGCCGGATTGGT
GGAGGTGGTATCGAAATTTCCCATGATCGCGTTGGCAGTTGCCGTGCCCGCGGTAGCCTGGAAGGCCGAACCGGAGGAGGCGAACGTGATCTGCTGGTTGCCGCTGCTATCGGTGACTGCGTTCGCCTTGATATTGGCGGTACGCAGAGCATTGGCGGAAGCCCCGCCCGCGTTGCCGGCGGCCTGGATCGCGGAGTTCAATTTATCCGTAAGCGTCGCCGTGGTGTCGGAGCTCATCGTGACGACGGAGATATTGAGTCCAAAGAATCCCGCGCCGGACAGTTCAAAGGTCGCAACCCCGTTGTCGGCGTTGTTGGCAGTAACAATATTGGCGAGGCTGGTATTGGAGGCGGCCGCGAGGTTAGTGCCGACAGCCGGACTGGCCTTGAATTCCGAGGTGCGCAGGCCGAGCGCCTTGGAATCCACCACTGAGTTCGCCAGATCGAGTCCGACCATCCCATTGAGCGTGTCCGACACACCCGCGGCGTTCGTACCGCCGCCAACGTACACCATGAGACTTTTGGCGAAATGGCCACCCGTCGAAAGACCGATGGCCTGCGACTGGCGGTCGATTTCGTTTACCAGCGTCTGGTATTCCTTGTTCAACACGCTGCGGTCGCCGGTGAAGGAGTCCGAGGCCGACTGCGTGGCCAGGGTTTTCAGGCGGTCAAGCATCTTGCCGATGTTGTTCATGCCGCCGTCCATAATTTGCAACTGCGAAACTCCATCGTTCGCATTGCGTACGCCCTGCGTCAATTCCGCCGTATCATTGCGGAATTTGTTGGCAATGGACAAACCCGCGGCATCATCGGCCGAGGAGTTGATGCGGTAGCCTGAGGTCAACCGCTGAATAGTCTGCCCTTGAAAATTGCTGTTAACGCGCAGGTTCTCCTGCGCGACGATGGAATTTACGTTGGTCTGAATCGAAAAAGACATTTTGAAATCCTTTCAACTTGCCGCCGGCATCTTACCGGTCAGCTAATTCATCG!
 GTCCGG
TTTTAGGAAACTTGAGGAAAGCCGGGGAATTTCACAGAGATCCGAAGAGTTTCCCCACGGAAGCACTCGGTGCGGCCCTGGCAGGCTTCCGCCCATAACGATCTCATCTCGCGCGCCACGACCGATTTGCTGGGTGACGCAGGTCACGCGCACGCGGCCACTGCCACCGGCATCAGTTCATGTTGGTGGGAATATCCGCCTTCAGGCGCGATCGCCTGCACCCCCCGGCGGGTCTTCAGATTGACCACGATTGGAGCCAGGAGATTCGCCGTGGGGCCTTCTTCCCGCATGGAGAGCACGGTTAGACACAACACATCCCTACCGATTCGCGGCTGTGAAGCCGGAGGCAAGCCCAGCAGGCTCAGATCCTCCGTGCTGACTTTCAGCCGGTAGTCGGGATCGACAGCCAGCAGCGGCATGGTGATGAAGCAGAGGTCCGGGGCCTCCAGACTCTGCAGGTAGGTCAGCGGCTCGTTCGCCGGGATCGTCACCGCGACAAAGCGCTTGCGGCTATCAAAGCCCGGAAGGCCGCAAGGGAATTCGAGTTCCGAATCCGGCTCGAAGGAGATCTTACCAAAATATTTTGTTTCGGTTATTGCCATACCACCTCGTACGGATCGGTAATCGGCAGAAACGCCCAGACCTTTAGTGCAGTTCCGGATTCTTCGTCGCGGAATAGTGGAACGTCACTCGAGAAGGACGCAAGCTGCCGGAGAAATCGGTGCGGCTAGGCGGGTTTCGGGGGGTGGTAAGCCAAGGGAGTAAGCCAACTCTGAACAGATCCGGCGAGAGGGCCTAAGGCGCTCCCGCCGGTTTACATTACTGGTTCACTGCTAGCCTCTCAGGAGTGCCATCACAGCCTGAGGAGCGGAGTTCGCCTGGGCCATCGCAGCCATGCTGGCCTGCTGCAGCACCTGGGCCTTCGTCAAGTTCGCCGCTTCCGCCGCCACGTCGGCATCGCGAATCTGCGATTGCGCGGCGGAGAAGTT!
 ACTGATCTGGGATTGCGCCAGCCCGATCGCATAGCTCAGCTGGTTCTGTCCTTTACCGATAGCC
GCCTGGGCGACGCCGAGTTGCTTTACCGCGTTACCCAGGGTGATGACGGCCTGCGTCGCGCCATCCTTGGTGCTGATGTCGGCAGCGCCGCTATTGCCGGATTGGACCGTGGTTCCCTGCTTGGCGGTGGCGCCGGCCGTGCCGTCGAACATACCGACGGAGACTTGGGCGGTGCTGTTATTGGCCGTTCCCACGCCGACCGAGAAGTTATTCAGCGAGCTGATGAAACGGATGCCTTCGGCGGTGCCGCTGGCGTTGGTTTCCTTCACCGCCACAATCTGTTTCAAGGTCGGGTCGCCGCTGGCCTGGAGACCGCTATTGATTGTGGCAATCGCGGTGTCTACGTTTTGGGCATTGGTAGCGTTCAGTGTGACGGAGGCCGATTTCGCGGTACCATCGGCCGCGGCAGCTCCGAAACTGATCACCTGCTGATCGGCATTGGCGCCCGACGCACCGCCCTTGTTGGTCAAGCCGGTAAAGCTGAACACGTCATTAGTCGGGCCGAGGCCGGTCTGCGAAGAGCCGGCGGAGGCCAGCATTGAGGCTTTATCGACCGCGCGGTAGGCGGCTGAAGAAGAGACACCGGTGCCCAACCCGAGATTGAGTGTGCCGGACTGGCTCTCTACCGTCATGCGGAAGTTCGTGGTGGATGCCCCCGCCGAGATGGTGGCCAGGTTCGCGCCCACCGTGATGCCCGCCGCATGCAACTGCTGGTTGGCATCGATCGCCGCTTGCAGCGCCGTGGCCGTGGTTCCCAAGTTGCCTGTGGACGTGACGCTGACCAGAATCTTGTCCCCACCGTTGATGGAGAACGCCAGCGTCGCTTTGTCGTTCGCCGAGCCCGCATTCAGCGCCGCGCCCGGCGTAATCGTGCCGTAGCTCGCCGTCGCCGTGGAGGACCCGACACCGTACCCGAGCACATTACCAGCATCACCCACCGCCGTCACCGAGATTGCCTGTCCGGCCTTGCCGGAGAAGACGATGTGGTT!
 GTTGCC
GTCCACCGATGCCGTGATCCCCGCCGCGTGCAGCGCCGTATAGGACGCGTCGCCCGTCACCTTGCCCAGCACATCGGCCGCCGTGGTTTCCGATGCATCCGTGGTTACACTCAGGTTATAGTCCGTGCCGTCCACATGCAGCGTCATGGTGGCGGTCTGGGCTGCCCCCGGTGCAGCCGCCGTGCCTCCCGTGACCGCCGTCCCCTGCTGCCAGGCGCCGAAGCCGAGGGTGTTGGCGGTGTCGCCCGCCGCTTCCACGTGAATGCTCTGGTTGCTATTGCCCGTGAAATTCAGCTTATGCGTGGTGGTATCCACGGTGGCCGTGACGCCGAGGTTGGCGAGTGCGGCATAGCCGTTCGTGCCGCGCACAGCCACCTGAAATTCCCCGTCCGTGTCGTCGGTCGCGGCGAGTTTTACGTTGAGGTCTCTTTCCGCTCCATCCACGAAAACCTTCAGGTTGACATAGTTCAGCGACGCGCCCGCGCCAACCGCCGCACCCTGCACCGACTGGCTGACGGATGCGCCCTTTGCCGGATTGGTGGAGGTGGTATCGAAATTTCCCATGATCGCGTTGGCAGTTGCCGTGCCCGCGGTAGCCTGGAAGGCCGAACCGGAGGAGGTGAACGTGATCTGCTGGTTGCCGCTGCTATCGGTGACTGCGTTCGCCTTGATATTGGCGGTACGCAGAGCATTGGCGGAAGCCCCGCCCGCGTTGCCGGCGGCCTGGATCGCGGAGTTCAATTTATCCGTAAGCGTCGCCGTGGTGTCGGACGCCGTGGCGGTGATGGAAACCTTCACGCCGGAGAACCCTGCTCCCGAGAGCTGGAAGGTCGCGGCGCCACTGTCACCGCTGTTGGCGGTCACAATATTGGCAATACTGGTATTGGACGCGGCCGAAAGGTTAGTGCCGACAGCCGGACTGGCCTTGAATTCCGAGGTGCGCAGGCCGAGCGCCTTGGAATCCACCACTGAGTTCGCCAAGTCGAGTC!
 CGACCATCCCATTGTTCGTGTCCGACGCACCCGCGGCGTTCGTGCCGCCGCCGATATACACGTT
CAGGCTCTTGGCAAAGTGGCCGCCGGTCGAAAGCCCTATGGCCTGCGACTGACGGTCGATTTCCCCTACCAGCGTCTGATATTCCTTATTCAATACGCTGCGGTCGCCCGTGAAGGAGTCCGAGGCCGACTGCGTGGCCAGGGTTTTCAGGCGGTCAAGCATCTTGCCGATGTTGTTCATGCCGCCGTCCATAATCTGCAACTGCGATACGCCATCGTTCGCATTGCGTACGCCCTGCGTCAATTCCGCCGTATCGTTGCGGAATTTGTTGGCAATTGCCAAACCCGCGGCATCGTCGGCCGAGGAGTTGATGCGGTAGCCCGAAGTCAACCGCTGAATGGTCTGCGCCTGAAAATTGCTGTTCACGCGCAGATTCTCCTGCGCAACGACGGAGTTTACGTTGGTCTGAATCGAAAAAGACATGGTGAAGTCCTTTCAGTTTTTATTTGCCGGCATCTTGCCGGTTCAACTTACTCATCGGTACGCTCAGCGGAAGTCTGAGAACGGAGGGCAGATTTTCGGGAGGATTTCGGGAGGGATGGGAATTGGCACACAAGCCTGGACGTGAAGTCAATCGGATTCAGATCGGGATGGTCGCACACTCGCTCCGCGCGCTGGCTCCAAAGATAACCATACGCGAAGCTTCCTCACGGAGTGCGCGGCGTGCTAATTGTCTCATCGGCGCCAACCGTGGGAACCTTTGGCGCCGTGCGGATATTCTGAAAAAGGCGGGAGATTTCGCCCACGGAACGGCCGGCCGCCGCGGCTGCCAAATTTTCATCACGAACCAGCTTCACTTCGTGGGCGACTATCGGAGTTTCGCGCGGCGCGCGAATACCTACCTTCACGCGCGAGCGTCCGATATGCGCGATCACGATTTCAATCTGATCGCCGATCAGGATGGTTTCTCCCTGTCGCCGCGACATCACGAGCAT 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 ACCACCGGCTCAAATACACTCGCCACCAGCCAAACCGGCCAAAGCTGGGATTCTAATCCTGCGTTGAACTACCAACTTTCCATCGGAGGCACGGCTTACGACATTGTTACCAGCGACACGACCGCGCAGGGCGTGGCGGATGCCATCAACTCGCAGTTTGGTAACAAGGTGAAGGCTGCGGTCGTGGACGTCGGCAATGGCACTTCGGATTACCGAATCAACCTGACCGCAGCTGGTCCCGGTAATACGCAGCCAGACATTTTGGCGGCCGATGGGATCTCGGGTCCCGCCAGCCTCCAGACCCAACTGACGGCTGGGTCCGATACCAGGTCCATCAGCCAGACGGCCTCCCCGTGGGTCGCACCCGCGGGCCCGGCGCTCGGCTTCCAGCTCTCTCTC 
 >PredictedProphage1 -Hit 2 
 TCAAGCAGCGGTATCTTCACCGGGTCCAGCCAGTTTTCGGCGGATTTTCAGAACGTGATTAGCCGGGCAACGGCCATCGCGTCGCTGCCGATTACCCAATTGAACACCGACAAGACGAACCTCAGCAGCCAGGCAACCGCATTGACCGGCCTTGACGGTAAGTTCAAAGCGCTTCAATCCGCCATCCAAGGAATCGCCGACTCGCTCACGGGATCCGCTTTCCAGGCGACCGTTTCGGACCCAACGAAAGCCGGTGTCAGTGTGAGCACAGGGGCCGCCGAAGGCGACTACACGATCGACGTAGTCAACGCCGGGGTTTACGCTACCAGCATGACTGCCAGCAATTGGGTTGGG 
 >PredictedProphage1 -Hit 3 
 ACGCTGCATGTGGACGGCACGGACTATAACCTGAGTGTAACCACGGATGCATCGGAAACCACGGCGGCCGATGTGCTGGGCAAGGTCACGGGCGACGCGTCCTATACGGCGCTGCACGCGGCGGGGATCACGGCATCGGTGGACGGCAACAACCACATCGTCTTCTCCGGCAAGGCCGGACAGGCAATCTCGGTGACGGCGGTGGGTGATGCTGGTAATGTGCTCGGGTACGGTGTCGGGTCCTCCACGGCGACGGCGAGCTACGGCACGATTACGCCGGGCGCGGCGCTGAATGCGGGCTCGGCGAACGACAAAGCGACGCTGGCGTTCTCCATCAACGGCGGGGACAAGATCCTGGTCAGCGTCACGTCCACAGGCAACTTGGGAACCACGGCCACGGCGCTGCAAGCGGCGATCGATGCCAACCAGCAGTTGCATGCGGCGGGCATCACGGTGGGCGCGAACCTGGCCACCATCTCGGCGGGGGCATCCACCACGAACTTCCGCATGACGGTAGAGAGCCAGTCCGGCACACTCAATCTCGGGCTGGGCACCGGTGTCTCTTCTTCAGCCACCTACCGCGCGGTCGATCATGCCGCCATGGTGTCTTCAGCCGGTTCCTCGCAGACCGGCCTCGGGGCCATGAACGACGTGTTCAGCTTTACCGGCTTGACCAACAAGGGCGGTGCGTCGGGCGCCAATGCCGACCAGCAGGTGATCAGTTTCGGAGCTGCCGCGGCCGATGGTACCGCGAAATCGACTTCCATCACACTCAATGCCACCAACGGCTATGACGTAGATACCGCGATTGCCACAATCAACAACGGTCTCCAGGCCAGCGGCGACCCGACCTTG 
 >PredictedProphage1 -Hit 4 
 GTGGACGGCACGGACTATAACCTGAGTGTAACCACGGATGCATCGGAAACCACGGCGGCCGATGTGCTGGGCAAGGTGACGGGCGACGCGTCCTATACGGCGCTGCACGCGGCGGGGATCACGGCATCGGTGGACGGCAACAACCACATCGTCTTCTCCGGCAAGGCCGGACAGGCAATCTCGGTGACGGCGGTGGGTGATGCTGGTAATGTGCTCGGGTACGGTGTCGGGTCCTCCACGGCGACGGCGAGCTACGGCACGATTACGCCGGGCGCGGCGCTGAATGCGGGCTCGGCGAACGACAAAGCGACGCTGGCGTTCTCCATCAACGGTGGGGACAAGATTCTGGTCAGCGTCACGTCCACAGGCAACTTGGGAACCACGGCCACGGCGCTGCAAGCGGCGATCGATGCCAACCAGCAGTTGCATGCGGCGGGCATCACGGTGGGCGCGAACCTGGCCACCATCTCGGCGGGGGCATCCACCACGAACTTCCGCATGACGGTAGAGAGCCAGTCCGGCACACTCAATCTCGGGTTGGGCACCGGTGTCTCTTCTTCAGCCGCCTACCGCGCGGTCGATAAAGCCTCAATGCTGGCCTCCGCCGGCTCTTCGCAGACCGGCCTCGGCCCGACTAATGACGTGTTCAGCTTTACCGGCTTGACCAACAAGGGCGGTGCGTCGGGCGCCAAT 
 >PredictedProphage1 -Hit 5 
 ATGCTCGTGATGTCGCGGCGACAGGGAGAAACCATCCTGATCGGCGATCAGATTGAAATCGTGATCGCGCATATCGGACGCTCGCGCGTGAAGGTAGGTATTCGCGCGCCGCGCGAAACTCCGATAGTCGCCCACGAAGTG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 TTGSNTLATSQTGQSWDSNPALNYQLSIGGTAYDIVTSDTTAQGVADAINSQFGNKVKAAVVDVGNGTSDYRINLTAAGPGNTQPDILAADGISGPASLQTQLTAGSDTRSISQTASPWVAPAGPALGFQLSL 
 >PredictedProphage1 -Hit 2 
 SSSGIFTGSSQFSADFQNVISRATAIASLPITQLNTDKTNLSSQATALTGLDGKFKALQSAIQGIADSLTGSAFQATVSDPTKAGVSVSTGAAEGDYTIDVVNAGVYATSMTASNWVG 
 >PredictedProphage1 -Hit 3 
 TLHVDGTDYNLSVTTDASETTAADVLGKVTGDASYTALHAAGITASVDGNNHIVFSGKAGQAISVTAVGDAGNVLGYGVGSSTATASYGTITPGAALNAGSANDKATLAFSINGGDKILVSVTSTGNLGTTATALQAAIDANQQLHAAGITVGANLATISAGASTTNFRMTVESQSGTLNLGLGTGVSSSATYRAVDHAAMVSSAGSSQTGLGAMNDVFSFTGLTNKGGASGANADQQVISFGAAAADGTAKSTSITLNATNGYDVDTAIATINNGLQASGDPTL 
 >PredictedProphage1 -Hit 4 
 VDGTDYNLSVTTDASETTAADVLGKVTGDASYTALHAAGITASVDGNNHIVFSGKAGQAISVTAVGDAGNVLGYGVGSSTATASYGTITPGAALNAGSANDKATLAFSINGGDKILVSVTSTGNLGTTATALQAAIDANQQLHAAGITVGANLATISAGASTTNFRMTVESQSGTLNLGLGTGVSSSAAYRAVDKASMLASAGSSQTGLGPTNDVFSFTGLTNKGGASGAN 
 >PredictedProphage1 -Hit 5 
 MLVMSRRQGETILIGDQIEIVIAHIGRSRVKVGIRAPRETPIVAHEV 
 



Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig159

Genome size:  81989
Host's GC content:  62.06
Predicted Codon Position GC:  	1st:  65.07	 2nd:  43.46	 3rd:  72.71

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig160

Genome size:  67099
Host's GC content:  61.85
Predicted Codon Position GC:  	1st:  64.94	 2nd:  43.40	 3rd:  72.35

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig161

Genome size:  67524
Host's GC content:  62.46
Predicted Codon Position GC:  	1st:  65.32	 2nd:  43.57	 3rd:  73.39

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig162

Genome size:  82582
Host's GC content:  62.31
Predicted Codon Position GC:  	1st:  65.22	 2nd:  43.52	 3rd:  73.12

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig163

Genome size:  78663
Host's GC content:  63.06
Predicted Codon Position GC:  	1st:  65.68	 2nd:  43.73	 3rd:  74.40

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig164

Genome size:  98956
Host's GC content:  61.37
Predicted Codon Position GC:  	1st:  64.64	 2nd:  43.27	 3rd:  71.53

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig165

Genome size:  105108
Host's GC content:  61.94
Predicted Codon Position GC:  	1st:  64.99	 2nd:  43.42	 3rd:  72.50

 >PredictedProphage1 
 Length:   10263 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 63.73 	 63.89 	 72.92 	 59.17 	 59.58 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	3	0.0857142857142857
 Leu	TTA	5	0.142857142857143
 Leu	CTG	7	0.2
 Leu	CTA	4	0.114285714285714
 Leu	CTT	5	0.142857142857143
 Leu	CTC	11	0.314285714285714
 Lys	AAG	4	0.8
 Lys	AAA	1	0.2
 Glu	GAG	5	0.178571428571429
 Glu	GAA	23	0.821428571428571
 Gln	CAG	9	0.473684210526316
 Gln	CAA	10	0.526315789473684
 End	TGA	1	0.25
 End	TAG	1	0.25
 End	TAA	2	0.5
 His	CAT	3	0.375
 His	CAC	5	0.625
 Asn	AAT	3	0.5
 Asn	AAC	3	0.5
 Ser	AGT	1	0.0344827586206897
 Ser	AGC	2	0.0689655172413793
 Ser	TCG	11	0.379310344827586
 Ser	TCA	5	0.172413793103448
 Ser	TCT	4	0.137931034482759
 Ser	TCC	6	0.206896551724138
 Trp	TGG	3	1
 Arg	AGG	4	0.0740740740740741
 Arg	AGA	1	0.0185185185185185
 Arg	CGG	15	0.277777777777778
 Arg	CGA	13	0.240740740740741
 Arg	CGT	6	0.111111111111111
 Arg	CGC	15	0.277777777777778
 Ala	GCG	21	0.375
 Ala	GCA	8	0.142857142857143
 Ala	GCT	10	0.178571428571429
 Ala	GCC	17	0.303571428571429
 Cys	TGT	3	0.25
 Cys	TGC	9	0.75
 Asp	GAT	12	0.5
 Asp	GAC	12	0.5
 Gly	GGG	15	0.205479452054795
 Gly	GGA	18	0.246575342465753
 Gly	GGT	18	0.246575342465753
 Gly	GGC	22	0.301369863013699
 Phe	TTT	0	0
 Phe	TTC	15	1
 Tyr	TAT	2	0.2
 Tyr	TAC	8	0.8
 Met	ATG	5	1
 Val	GTG	10	0.37037037037037
 Val	GTA	4	0.148148148148148
 Val	GTT	6	0.222222222222222
 Val	GTC	7	0.259259259259259
 Thr	ACG	4	0.235294117647059
 Thr	ACA	1	0.0588235294117647
 Thr	ACT	5	0.294117647058824
 Thr	ACC	7	0.411764705882353
 Pro	CCG	13	0.333333333333333
 Pro	CCA	3	0.0769230769230769
 Pro	CCT	13	0.333333333333333
 Pro	CCC	10	0.256410256410256
 Ile	ATA	1	0.0909090909090909
 Ile	ATT	3	0.272727272727273
 Ile	ATC	7	0.636363636363636
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 27421	27657	1	ref|NP_150177.1|putative anti-receptor protein	37.0bits(84)	0.37
 28187	28429	-1	ref|NP_835600.1|putative glycosyltransferases	40.4bits(93)	0.033
 30604	30735	-1	ref|NP_835600.1|putative glycosyltransferases	39.3bits(90)	0.074
 35466	35603	1	ref|YP_195258.1|hypothetical protein	37.4bits(85)	0.28
 36994	37683	1	ref|YP_164321.1|hypothetical protein	42.0bits(97)	0.011
 
 DNA sequence:
 TTCACATGGTCAGTGGTGACGGGCTTGCCGGCGACCGGGATATCCATGGCGCCGGTGTACACCATCTTCACGTCGTAGGCGGAGCCGAAGAAGACGCGGCCGGCGGCGGGCACCCTGCCCTGTCCCATTTCACGGCGCGCAAAGTACTGGAAGGTGAGGGCGTCTTTGGCGCAGTTGGGAAGCTGCAATTCACTGGTGCCCCCGCCGGCGGGCTTATCGTCGGTAGCGGGAACCAGGGTGCGGCGCCGGGCGATGTTGGTCTTTTGATCGAACTCGGTCTTCTCGGTGACTTTCTTGCTGCCGTGACTGATAAGGCGCTCCAGGGAGACGGAGCAGAGGTTGAAGCCGGCGGACGAGGAGCGGTAGCGATCGGCGATGGGCACGAGGGGCACGCTGACATTGGCGGCCATGTCGAAATTCCAAACGTCGCCGCTCTTGGCCGCGGTCAGGGTGACATTGCCGATGGAGTTGCCGCCGGGCCAGTTGACCTTGTAGCGCAGGGTCTCGTTTTGAAAGGGAAAGCCGGTTAATGGATCCGCCGCGGAAAGCAGCGAAGCGGAGGCCAGGGCGAACAGAAGAACACTGGAAAAGAATTTCATCGATGAGCTATGGTCTGGGAATAGACCGCGCTGGCGGCGCGCGATTTCTCCAGGACTTCGTGGAATACCTCGATGGTCCGCTGCGCCGTCTTCTGCCAGGAGAAGTGCGCGGCGCGCTGCAGGCCGAGGCGCTCCATGCGCGCGCGGAGTTCGGTATCGAGCAGGAGGTCCGCCATGGCGCGCACAATTTCATCCAGCGCGTAGGGGTCGAAGAGGATGGCGGCGCCGTCCACGACTTCCGGGAGCGAAGAAGTATGCGAGCAGATCACGGCGCGCCCGCAGGCCATGGCTTCGAGCGCGGGCAGGCCGAAGCCTTCGTAGAACGAGGGGAAGATGAACAGGTCGCAGGCGTTGTAAAGGTTGAGCAGGTCGTCATCGGAGACGAAACC!
 GCAGAACTGAATGCGATCGGACACGCCGGAATCGCGGGCGGCGCGGTGGACTTCGCCGGCGAACCAGGTTTCCTTCCCGGCGAGCACCAGGTTTTGCTTGAGCTGGGGATGCGCCTTGAGAAGGCGGGCGAAGGCGCGGATCATGCCGATTTGATTCTTACGCGGCTGCAGATCGCCCACCGAGAGCACGAAGGGCGCCGCGATCTGGAACCGGTCGCGTACAGCGGCGGCCGCGGCGTCCCGGGAAATGGGGCGGAACTCCGGGGCGGCGGCATTCGGGACCACGACGACCTTGTCTTCCGCGAGGTTGCCGTAGACTTTCAAAATCGACGCGCGGGAAAATTCGCTGCCGGTGAGGATTCTGGCGGCGCGGTGTACGGTGCGGCGCACGGTCCACTGTAACTGCCAGGCGCGATCGCGGGTGAAGTACTCGGGATGCTCCAGAAAACTCACATCGTGAACGCTAACGACGACCGGAACCGGGCAGGCGAGCGGCGCGGTGTACTGCACATGGAGCAGGTCGGGGCGGTCCTCCCGCACCTTCATGGCAAGGTCGAACCCCAGCCGGATAAAGGGGTTGGTGGCGATTCGCCGAGTACGAATGTTCGCTGGAATACTATTTGCGGCGCTCTCTGCCGACACATACGCGATGAATTCATCGTCCTGTTGTTGGGCGGCAAATGCGTTCAGGAGACTCCGAACGTAGACCTCGTTACCCGTGAGGTGGCGGCCGATGGCGTGGGCATCAACGGCGAAACGCATTAACGGTTACCAGTATAGCGGACCAGAATGACTCTCTGCTGTGTCAGAAGTCTAACTTTTTCCAAGCTGTTTCCCATGTAAACTCCTTTTCCAGCAACAGCCTGCCAGCATTGCCAATCTTTTGTCTCAACTCGTAGCACGTCAAGAGCCGTGTTACCGCGGCGGCGAACGGCGCGGCCCCATCGGCCAGGAGGAGAGTTTC
GCCATCGCAAGCCGGTAACCCCTCGGCGCCGATGGTGGTGGAGACTACCGGGATTCCGGCGGCCCAGGCTTCGAGGATCTTGAGGCGGGTGCCGCTGCCGGTCAGCAAGGGAACTACGGCGACGCGTGCCCGGGCGAGTTCGCGGACCGCGTCGTCCACCGCGCCAGTGACCTGGATCCTGGGGTCGCCCTCGATGTATCGAGTCACCGCGTGGGCGTTCTTGCCGACCAGGCGCCAGGTCAGGTTCGGCCAGCGCTCGCGAAGAGCGGGCCAGACCTCACGGCGGAAGAAGGCGACGGCGGTTTGGTTGGGGTGGTACTCCATATTGCCCGAGAAGACGACGACTTCTTCGTCCGCTCCGGCGGGGCGCGCGACCGGGGGGAGGGCGTTGGGGTAGACGAGAATGCGGGCCTGGGGCGCGATGGCGCGGGCCAGGGCGGCATCGATTTCGGAGGTGGCGAGCACCTCCGAGAATCGCGGCAGCCAGAATTTCTCGAGCTTGCGGGAGGCTTCCTCAAATACGCCATGGGCAAGCGCGGCGGCGCGGCCGGCGGTATGCGCGCAGCGCCCATGCAGCAGGCTCTCCACATTGTGCAGGTCGAGAACGGTGCGTTCGCAAACCGGCGAGATCTGCTCCAGGTAGGGAGCGCACCAGGAGTGCTCCACGAGGCCGAGCTGGTAGCGGCGGCCCTCGAGAGCGCGGGCGATCTGAGATTCAAAGCCGGCGAAGCGATCGACCAGCGGCGGAACGCGGCGGGCCACGCGCGCGGCATTGCGGAGGGCGCGGGCGGTGAGGCCGCGGCCGTTGGCGGGCAGATCGACCACGGTCACGCTGCGCACGCGGCCCGGTGGAAAGAGTGCGGCGGGGTCGGCGGCTCCAGGCTGGCGAAAGACAATGCAATCGACGTCGTACCGGAGCGACAGGTACTCGAGCAGGGAGGCGCTCCGCAGGGCACCGCCGCCGGCGAGGGGATAGGGCGCTTCCGGCG!
 CCAGAA
AGAGGGCCGCCGGGCGCCGCGGTTCAAGTGCCAAAGCGCTGCCTCGCTTCCTGGTATACCTCGTAGGTCTTGCGGGCCGCGGCGGCCCAGGAGAACTCGCGGGCGCGGGCCAGGGAGCGCTCGCGCAGGGCGGCGGCCAGGTCGGGATGGGAGGCGAGTTCGGACATGGCAGCCGAGAGTTCGGCGGGAGTACCGGCGTACATTGCAGCGTCGCCGGCCGCCTCTTTCACGGCGCACGACGCGATCACGGGGGCGCCGCACTGCATGGCTTCGAGCACGGGGAGTCCGAAGCCCTCGTAAAGCGAAGGGTAGACGAAGGCGAGCGCGCGCGAATAGAGCGCGGCGAGCTCCTGGTCGGCGACTTCGCCGGCGAGGCGGAGGCCGGGCTCGGCAGGGATCTCAGGGGCGTCGGCGCGTTTGCGTCCGGCGAGCACGAGATCGACCGCATGGGTGCGCCGGACTTCGCGCCACGCCTCGATAAGCGCCTGAAGGTTTTTGCGCGGCTCGAGAGTTCCGACGAACAGGAAGTAAGGCGGGTTGGCGGGCGGCAGGGAACGGGCCAAGGGCCGGAGCCAGGGAGCGGCCGCTTCCGGGACGGAGACGACGCGGTCAGGCGCGAGGCGAAAGCGTTCGATGGCGGCGCGGCGTACGGTCTCGCCGGGAGTGATGACCATGGTGGCGAGTCCCAGGTCGAAGAGGACCGGGGTGCGGCGGCGAACGCGTCCGGCGGCATGATGCCAGCGTTCGTCCATCCAAGGCGAAAGATCGTGCAGGGTGAGGACGCTCGGGCGGCCTTTGAGATAGGGCACGGCAAAATCCGGGCCGTGGACCAGGTCGGCGCCCAGGCGGTGGAGTTCGCGGCCCAGGCCCCAGAGCCACCAGCGGCGTTCGAGAAGATTGCGCGGGCCACCGCCCTTGTGGAGGTTGGGGGGCGCCATCGCGGGCATGGAGAATGGCTGGTCCGAGACCAGGTAGAATTCGTCGGCGGG!
 GAACCCAGTAGCCAGCGCGAGGCTCAGTTCGGAGGTATAGCGTGCCAGCCCACCGCTGGAGAGT
GCGAGCGAAGCGGCTTCAATCGCCACACGCATAAAGAGGAGCTAGTGTGACCTGGTTGTACAGTAAAATTAGCGACCGCTCCCTAACGGTCGCGGCTCGGATTGGAGCGGGCCGGGACGCGAGAAGGATTGGAGGAGTGGGCATTCAATCCAGCGGCTAGGAAACGGCGGTGCGGTTGCCGTAGTTGCGTTCGTAGTAATTGCGATATTCGCCGCTGCGCACGCGAGCCACCCAGGCCGCATTCCCGCGGTACCACTCGATGGTGCGCGCGAGGCCGGTTTCGAAATCCATCAGAGGCTGCCAACCGGTTTCGTGCATGAGCTTCTCGCTCGAAAGGGCGTAGCGGCGATCGTGGCCGGGCCGATCTTTCACGTAGACGATGAGGCTTTCGCTCTTTCCGGTAATCGCGAGCACCTGATGGATCACGTCGAGATTAGGCAGCGAGCGATTGCCGCCGATGTTGTAGATCTCGCCTTCGCGGCCCTGGTTGAGGACGGCCATAATTCCGCGGCAGTGATCGTACACGTAGAGCCAGTCGCGAACCTGCTGGCCATCGCCATAGACGGGCAGCGGCTGGTCGTCCAGGGCATTGGCGATCATCAGCGGGATCAACTTCTCGGGAAACTGATAGGGCCCGTAGTTATTGGACGCGCGAGTGATCAGGACGGGCAGCTTGTAAGTGACGAAGTAAGAGCGCGCGAGCAGGTCGCTGGCGGCCTTCGATGCCGAATAGGGGCTGCTCGGATTGAGCACGTACGCCTCATCGGCTTCGGCGGGCGCTTCGAGGCTGCCATAGACTTCGTCGGTGGAGACGTGAACGAAGCGGGCGATTTTCTGACGGCGGGCGGCTTCGAGAAGCGTGAAGGTTCCGTTGTAATTGGTGCGCACGACCGGCTCGGGCGAGAGGATGCTGCGGTCAACGTGCGACTCGGCGGCAAAGTGAACGATGGCATCGGGCCGCTCTTCCGCGAGCGTGGCTTCGACCAGCG!
 CGGCAT
CGCAGATATCGCCATGGACGAAGCGATAGCGATCGCTGCCATCCACCGGCGCCAGGTTCTCGAGGTTCCCGGCGTAGGTCAATTTGTCGAGATTCACTACGTGAAGGTCCGTTTCCGCGATCGCCATCCGCACAAACGCAGACCCGATAAAACCTGCCCCACCCGTTACCAGAATTTTCATGAAGAAAAGATCCTAAAGGCCGCCGGATGGCAGCCGGAAAAGCTATTTATTCTGCGTCTCCCAATCGTAATTGATTCCGGGGTCGTTGTACGGAACACGGCCCTCGTCCTTGGGATTGTAAAACTGGTCGGTCAGATAGACCAGCATGGCTTCCTTGTTACCGATTACTTTGTAGCCGTGCCCCACGCCTGGCGGAATCAGGATCTGCCAGGGACGGAGCGCGCCGACGTAGAGAGTGTTCCGTGCGCCGTAAGTCGCCGAACCGAGGCGCAGATCCACCAGGGCCACCTGCAGCAGGCCGTACACGGGTGCCCAGCAATCGTGCTGGTGGAGATGAAAATGGAAGGCCTTAACGGTGCCGGGATAGTTTAATGCCGCCGACATCTGGGTGGTCGCTGGAGGGAAAGCTGCGGCGAGGCCGCGGCCCATGCGATGAACTTCAAGGAAGTAGCCGCGATCGTCCGGAAAGAGCGCGTAGGGCTCGACTTTGACGCCCGAGATCAGGTGCTCCGATGACGGAGAGGTGATCAGGCTGCCGATTCCCCGGGCACATTCGGGGACCACCAGTTGCAGATCGTTATGTGAGGCCAGGCGGCGTCCACCGGCCTGTAGCGCTTCGGCACCCATCAGATCCGGACCGCCCTTTCCGGTTCGGCGGCGAATTCCGGGACGGCCACCGTCTTGGCGGCGGACTGGGCTACAAGATTGGTGGCGCGCAGCAGGGAATCGAAGGTTCCGGCGTCGGTCCACCAGCCATCCAGGTAAGAGAAGCTCATGTTGCCTTCCCGGATGTAGGCGTTATTGACGT!
 CGGTGATTTCGAGCTCGCCGCGGCCCGAGGGAACCAGGGTTTTGATCTTCTGGAAGACGCTGGC
ATCGTACATATAGATGCCGGTCACGGCGTAATTCGATTTGGGGTTGTTGGGCTTCTCTTCGATACCCACGATGCGGTCGCCGGCGACTTCAGCCACGCCGAAGCGCTCCGCGTCCTGAACTTCCTTGAGCAGAATGTGGGCGCCGGCAGGCTGAGCGCGGAAACGATCGGCGGCGGCCTTAATGTTGCCTTCGATGATATTGTCGCCGAGGACGACGCAGATCTGGTGGCCGTCGGCGAAATGCTCGGCCAGGGCCAGCGCGTCGGCGATGCCGCCCTCGCCTTCCTGGTACGTATAGTTGATGTGCTTGAGGCCGAACTGCTTTCCATTGGCCAGCAGGCGCAGAAAATCGCCGGAATTCCGACCGCCGGTGACGATCAGGATCTCCTGGATGCCCGCATCGACGAGCGTCTGGATCGGGTAATAAATCATCGGCCGGTCGTAGATCGGCAGCAGATGTTTATTCGTGATCTTGGTCAGCGGAAACAGACGGCTGCCGGTACCCCCGGCTAAAACGACACCCTTCATAGGCGTTAATTATACCGTACCGACGCAATCGGCCTGGCACGCGAGCATAATGAAAACTCCGGGAGGAAATCGAGACATGAGAGGACTGATACTGATGTTGGCCGGCGTGACTTCCCTGCTCGCCCAGGGCGAGAAGATTCGTGTGATCGCGTTTGGCGCGCATCCCGACGATTGCGACATTCGCGCGTCGGGGACGGCGGCGCTAATGGCCGCCGCGGGCCACGCGGTGAAATTCGTCTCGGTGACCAACGGCGACGTGGGGCACCAGACGCTGCATGGTGCGCCTCTGGCGGAGCGCAGGCTGGCGGAGGCCCGGGAATCGGCGCGGCGGCTGGGGATTGAGTATGAAGTGCTCGGCAATCACGATGGAGAGCTGCTGCCGACCCTCGAAGTGCGCAAACAGGTGATCCGTCAGATCCGCGAGTGGAATGCGGACGTGGTGCTGGCGCCGAGGCCGAACG!
 ACTATC
ATCCGGACCACCGGTACACGGGCGTCCTGGTGCAGGACGCGGCGTATATGGTGGTGGTGCCGCACATGCTGCCGGAGGCGCCGGCACTGCGCAAGAATCCGGTCTTCCTCTATTATGAGGACGGCTTCCAGCGGCCGAATCCGTTTCGGCCGGATATTGCGGTGGCGATCGACGACGTAATCGATAAGAAGATCGCCGCGCTGGATTCGCACGTGTCGCAGTTTTACGAGTGGCTGCCGTGGGTGGCGGGGACGCTGGCGGAAGTCCCGCAGGATCCGGCGGAGCGTAAGGCTTGGCTGAAGCGCAGCAGAACGCGCGACATCAGCCCCGCGGTGCGGGCATCCCTGGTGAAATGGTATGGGCCGGCGAAGGGCAATGCGGCGCGGTACTACGAGGCCTTCGAGGTCTGCGAATACGGGACGCAGCCTAGCGAGGCGCGTATTCGCCAGCTATTTCCGATGTTGCGATGATGCCGATGTTACACTGATTCTGAATGCCTTACAGCCAGATCCTGTTCGACGTGTCCGAGGCCGGGGTTGCGCTGATCACGATCAATCGTCCGGAGAAGCTGAATGCCCTCTCGAGCGCGGTGATCGGCGAACTGGCGCAGGCGTTCGCGCAGGTGGCCGGCGACCCGGGCATTCGCGGCGCGATTCTGACAGGAGCCGGCGAGAAGGCCTTCGTGGCCGGCGCGGACATCAGTGAACTGGCGTCGCTGACGGCGTATGAAGCGCGCGGATTCGCGCTGCGCGGCCAGGGTGTGTTCCGCGAGCTGGAAACCTGCGGCAAGCCCTCCGTGGCGGCTGTGAATGGCTTCGCCCTGGGCGGCGGCTTGGAACTGGCGATGGCGTGTACGGTGCGCTTCGCGAGCGAGAACGCGAAGCTGGGGCAGCCGGAAGTGAAGCTCGGAATCATCCCGGGCTACGGCGGCACGCAGCGGCTGCCGCGCCTGGTGGGCCGGGGGCGCGCGCTCGAGCTGCTGTTGGCCG!
 GCGACCCGATTCCGGCGGCGGAGGCCTACCGCATCGGCCTGGTGAACGCGGTGACCCCGCAGGC
GGAACTGCTGGAGTACAGCCGGGGATGGCTGGCGAAGGTGCTGGCCAACGGTCCACTGGCGCTCGGTCTGGTGATGGACGCGGTGGATACCGGGATGAGCTGCGGGTTGGACGAGGGGCTGCGGCTTGAGGCCGAGGCGTTCGGCGTCAGCGCGGCCACCGAAGACCGCCGCGAAGGAACGCGCGCGTTTCTGGAGAAGCGCCGCGCGGTATTTACAGGAAAGTGAGACATGCCGAAAGTATTTGAAGGCCAGTTATCGGCGGCGGGGCTGCGGTTTGCCATCGTGGTCAGCCGCTTCAACAGCTTCATCACGGACCGCCTGCTGGGCGGCGCGATGGATGCCCTGACGCGCGCCGGCGCCGATCCGGAACTGATCGATATTGTGAAGGTGCCCGGCTCCTGGGAGGTTCCGCTGGTGACCGGGGAACTGGCGCGGCAACATCGTTACGATGCGCTGATCTGCCTGAGCGCCGTGATCCGCGGCGAGACGCCGCACTTCGACTATGTCGCCGGAGAGGCGGCCAAGGGCATCGCGCATGTTTCGTCGGAGACCGGGGTTCCGGTGGCCTTCGGCGTACTCACCACCAACACGCTGGAGCAGGCAATCGACCGCGCGGGCGCCAAAGGCGGCAACAAGGGTTTTGACGCTGCCATGACCGCGATCGAGATGGCCAATCTCCTGCGCACGCTCCGGCAGGCGACCTAGATGGCATCCCGCCGCAGAGCCAGGCAGCGCGCGCTGCAAATTCTCTTCATCTGGGATGCCCGCAAGCAGCCCGTGGAGGACGCGATCAACGCGTATTACGATACCCTGTACTCGGACGAGAAGCCGGAGCGCGACCCGTTCGTGATCGATCTGGTGCGAGGTACGGTAGAGCACCTCGCCGAGGTGGATGATCGCATCACCCGGCATGCCGAGCACTGGCGGATGGAGCGAATGCCGGCGGTGGATCGCAATATCCTTCGACTGGCAGTGTACGAAATGACCC!
 GCGGCG
GAACCCCGGCGCCGGTCACGATCGACGAGGCGCTGGAACTGGCACGCAAGTTTTCCAACGAGGAATCGGTCCAATTCGTCAATGGGGTGCTGGACGCCGTGCGACGTGAAATGCCGGAGCCAAATGCTCCTCCGGCGCGTCTAAATTCCTAGTAAGGTATACTTCGCTCTAAGGACGGTTTCCCGAATGGCCCGAAGAAGGCGCTCCCTCTTTGTCTTACCCGTGATTGTTTTCGCCTGCTCCATTGCAGGCGGGTTTTACGGGCCGAAAGTGGAGGTAGCCGCGGCAGCCTCGCAATCCGAAGATCTCGATAAAGACGTACGGGACTTCAGCAAAGTCCTTTCCCTGGTGCAAGATAACTTCGCGGACCACGTCAGCGCCGATAAGACGATCTACAAGGGCGCGATTCCCGGCATGCTGCGCACGCTGGACCCGCACTCCAACTTTTTCGACGCGCGCGAGTACCAATTGATGCGCGAGGACCAGAAGGGCCACTACTACGGCGTGGGCATGCAGGTATCGCCGCAACCCAGCGGGAAGACCGCGGTCAAGGCGCCGTTCCCCGGTTCACCGGCGTACAAAGTGGGCCTGCGGCCGGGCGACCTCCTAATTTCGGTGAACGACAAGTCCACCGAAGGGCTGAACACCACCGAGATCGCCGACCTGTTGAAGGGACCCCGCGGGACCTCGGTGAAGATCGTGGTGTCGCGGGAGGGAACGAAGGATTACCTGACCTTCACGGTGGTGCGCGACGAGATCAGCCGTAAGAGTGTTCAGGATGCGTTCTGGATTAAGCCGGGTTATGCGTACGTGAAGATCCTGAGCTTCGGCGAGAATACCAGCAGGGAACTGGAAGAGAACCTGAAGCGCCTGGGCGAGAACAATATCAAGGGGCTGGTGCTGGACCTGCGCGAGAATCCCGGTGGACTGTTGAATGAAGGCGTCGCGGTAGCGGACCACTTCCTGCCCAAGAATGCGCTGATTGTTTC!
 GCACCGCGGGCGCTCCGCTCCGGAAAAGGCTTACGTGGCGCAGCACGGCAATCGCGGACGCGAT
TACGCAATGGTGGTGCTGGTCAACCGCTATTCGGCATCGGCCGCGGAGATCGTGTCGGGCGCGCTGCAGGATCACGATCGCGCGTTGATTCTGGGCGAGACCACGTTCGGCAAGGGCCT 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 TTCACATGGTCAGTGGTGACGGGCTTGCCGGCGACCGGGATATCCATGGCGCCGGTGTACACCATCTTCACGTCGTAGGCGGAGCCGAAGAAGACGCGGCCGGCGGCGGGCACCCTGCCCTGTCCCATTTCACGGCGCGCAAAGTACTGGAAGGTGAGGGCGTCTTTGGCGCAGTTGGGAAGCTGCAATTCACTGGTGCCCCCGCCGGCGGGCTTATCGTCGGTAGCGGGAACCAGG 
 >PredictedProphage1 -Hit 2 
 TCCGATCGCATTCAGTTCTGCGGTTTCGTCTCCGATGACGACCTGCTCAACCTTTACAACGCCTGCGACCTGTTCATCTTCCCCTCGTTCTACGAAGGCTTCGGCCTGCCCGCGCTCGAAGCCATGGCCTGCGGGCGCGCCGTGATCTGCTCGCATACTTCTTCGCTCCCGGAAGTCGTGGACGGCGCCGCCATCCTCTTCGACCCCTACGCGCTGGATGAAATTGTGCGCGCCATGGCGGAC 
 >PredictedProphage1 -Hit 3 
 GGCGAAGTCGCCGACCAGGAGCTCGCCGCGCTCTATTCGCGCGCGCTCGCCTTCGTCTACCCTTCGCTTTACGAGGGCTTCGGACTCCCCGTGCTCGAAGCCATGCAGTGCGGCGCCCCCGTGATCGCGTCG 
 >PredictedProphage1 -Hit 4 
 GGCGGCGGAGGCCTACCGCATCGGCCTGGTGAACGCGGTGACCCCGCAGGCGGAACTGCTGGAGTACAGCCGGGGATGGCTGGCGAAGGTGCTGGCCAACGGTCCACTGGCGCTCGGTCTGGTGATGGACGCGGTGGA 
 >PredictedProphage1 -Hit 5 
 CCAGAAGGGCCACTACTACGGCGTGGGCATGCAGGTATCGCCGCAACCCAGCGGGAAGACCGCGGTCAAGGCGCCGTTCCCCGGTTCACCGGCGTACAAAGTGGGCCTGCGGCCGGGCGACCTCCTAATTTCGGTGAACGACAAGTCCACCGAAGGGCTGAACACCACCGAGATCGCCGACCTGTTGAAGGGACCCCGCGGGACCTCGGTGAAGATCGTGGTGTCGCGGGAGGGAACGAAGGATTACCTGACCTTCACGGTGGTGCGCGACGAGATCAGCCGTAAGAGTGTTCAGGATGCGTTCTGGATTAAGCCGGGTTATGCGTACGTGAAGATCCTGAGCTTCGGCGAGAATACCAGCAGGGAACTGGAAGAGAACCTGAAGCGCCTGGGCGAGAACAATATCAAGGGGCTGGTGCTGGACCTGCGCGAGAATCCCGGTGGACTGTTGAATGAAGGCGTCGCGGTAGCGGACCACTTCCTGCCCAAGAATGCGCTGATTGTTTCGCACCGCGGGCGCTCCGCTCCGGAAAAGGCTTACGTGGCGCAGCACGGCAATCGCGGACGCGATTACGCAATGGTGGTGCTGGTCAACCGCTATTCGGCATCGGCCGCGGAGATCGTGTCGGGCGCGCTGCAGGATCACGATCGCGCGTTGATTCTGGGCGAGACCACGTTCGGCAAGGGCCT 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 FTWSVVTGLPATGISMAPVYTIFTS_AEPKKTRPAAGTLPCPISRRAKYWKVRASLAQLGSCNSLVPPPAGLSSVAGTR 
 >PredictedProphage1 -Hit 2 
 SDRIQFCGFVSDDDLLNLYNACDLFIFPSFYEGFGLPALEAMACGRAVICSHTSSLPEVVDGAAILFDPYALDEIVRAMAD 
 >PredictedProphage1 -Hit 3 
 GEVADQELAALYSRALAFVYPSLYEGFGLPVLEAMQCGAPVIAS 
 >PredictedProphage1 -Hit 4 
 GGGGLPHRPGERGDPAGGTAGVQPGMAGEGAGQRSTGARSGDGRGG 
 >PredictedProphage1 -Hit 5 
 PEGPLLRRGHAGIAATQREDRGQGAVPRFTGVQSGPAAGRPPNFGERQVHRRAEHHRDRRPVEGTPRDLGEDRGVAGGNEGLPDLHGGARRDQP_ECSGCVLD_AGLCVREDPELRREYQQGTGREPEAPGREQYQGAGAGPARESRWTVE_RRRGSGPLPAQECADCFAPRALRSGKGLRGAARQSRTRLRNGGAGQPLFGIGRGDRVGRAAGSRSRVDSGRDHVRQGP 
 



Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig166

Genome size:  94567
Host's GC content:  62.87
Predicted Codon Position GC:  	1st:  65.57	 2nd:  43.68	 3rd:  74.08

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig167

Genome size:  102780
Host's GC content:  62.39
Predicted Codon Position GC:  	1st:  65.27	 2nd:  43.54	 3rd:  73.26

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig168

Genome size:  104853
Host's GC content:  61.87
Predicted Codon Position GC:  	1st:  64.95	 2nd:  43.40	 3rd:  72.38

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig169

Genome size:  123138
Host's GC content:  61.80
Predicted Codon Position GC:  	1st:  64.90	 2nd:  43.39	 3rd:  72.26

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig170

Genome size:  116209
Host's GC content:  62.48
Predicted Codon Position GC:  	1st:  65.33	 2nd:  43.57	 3rd:  73.42

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig171

Genome size:  117203
Host's GC content:  61.13
Predicted Codon Position GC:  	1st:  64.50	 2nd:  43.21	 3rd:  71.14

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig172

Genome size:  116963
Host's GC content:  61.90
Predicted Codon Position GC:  	1st:  64.97	 2nd:  43.41	 3rd:  72.43

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig173

Genome size:  113720
Host's GC content:  61.30
Predicted Codon Position GC:  	1st:  64.60	 2nd:  43.25	 3rd:  71.42

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig174

Genome size:  125825
Host's GC content:  62.76
Predicted Codon Position GC:  	1st:  65.50	 2nd:  43.64	 3rd:  73.89

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig175

Genome size:  121545
Host's GC content:  62.48
Predicted Codon Position GC:  	1st:  65.33	 2nd:  43.57	 3rd:  73.42

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig176

Genome size:  129079
Host's GC content:  62.29
Predicted Codon Position GC:  	1st:  65.21	 2nd:  43.52	 3rd:  73.09

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig177

Genome size:  130827
Host's GC content:  61.74
Predicted Codon Position GC:  	1st:  64.87	 2nd:  43.37	 3rd:  72.17

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig178

Genome size:  131650
Host's GC content:  62.40
Predicted Codon Position GC:  	1st:  65.28	 2nd:  43.55	 3rd:  73.29

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig179

Genome size:  136590
Host's GC content:  62.45
Predicted Codon Position GC:  	1st:  65.30	 2nd:  43.56	 3rd:  73.36

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig180

Genome size:  120919
Host's GC content:  62.15
Predicted Codon Position GC:  	1st:  65.12	 2nd:  43.48	 3rd:  72.86

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig181

Genome size:  150627
Host's GC content:  63.13
Predicted Codon Position GC:  	1st:  65.73	 2nd:  43.75	 3rd:  74.52

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig182

Genome size:  165385
Host's GC content:  61.86
Predicted Codon Position GC:  	1st:  64.94	 2nd:  43.40	 3rd:  72.36

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig183

Genome size:  162472
Host's GC content:  61.22
Predicted Codon Position GC:  	1st:  64.55	 2nd:  43.23	 3rd:  71.29

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig184

Genome size:  174734
Host's GC content:  62.71
Predicted Codon Position GC:  	1st:  65.46	 2nd:  43.63	 3rd:  73.80

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig185

Genome size:  195749
Host's GC content:  62.56
Predicted Codon Position GC:  	1st:  65.37	 2nd:  43.59	 3rd:  73.55

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig186

Genome size:  199630
Host's GC content:  61.96
Predicted Codon Position GC:  	1st:  65.00	 2nd:  43.43	 3rd:  72.53

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig187

Genome size:  197822
Host's GC content:  62.23
Predicted Codon Position GC:  	1st:  65.17	 2nd:  43.50	 3rd:  72.99

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig188

Genome size:  188826
Host's GC content:  61.75
Predicted Codon Position GC:  	1st:  64.88	 2nd:  43.37	 3rd:  72.18

 >PredictedProphage1 
 Length:   14223 
 Number of hits =   8 
 GC	Coding	First	Second	Third
 61.13 	 61.36 	 64.43 	 46.94 	 72.71 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	41	0.211340206185567
 Leu	TTA	5	0.0257731958762887
 Leu	CTG	67	0.345360824742268
 Leu	CTA	5	0.0257731958762887
 Leu	CTT	20	0.103092783505155
 Leu	CTC	56	0.288659793814433
 Lys	AAG	52	0.693333333333333
 Lys	AAA	23	0.306666666666667
 Glu	GAG	49	0.576470588235294
 Glu	GAA	36	0.423529411764706
 Gln	CAG	42	0.7
 Gln	CAA	18	0.3
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	26	0.464285714285714
 His	CAC	30	0.535714285714286
 Asn	AAT	13	0.30952380952381
 Asn	AAC	29	0.69047619047619
 Ser	AGT	16	0.141592920353982
 Ser	AGC	26	0.230088495575221
 Ser	TCG	33	0.292035398230089
 Ser	TCA	10	0.0884955752212389
 Ser	TCT	5	0.0442477876106195
 Ser	TCC	23	0.20353982300885
 Trp	TGG	12	1
 Arg	AGG	8	0.0476190476190476
 Arg	AGA	6	0.0357142857142857
 Arg	CGG	56	0.333333333333333
 Arg	CGA	21	0.125
 Arg	CGT	15	0.0892857142857143
 Arg	CGC	62	0.369047619047619
 Ala	GCG	58	0.339181286549708
 Ala	GCA	22	0.128654970760234
 Ala	GCT	22	0.128654970760234
 Ala	GCC	69	0.403508771929825
 Cys	TGT	7	0.368421052631579
 Cys	TGC	12	0.631578947368421
 Asp	GAT	33	0.402439024390244
 Asp	GAC	49	0.597560975609756
 Gly	GGG	23	0.178294573643411
 Gly	GGA	18	0.13953488372093
 Gly	GGT	23	0.178294573643411
 Gly	GGC	65	0.503875968992248
 Phe	TTT	13	0.26
 Phe	TTC	37	0.74
 Tyr	TAT	15	0.517241379310345
 Tyr	TAC	14	0.482758620689655
 Met	ATG	29	1
 Val	GTG	52	0.40625
 Val	GTA	17	0.1328125
 Val	GTT	19	0.1484375
 Val	GTC	40	0.3125
 Thr	ACG	52	0.514851485148515
 Thr	ACA	8	0.0792079207920792
 Thr	ACT	9	0.0891089108910891
 Thr	ACC	32	0.316831683168317
 Pro	CCG	49	0.532608695652174
 Pro	CCA	11	0.119565217391304
 Pro	CCT	7	0.0760869565217391
 Pro	CCC	25	0.271739130434783
 Ile	ATA	1	0.0125
 Ile	ATT	24	0.3
 Ile	ATC	55	0.6875
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 14851	15408	1	ref|NP_918975.1|putative glycoprotein	37.7bits(86)	0.37
 17639	18409	-1	ref|NP_612994.1|hypothetical protein	63.5bits(153)	6e-09
 20463	21170	-1	ref|NP_612994.1|hypothetical protein	61.2bits(147)	3e-08
 23066	24052	-1	ref|NP_958675.1|reverse transcriptase	54.7bits(130)	3e-06
 24763	25473	1	ref|NP_817502.1|gp53 	47.8bits(112)	4e-04
 25713	26324	-1	ref|NP_817502.1|gp53 	68.6bits(166)	2e-10
 27618	28202	-1	ref|NP_817502.1|gp53 	52.0bits(123)	2e-05
 28861	29073	1	ref|NP_720278.1|Int 	45.4bits(106)	0.002
 
 DNA sequence:
 ACGTATTCGTCAACGCCGGGCGTACCGCTCGTGGTAGTTCCCGCTGATGACATTCTGCTGCCGCCCAATGTGACTGTAGGCCCGGGGCAGTGTGTACCATTGCCATTGAGCTTGACATCGCCTTCGGGGCCGATTGGCACGTTCATCACCCTCACGAGCAGCGATCCTTCAAAGGTCACGTTGGGACCGGGGAACCTGAGTTCTGAAACAGTTTTCATTCCCGCTGGTGCGATTACCGGTGCAAGAACGCCTCTCGTATGTGGGGTCAACTTCGGGACGGCAACCATCTCCGCCACTGGTGGCGGTCTGCCGTCAGCTAACCAGACTGTACTGGTGAGCGCGACACTCAGCTTCTCACCGTCTAATAGTGCCATTACGAGAGGGAAGCAGGACCGGCTGACGTTGAGTCTCTCGGCGCCCGCACCAGTCGGTGGCGTGACCGTGAGTCTCAATTCCGACCAGCCAAGTGTCGCCACTGTCCCGTCCTCAGTGACGATCTTGGCTGGCACATCCAGCGTGATTGTTCCGATAACTGGTATTGCCGTGGGCTCGACAGTGATCCACGCCAGCTCGTTGCCGAACGTCCCCGAGACAACTGCTAGTGTAACGGTCCAGTAATGGACTAATAGGCGGTGCTGCGTGTTTCTCTTTAGGTTGCGCAGTGGCGGTCCATTCACGACTCCGCGTCGCATTGCTCCTCGTCGAACGCCTGACTCCTCTCCCTTCGCGACTCATGTGTTGAGGGGCAGGCTCCCATTCAGTTCCGGGTCGGCGAGCCCAGACCCTTTTGAGCTACTATGAGTGCGGCGCGCACCGTATAGACTGTTCGAACGCCCGACGGATCTGCGGCGCTCGCCGCAGGGAAAGCCAGGATACGAAGCCGCCAGATAATGGCTACCGATAACTCTTCTTAACGCTCCGTTCCCAATTCCAGGCCTGCGCTCCATTTGGGCCGGAAATGATCGGCGCTGGAGGCCGCGGGTCATGA!
 AGCTAA
CTAAAGCAGCGATACCAAAGGACGAGCAGCCAAGTCGGTACTGCGGTTACGAGATCTTTGAGGGGCAGCACGATCTTATTTCGCGATGTGTACCAGGTACAACTCCGACAGCGTACGGTTCACAGAGGAGGCAATCGACTTCCCGTCGGCCGTGATCTTGATTTGACCGACGCCGCGCATGCCGGCGGGATCGGGCGGATGAAGTTCCTTCCACAATTCTCGTCGGCCGCCGGAAAGATCGACGCGAAAGATGCGGTTGCGTTCTTGTGCCGTCACCAGGTAAACCGACTTGCCGCCGTCCGCGAACCCAAGCACTGTATCCTGCGGCGTGAGGACGGAGGCGGGGCGCGGATTTCCGCCTGACGCCGGATAGATCGAGTATCCCTTCGCGCTGCGCACGAGCACTTCTGCGGCATCGGGGCTCAGCGCGACGAACTGATCGCCCTCGGGCGTCAGCGCGCGCGCGGCGCCGCCGACGTCCTGAACATAGACGCGGGGTTCATGGCCGCGCTCGTTCGCCGTATAGACGATGCGCTTGCTGTCCGGGAACCAGGCCGCGATGCCGCGGTTGAACTCGAGACCGTTCTCCACGTGAACGGGAGCGCCGGCGCGCAGCGGCACCAGCCAGAAGCCGGTTGCGTTCGGTGTCAGATCGTCGGTCGAGAGCAGCGACTTGCCGTCGGGCGAGAGCGCATGGCCGGTCCACCGCGCGCCAATGCGGACGGCTGGCGAGCCATCGCTCTTGCGGATGTAGGTCGCGGTCTCGCCCGCCGAACCCTCGCCCGATTCGTCGATCGCGAGCGTGCGCCCATCCGCCGAGAGCGCATCGAGACTGGACCAGTCGAGCCACGAGAGGTCGCGGGAAGCATCGTCGCCGGGTCCCAGATACTCGACGGACATGCGAACGTCGTCCCGGCTCATCAAGAGACTGCCATCGCGGCCGACGTCGTGCAGCTTCACCGCCCCCGGCGCACGGAAGATGAGCCGCT!
 CCTTGCCGCCGAGCGTGACGGCGTAGACTGCGCGCTGTCCGCCGTTCTTCGCACCTGTGAACCAGACCTCGTCCCCATCGGGCGACCAGGCGATGCCTTGCAGGCTGTTGAACTTGCTCGAGAGCGTCTTCTTTTCGCCCTGGAGATTGACCACGGCCACGCTGCCGTCGTCGCCATAATAATAATGGTCGGCGAACGCGATGCGATCGCCTTTGGGCGAGATGCGGACTTCACCCGGCCAGGCTGAGCCCGGCGCCGTGAACAGACGCGTGCCGACCGGATATTCGATGCGCCGCGGCTTAGCGTAAGTCGAGACGGCCATCTGGGTTCCGTCGGGGCTCCAGTCGGCGTAGGCGACTTCGTCGAGCAATTCGCGCGGCGCTCCGCCGTTGAGCGGCGCTTGCGCCAACGTTCCGACCGTTAGAAATGCCCCTTGAAACCGGCATGCAACCAGCAGCGCCAGCTCGCCACTCTTCGAGACGCCC
AGCAGACCCGTAGACTTCAGTTCGAGCGGCCGGCTCTCGGGACTTCCGGGCTGCACCGAATACAACTCGACCGGCTGTCCGTTCCACGCCGCGGCGTACACCACGGTGCGCCCGTCCGGACCGAATCGCGCGCTTTGCACGATGCCGCGCCGGAAGGTGAGCCGCTGAAATGCGGGTTGGATCGACGGCTTCGCGATCGCCCACCAAACCGCGGCGGCTGCGATCGCCGAAGCCGCCACTGCGATCGCCCATGCCGGCATGCGAATGCGGCGTTTCGGCAATGTGCGGCGAAAGCTGCTCACCGTCCCCAAGGCGGTCGCTGATTCCAGATCGAAGGCCAAGTCCTTGCACGTCTGGAAGCGGTCGTCGGCATTCTTCTCGAGGCAGTGGCGAATGGTCCGCAGGTGCGCCGTCGGGATCGCGGCCTCGTCCTCGGGCGAGATCGCCGGATCGCTGTTCAGGATCGCGCTCATCGTGTCGGCGGCGGTGGGAGCGGCGAACGCCTTCTCGCCGGTCAGCATCTCGAGGAGCACCGCGCCGAAACTGAAGATGTCGGACCGGTGGTCGACGGTCTGGCCGCGCACCTGTTCGGGCGACATATAGGATACAGTGCCGAGGACCGTGCCCGCGCTGGTGTGAAGCGTGCGGGTGGCGTCGGTGACGACCTCGCCCGGCGTCACCTTGGCCAAACCGAAGTCGAGGATCTTGACGCGGCCATCGCGCGTGAGGAAGAGATTATCCGGCTTGATGTCGCGATGGACGATGCCGCGTGCGTGCGCCGCCGCGAGGCCCGAGGCGATCTGCCGCGCGAGCTCGACAGCGCGCGTGGTGGGGATTTTGCCGAGCGTCAGCCGGGCGCGCAGCGATTCGCCGTCGAGCAGCTCGGACACGAGGTAGGGCACGCCGTTCTCGGTCCCGATATCGTGGACCACGAGAATGTTGGAATGGTTGAGCCCGCCGGCGGCTTTGGCTTCGATTTCGAAGCGGCG!
 GAGACG
ATCGCCGTCGCGCGCCAACGATTCCGGCAGAACCTTAATGGCGACCGACCGCGCCAGCCGCGGGTCGTTGGCCTTGTAGACCTCGCCCATGCCACCCGCGCCGAGGGGCGCAACGACTTCATAGGGACCGAGTTTGTCGCCGGCGGAAAGTGGCATAGGCGTGATCCAGCCTAGTTTACTCGATCAGAAAGGACCTTATGGCCTGGATTACGCGCTACTCGGACGGAGGGGAATGGAAGCACTCAAGTCGGCCCAGCTGCGGCTACCGATAATACGAATTAACGCCTTCGGTACAAGGCCCCACTGTCCGAGTGGACCAACCGCCCACGATGCCGCAAGGACGGTGCTTCCCGCTACGGATTTGTTCAACCGGCTCAACTCACTTCTTCAGACCCGCATTCCAGTCGATCACCACCGTCATCGGCCTGCCCGGCGTCCACTGTGGCGTCACAAGAAGGAAACGGCCATCCCGGGAGACATCGTACGGAATTCCGTTGTGCACATCCGAAAGCTCGGCCAGTCGCGTGCCGAAGAGCGCCTTCGGGACGCCTGCCTGAAATCTCCGTCCGGCCGTTTTCACCTCCGCTGCCATCATCTTGCTGTCCGCGCTGACGAAGAACAATTCCTTACCGTCCCGGCTCCAGACCGGAAAGTCTCCGCCGCCGCTGGAAACCTGAAACCTCTCCGACGGACTGGGAAACGATTGCACGTAGACTTCGAACCGGCCGGTATCGTCGGAGGCGTAGGCCACCCAATGGACGTCCGGTGAGAATTTGCCCTCGCGCTCGTCGAACTCTGTCTGCAAATACGCAAAAGCCTTGCGATCCCCGAATAGCGGCGTAACCCATAGGTCTCTTCGCGTCTTCGGGTTCAAGATTTCCCCGATCATATAGCGCCCGTCGCTTGACCAGTCCCAAACCCATCCGGCAGCCACTTTCTGGTCCTGGCTTCCGCCGAGAGATTTTTGATACGCATTGGACTGGGCAAAT!
 CCACGGGAAGAGTAGGCGACGTTGCTGCCATCCGGCGACCAAACCGGGCGCCAATAATACCCGG
ATGTAAACCTGGAGTCGCTCCCGCGCCTTAAGTCATGCAACCAGATGTCGCTGCCCACGGATTCGTCCATCATGTCGAACGCTACCCTTGAGCCGTCCGGCGAGATAGCCAGCGTGTTGATTATGCCGGCTGGCCCAAACGCAGCCAGCATCTTGCCAGAGCGGTCGAACCAGGTGAGTTGCTCCAGGCCGATCGCGCCTGACGTGTATGCCAGGACGCCGTTTTGTGAAACACCCCACCGGGTCCATCCCTGCATGTTGTCCAGTTGTCCCGCGACTGAGACTGGGTCGCCCGTTGTCTCTAGCTGCCCTGGATCAAAGGGCTGTGCCATCAGCGTGCCGCCTCGAAGGTACAGAAGATGCCCCTGGGCGTAAGTGAAGCTGGCCAGACCCGATGCTAGAATCCGCCTCCTATTCCTGGCCTGATCTTTGGACTCGATATCGCAAGCATAGATCGCGCTGTCCTCCGCCTTTTTGCCGGTGATCGCAATAAGGAAGTGCCGGCCGTCCGGCAGGAACCATGGGTTGGTGTGCCAGACCTCGGTTACGGGATCGAGCGCCGCTACGACCGAAGGTATGCCGCCGCTCGCACGTACGCGCCAAGTCCCTTTCGGGTCTGTAAAGACGATTGTGTCGTTCGCACCCCAAGAAGCGCCCCCGAATCCGTTGGGAAGATCACAAATAGTTCGCGCTCGTCCACTCGCGAGGTCAACTCTTTTGAGCGTCCGGTTGGGAGCCATGAATGCAATTGAACGACTGTCTGGCGACCAGGCTAAGGTTGTTGCTTCCTCTGTTTCAGGCAAAGGCCGGGCGCCGGCCGAATCCAGTTCGCGCACCCAAATTCCGCTCTTTCCCTCCACCACAGCCCCGAACGCAACCGAGCGGCCGTCCGGCGAAACGGCGGGAGGGGCGTTCCAGTAGAGCGTTCCGTTTTGCGGAAGCGGCAGCTGTAATGTTACCCGACGCGGCGCTGCGGGACGATGCAGCACA!
 TCCACA
CCTAGCGCGATCGCCACCAGCCCAGCGATCGCCCAGGGCAGTAACTTCGCTATCGGCGAGCGCACAGCCGTGGCTGGGACTTCCTCCAAAAGACGCCATGCATCCCCGATGTCCCGCAACCGCCGCTGCGGATCCTTCTCCAGGCAGGCCCCCAGCAGCCGGCGCACCTTCAGCGGCACCCGGCTCAGATCCGGCGACTCCTTCACCACTGATGCCAGAATTTCCGTCAGGTCGTCGCCATGGAAGGGTCTCTCACCCACCAGCAGCTCATAGAGGACCACGCCGAACGCCCAGATGTCCGCTCGCTTATCGACGTTTTTTCCACGTGCCTGTTCCGGGCTCATGTACGCCGCTGTGCCGAGAATCGCACCCGCTTGCGTCGCGGTGTTCGTTAACGTGGGTGAGTTTTCGGAGTTGTAAGACGTGCCGTCGCTCTGGATTCTCTTCGCCAATCCGAAATCGAGAACCTTGACCTTGCCCTCAGGCGTGATCTTGATGTTCGCCGGCTTCAGGTCGCGATGAACGATGCCTTTTTCATGCGCAGCCTCCAGCGCATCGGCAATCTGCCGCGCATAATCCAGCGCCTTCTCAAGCGACAACGGACCTTTCGGCGATTCGCCTTCGACCAACTCCATTACAAGATAATTCGGGCCAACGTCGTAGAGGTGGCAAATGTTGGGATGGTTCAGCGCCGCAACAGCACGTGCTTCACGCTCGAAGCGGTCGGAAAATCGTTCCTGCGAAACCTTGATGGCGACCTCGCGATTGAGCCGTGTGTCGAGAGCGCGATGCACCTCGCCCATGCCGCCGGCGCCGAGGGGGGCGAGGATTTCGTAAGGGCCGAGCTTGTTGCCTGGCGAAAGCGGCATACGCCTGATCCAGTTAAGTGTACTCGATCAGACGGTGGTTTAATCCCGTATCCGCACCACTCGGAAACTGCGAGGCCCCGTGCTTTTCCTCCGGAGCCGGCCTTGCAGGAAAACTTGACC!
 GGGCCGGAAGGCTACCGATAACCCTACCTAACGCCGCCTTTTGCGCGCAACTCGTGCCGGCACA
TCATTAGGTGAGCGGACCTACCGAACGATAACTTCGAACTCGAAGTATCCCTCATGCTTCTGGAAGGCGGTGCCAGAGCGGTCGTTGACCGAGAAATAGGTTCTTCCTCCCGTGGTCTTGCTGACTAATGCGCCGACTCCTTTACCTGGCGCGACGAAGTCGGCGGCTGCCGGCTTACCGGTCCCTTGGGGACCGCTGCAACTATCCGGGCCCAAACATACCGTTCCGGACGGCGCGCGGATGATTACACGTGCCTCAGCGGGATTGGCAATGCTGGCTCCCCACTCCGATTGGCTCGGCAGAACAATGTGATATTGCTTGTCTCCTCTCTCCTCTACGATCTCCCGCTCCGGTGTGCATCTGCTTCGATTGGGCATGCACGCGAACTTGGCAAAATATACGGTCGAGTCCACGCTGAACAGGCCCGACGATACGTCGGTTCGCTCAATCGTGACGGCAACCGAAAAGAAGCCCGTGTTGTTGTTCCACTCGAAGCCGTCCATAGTGCCCAGAAAGAGTCGGCTGGCGCCTTTCGGAACCATAAATCGTTGGGGAATGCCAGCGCGAGTGGCGCCGCTCCCCAGGAAAAAGACTTGTTTTAATTGTGGTGAGATTGAGAGGAACTGTGTACCGATCTGACCAAAGTTTAGGGCCCTGGGGGCACGGCTTCGGTCCGGCCGATCATCCCCAAGAAACACGCCAAGCAACGAATTCATGGGTGCAGCGACATCGGAGATTCCGTGCTCGGCGCCGTTCTGATGACGTGCGATTGCTGAACCCTTAGGTGGATCGCACGTGGGAGGACAGCCCGGAAGGTGATTGATCGCACCCGAAGCAGTGACGATGACCGCCGCCGCATTGGTGAGCGAAAGTTCGACGAGCACAGGCGACTGCTCCGGCGCCTTGTCACCGTACGTCGACTTCGTTCCAGCCGGCATCCCCGCCAGATAGGGATTTGACGTGGCCGGAACTCGGACCACCACCGATGC!
 TGCAGG
CTGCTGTCCGCCCAGCAGCGCTACCCCGACGTGGGCCAACCTGAGAACCCGGAGCACACTCGCAACCATCTTCAAGCATGATCCTACACTTTTTGCTGGATTTCGGTAGCTCGTGCCGCCCCACTGTGAGCTGCCGGCTGGCGGTGTCGCCGATCGTTCCGGCCCGGACCTCGAATCCTGCGAGAAGAGACATCAGCGGCAATTCGTAGCTGCCGATAATGGATATTAACGCTCGGGCTTGCGCCTTCGCGGCGCCCCATCTTCCGAGCGCTGGCGATGCGACCAACGCAAACGGGATGCTTCCCAGAACGCCGTTTGATCGGCATAGGGGCGGCGGTCACCCGCCGACCCCTGCCACACCACCGTGCGTACGGGTCCGTACACGGCGGTTCGAGATGGTTACGCTAACAGTCCTCGAACAATGACGGAAGTCCCAGCGATTTGAAGTAAGCATTTGAAAGCCCAACAGCCAGGGCCTTGGCCTTCGCGAGGTACCAAGGACCGCGACCGCTGCCAGCGGTATTAGTCGCCAGCCGCTCTCGCACCCCCAGTTCCAACAGAGCTGCCCGGCGACGGCGCGGTGTTTTCCACTGCCGCCACATGGCCGCCCGGAGTCGCAACCGGACCCAGCGCGTTAAACCGATCAGCACCTCGGGCGTTTCGCAGAATCCGAAATAGCTGCGCCAACCCCGCATATACGGAGCCAGTTCCTCCATCGTCGTCTTCATGCTAACGCCCTTTGCCCGTCCCGTGATCTCCCGGATTCGTCGCTTAAACCGATCCAAGGCCTTCGGTGCAATCACGCGCTTGGCCTCCGGACCAGCCGTAAAGCTGAACCCGAGAAACTTCCGTTCCTGCGGTCGTGCCACCGCACTCTTCGTCTCATTTACCTTGAGCTTGAGCTTTTGCGTGATGAATTGCGTAATGCTCTCCATCACTCGTTGCCCCGCCCGCTCGCTGCGAACGTAGATATTACAGTCGTCCGCATA!
 TCGAACGAAGCGATGACCCCGGCGCTCCAACTCCCGGTCGAATTCGTCGAGCACGAGGTTACTG
AGCAGTGGCGAAAGAGGACCTCCTTGCGGAGTTCCTTCCACGCTCGGGCTGACCAACCCGTTCTCCATCACCCCGGCATTCAAGAATGCCCGGATGAGTTTCAGCAGCCGCTTGTCCGCGATCCGTTTGGCGATCTGACCCATCAATTTGTCGTGATTGACTCGATCGAAGAATTTCTCCAAATCAAGATCAACGCACCAGCCGTGACCTTCGGCAATATACTGCTGCGCCTGTGCCACCGCTTGCTGAGCCGACCGTCCCGGCCGGAACCCGTAGCTGTAATCAGAAAACGTCCGGTCCCACCGCCTCTGCAGAACCTGCATCACCGCCTGCTGGATAAATCGATCCAACACCGTTGGGATACCAAGCTTTCGCACCCCTCCGTCCGGTTTGGCAATCTCTACCCGCCTCACCGGTTTCGGCTCGTAAGTCCCACTCAACAGTTGTCCCCGGATGGCTGGCCAGTGCTGCTTCAGGTAATCCTTGATGCCGATGACGGTCATCCCGTCAACGCCCGGACTACCTTTGTTGGCCTTCACCCGCTGCAATGCTGCCTTCAGGTTTTCTCGCTCACATACTTCCTCCATCAATCGATTCGTGCTGGCTGGGTTTTCGGTCCCATTCATCGCCCCGGCCGATTCAGTCTCTTCCCTTCCCGCCTCTCGGGCTTCACCCGTTAGCACAGAAGAGAAGTCCAGTTGCATCTGGATGTTCTGCTGCTTGTCGTCCTTGAGACTCATGGCCTACTGGCCGCTCCTTCTCGTTCGGGCCTTCAGCCATCGTTCCCGGCTTGGCCTATCCGTTGCTCCGCCTTTCGGCATGCGGAGTGCCTCACTAGCCTTGCCGACGTCATGACCTAATATGCCCTCTGCTGACTTCTGCCCCGCGGTCAAGCCGCCTTTCGACAGCCTCAGTCGCCGAAGCGACACGGAGCAGATCTCCTGGGGTAAGTTCAGCCGTCTTCTGTGCACAGCCGCCGAATCTACGCT!
 TCGCAC
CCTTGATGGATATGGACTTCGCGGTAAGTTGCCCGCTCGTCCGGCGCTAACGCCTTGTATCAGGTTTTTGTCCATCGACTCGCACATTTGCTATACGCTTCTTTCAGACCCCACCTCGCGGCGGTAGCCCTTGCGTTCTCGCTAGCCCTTCACCTCCATCAGGTTGGGCAGGGGACTTGCACCCCCAAACTGCTGAACATGCCCAGCACACAACTAAGCCGCTCGCGCGGCGGACGCTACGCGTCAGGCCGGGGCTAGCGCCCATTCTTTGGTGGGAGTATTTTGTGGGTCACAAGGAGGTCCCTGTGACCCAACTTCGCAAAATGGTGCTCGAGGAACTCGAGCGCCGTAATTACTCTCAAGCTACCGCACGTGCCTACGTCGGCGCCATCCAGCGGTTCGCCGAACATTTCCATCGCTCGCCCGATCAACTTGGCCCCGAGCACATCCGCGAATATCAACTGCACCTCGTGCAGGACCGCAAACTGCATCCCAGGACCGTCATGATCCAGATGTCCGCGCTCCGCTTCTTCTTCCGCAAGGTCCTGAAGCGGCGCTTTGATCGCGACGACCTGCCCTTGCCGAAACTTCTGCGCCGACAGATCCCCATGGTATTGAGCCGCGACGAAGTGGCACGACTCATCGCCGCGGCTGGCAACCTGCGTCATCGCACCATCCTGATGGCGCTCTACGCCACCGGCATGCGGCGCGCCGAGCTCTGTCACTTGCGGATCGAGGACATCGACAAAGAACGCATGGTCCTCCACATCCGCCAGGGCAAGGGCGGCAAGGACCGCGAGGTCCCACTCCCGCCGAAACTGCTCGCGCAACTTCGCATCCACTATCGCGCCCTGCCGCACCGGTCGGCGTGGGTCTTCCCCAGTCTGCAATCCCGACGCCCCGATCAGCCGATGACGGAAAAGGCCGTCTGGCACGCCTGCCGCCAAGCCGCCCGGCGGGCCGGCATCACCAAGTCCGTCCATCCGCAC!
 ACGCTCCGCCACTATGCCGCGTCCCGGACTATGCCGCGAGGATCAGAACGAAGTGGTTCGAGGC
CCTCAGAATATGAGGTCTGGTTGGACACCATCATTCGCCACGCGGCATAGTCCGGACGCTTGGGATTAGAGTTGTTTGAGGAAAGCCAGCACTCGTCGTCCGGTTGAAAGCGTTTGGGAGCCCCTTTGACTGGATTGGTCTTGGCCAAGGCCTCTTCTTTCAACGCAAGGTCGGCGTCGAGGTAGATCTGGGTGGTTTCGACGGACTCATGGCCGAGCCAAAGGGCGATCACGGCTCGGTCCACGCCACCCTGTAGCAACTCCATGGCTGCGGCGTGCCGAAGCACGTGTGGCGAAACCCGTTTCTTGCGCAGCGATGCGCAGTGTTTCCGCGCCTGCGCCACGTGGCGTGCGAGCAAATGCTGAACACCATCGGCACTCAAGGGTCCGCCGCGGGTACTGGGAAACAGCGTCTTGGAATCTCCTCTCCCTTGCTCCCGAATCCAAGCTTTCAAGACCGCGGCTGTGGGCTTGGCCAAAGGCGTACAGCGTTCCTTGCGTCCTTTTCCCCGGCAACGCACATGTGCGCCGGCTCCGAGCGAGACATCCTCCTGGCGCAACCCGGTCATTTCGGATAATCGTAGGCCGGTCTGAACGGCGGTGAGCAGAAAGGCATGGTCACGACGTCCCAGCCACTGCGTGCGATTCGGCGCCGCCAGCAGCGCCTCGATCTCGGGCCGGGTCAGAAAGCCCACCAATGCGCGCCGCTGTCGTTGGTTCGGAATCGCCAGCACTCGTTGGATGATTCCACTATGCGCCGGCGCTTCCAGTGATGCATAGCGGAAAAACGATCGGATGGCCGTCAAACGCAGGTTCCGACTTCTGGCGCCATTGTGACGGCGGTTCTCCAGGTCTTCCAGGAACGCCCCGACGAGAGAGGCATCCAGATCGTCCAGTCCCAACTGAGAGGGGGCTTTGCGCAGCCGCTTTTGAGCGAACTGCAACAGCAGGCGGAACGTATCGCGATACGAGGCGATGGTATGGGGGCTG!
 ACTTTC
CGCTGCGCCATCAAACGCGTGGTGAAGAAAGACTGCAGCAAGGCAGCAAGATTAGCGGGATCCCGCATTCAAGGCCTCCCACCGTTTCTCCAGCCGCTTATTGGCCGCTCCCAACAGTTCGGGAGTGCCGGTCAGATACCAATAGGTATCGGTTACGTGGGCATGCCCGAGATAGGTGGACAAGATGGGTAAGCGCCGCTTGGGGTCTTCGCCGTTGCGATACCAGCGCAACAGAGTCTCGACCGCAAATCGGTGTCGAAAATCGTGCAGCCGCGGGCCGCGGCTGGCGTCCACAGCACGCAATCCAATCTGTCGGGACAGCAGGTAAAACGCCCGGTGGACCTCGCCTTTGTCCAGCCGGTTACCGTTCAGGTTGACCAGGAAATACCCCTCTGCTCGCGCGCCGAAGCGCTCATCCCGGCGCTTCGCGTAGTCGGCCAGGACTTTACAAGTCGAGGTATGCAGCGGAACCAGACGGGACTTTCCGAACTTGGCCCCTCGAATCGTGAGAATGCCTTCCGACCAATCCATATCCCCAAGTCGAAGGCCGAGCGCCTCGCCCAACCGCAGGCCTGTGACTGCCAGCAAGCCGAAAAGGCAGTGGTAGGTGCAGGGCCGCAGAGGGTCGATAGAAGGTCGCGTTTTAGCAGCCCTCAGCAGTTTCCGGATTTCGTGATCGGAATAGAAATATGGTTGAGCGCGTGCGGGACGATAGGGCAGCAGCCCCAGCGGTGGAACTTCGGTCAACGGATCCGTGGCGCTCCAGTAACGGGCGAAGCCACGCACAACGCAGAGTCGCGCCGTCCATTCAGCCGGCTGCTGTTGGGCATGCTGGGTCGCCCGCTCCAATGCCAAGGCAACGGTGATGTGAGAACTGCGTTTTCGCGCCAGGAAGGACGCGAACTCCTTCAGCCCAGCCTCATGCCGAACCAGCTTGAACCCCAGGCCACGACGCAAAGCCAGGTAGTCACGGATACCTTTGGCCAGCG!
 GATTCATCGGCCACCTCCCGGCCACGGCAACGCCAAGGTGTGCAAGGCGGTGACGTCTACTTTG
GCGTAGATCGCCGTCGTGTTGGGGCTCTGGTGCCGCAGCAGTTCGCCAATCTCATCCAGCGAGCCACCCTGCCGAAGTAAGCTCGTGGCTAGCGAATGTCGAAGCACATGGGCGCCGGTGTGCGCCGACTCTACGCCGGCATGTTTCAGAGCGCGCCTGACCAGCGAGGAAATCGTCGATGAGTTCCCAAAGCCGACTAACGGCGCCCGGTGGCGAAGGAACACTCTGCGAGTAGCCGAACGTGGGCGGTCATGACGCAAATAGTCGGCAAGAGCGGAGCCTACGTCGTTGACCAGCGGTAGTTGGGCCGATTTCCCGCCCTTTCCGCGAATCGTGATCTGGCCCGTGCTCCAGTCAATATCGTCCAAGCTCAGACCGACGACTTCGCCGGCGCGTACGCCGAGCCTGGCGAGCAGCAACAAGATGGTATGGTTCCGCCTGCCAACGGACGTCGTTCGATCGCAGCACTCCAGAATACGTTCCACCGCGGCAGCCGGCAAGAACCTTGGAAGCGTGGAAAGCGACCAGTTGGGGACCGTGGGGACACAAGCAGCAAGATCGGTAGCGATTACGCCGCGGTGCCGCAGATAACGAAAGAACGACCGAAGCGCCGTTACCATCAGCCCGGCCCGCACAGGACTTAACTGACGTGCGTGACGCAGAACAAATCCGGTGACGTGGGTTGCCCGTATCATGGCGAAGCTCGGAACCGCGTTGTGAAATCGCTCGGCCAGGAACTGCTCCGCGACGGGCACGTAGTGGAGCAGCGTGGATGGGGACAGGCCGCGTTCCTGCAACAGGTAGCACCGGAACTCGTTGGTGATCCTCGTCCGGGCGTTGTCTGCGACCGGTTGCTGGTGTTGTTTCACAACGCCTTTTTGGCCAAGCATCGCCAGCAGTCGCACCAGCGTTTTTGGCTCGCCTCTGCGGATCCGCTGCTGCCGACGGCGAAGTCGCAGGTACCGATCCACAATCTGGCTGTTCAGCGC!
 CTGGAC
ATCGATGTGTTTCTGTGCCAGCCAGCGGCTGAAATCGGCAATTACTACGATCTGCTGTCTGATCGAGTCGTGAGTATAGCCCTGTTCGGCAACAGCGGCCGCATAGGCATCGAGGTGTTCATTCAAAGGCCCCTGGCGCAGCCGTTCAATCGTGCTTGAGAAGGTGAAGAGTTGGTTTATCACTCTCCCAGAGTGCCAAGCACGCGCCCAAAACTATGCCGCGTCGCAGCTGTTTAAATGCCCATGAATCGCGGCTCGCACGCCAACACGCGGCATAGTCCGGGACGCGGCATAGTGCCTGCTATGCCGCATGCGGCATAGCAGGCACTGCTTCGCCAGTCACCTGCTCGAAGCCGGCACCGATTTGCGCACGATCCAGATGTTGCTGGGCCATGCCAACCTCGAACACACCGCGGTGTACCTGCATCTCTCGCGGAAGCACCTCACCGCCGTGGCCAACCCGCTAGACACGATCGCCGTGTCCAGCCCGGATAACATCAAGCTCTCCCGGAAGAAGCAG 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 ACGTATTCGTCAACGCCGGGCGTACCGCTCGTGGTAGTTCCCGCTGATGACATTCTGCTGCCGCCCAATGTGACTGTAGGCCCGGGGCAGTGTGTACCATTGCCATTGAGCTTGACATCGCCTTCGGGGCCGATTGGCACGTTCATCACCCTCACGAGCAGCGATCCTTCAAAGGTCACGTTGGGACCGGGGAACCTGAGTTCTGAAACAGTTTTCATTCCCGCTGGTGCGATTACCGGTGCAAGAACGCCTCTCGTATGTGGGGTCAACTTCGGGACGGCAACCATCTCCGCCACTGGTGGCGGTCTGCCGTCAGCTAACCAGACTGTACTGGTGAGCGCGACACTCAGCTTCTCACCGTCTAATAGTGCCATTACGAGAGGGAAGCAGGACCGGCTGACGTTGAGTCTCTCGGCGCCCGCACCAGTCGGTGGCGTGACCGTGAGTCTCAATTCCGACCAGCCAAGTGTCGCCACTGTCCCGTCCTCAGTGACGATCTTGGCTGGCACATCCAGCGTGATTGTTCCGATAACTGGTATTGCCGTGGGCTCGACAGTG 
 >PredictedProphage1 -Hit 2 
 GGTGGCATGGGCGAGGTCTACAAGGCCAACGACCCGCGGCTGGCGCGGTCGGTCGCCATTAAGGTTCTGCCGGAATCGTTGGCGCGCGACGGCGATCGTCTCCGCCGCTTCGAAATCGAAGCCAAAGCCGCCGGCGGGCTCAACCATTCCAACATTCTCGTGGTCCACGATATCGGGACCGAGAACGGCGTGCCCTACCTCGTGTCCGAGCTGCTCGACGGCGAATCGCTGCGCGCCCGGCTGACGCTCGGCAAAATCCCCACCACGCGCGCTGTCGAGCTCGCGCGGCAGATCGCCTCGGGCCTCGCGGCGGCGCACGCACGCGGCATCGTCCATCGCGACATCAAGCCGGATAATCTCTTCCTCACGCGCGATGGCCGCGTCAAGATCCTCGACTTCGGTTTGGCCAAGGTGACGCCGGGCGAGGTCGTCACCGACGCCACCCGCACGCTTCACACCAGCGCGGGCACGGTCCTCGGCACTGTATCCTATATGTCGCCCGAACAGGTGCGCGGCCAGACCGTCGACCACCGGTCCGACATCTTCAGTTTCGGCGCGGTGCTCCTCGAGATGCTGACCGGCGAGAAGGCGTTCGCCGCTCCCACCGCCGCCGACACGATGAGCGCGATCCTGAACAGCGATCCGGCGATCTCGCCCGAGGACGAGGCCGCGATCCCGACGGCGCACCTGCGGACCATTCGCCACTGCCTCGAGAAGAATGCCGACGACCGCTTCCAGACGTGCAAGGACTTGGCCTTCGATCTGGAATCA 
 >PredictedProphage1 -Hit 3 
 GGCGGCATGGGCGAGGTGCATCGCGCTCTCGACACACGGCTCAATCGCGAGGTCGCCATCAAGGTTTCGCAGGAACGATTTTCCGACCGCTTCGAGCGTGAAGCACGTGCTGTTGCGGCGCTGAACCATCCCAACATTTGCCACCTCTACGACGTTGGCCCGAATTATCTTGTAATGGAGTTGGTCGAAGGCGAATCGCCGAAAGGTCCGTTGTCGCTTGAGAAGGCGCTGGATTATGCGCGGCAGATTGCCGATGCGCTGGAGGCTGCGCATGAAAAAGGCATCGTTCATCGCGACCTGAAGCCGGCGAACATCAAGATCACGCCTGAGGGCAAGGTCAAGGTTCTCGATTTCGGATTGGCGAAGAGAATCCAGAGCGACGGCACGTCTTACAACTCCGAAAACTCACCCACGTTAACGAACACCGCGACGCAAGCGGGTGCGATTCTCGGCACAGCGGCGTACATGAGCCCGGAACAGGCACGTGGAAAAAACGTCGATAAGCGAGCGGACATCTGGGCGTTCGGCGTGGTCCTCTATGAGCTGCTGGTGGGTGAGAGACCCTTCCATGGCGACGACCTGACGGAAATTCTGGCATCAGTGGTGAAGGAGTCGCCGGATCTGAGCCGGGTGCCGCTGAAGGTGCGCCGGCTGCTGGGGGCCTGCCTGGAGAAGGATCCGCAGCGGCGGTTGCGGGACATCGGGGAT 
 >PredictedProphage1 -Hit 4 
 TTGATGGAGGAAGTATGTGAGCGAGAAAACCTGAAGGCAGCATTGCAGCGGGTGAAGGCCAACAAAGGTAGTCCGGGCGTTGACGGGATGACCGTCATCGGCATCAAGGATTACCTGAAGCAGCACTGGCCAGCCATCCGGGGACAACTGTTGAGTGGGACTTACGAGCCGAAACCGGTGAGGCGGGTAGAGATTGCCAAACCGGACGGAGGGGTGCGAAAGCTTGGTATCCCAACGGTGTTGGATCGATTTATCCAGCAGGCGGTGATGCAGGTTCTGCAGAGGCGGTGGGACCGGACGTTTTCTGATTACAGCTACGGGTTCCGGCCGGGACGGTCGGCTCAGCAAGCGGTGGCACAGGCGCAGCAGTATATTGCCGAAGGTCACGGCTGGTGCGTTGATCTTGATTTGGAGAAATTCTTCGATCGAGTCAATCACGACAAATTGATGGGTCAGATCGCCAAACGGATCGCGGACAAGCGGCTGCTGAAACTCATCCGGGCATTCTTGAATGCCGGGGTGATGGAGAACGGGTTGGTCAGCCCGAGCGTGGAAGGAACTCCGCAAGGAGGTCCTCTTTCGCCACTGCTCAGTAACCTCGTGCTCGACGAATTCGACCGGGAGTTGGAGCGCCGGGGTCATCGCTTCGTTCGATATGCGGACGACTGTAATATCTACGTTCGCAGCGAGCGGGCGGGGCAACGAGTGATGGAGAGCATTACGCAATTCATCACGCAAAAGCTCAAGCTCAAGGTAAATGAGACGAAGAGTGCGGTGGCACGACCGCAGGAACGGAAGTTTCTCGGGTTCAGCTTTACGGCTGGTCCGGAGGCCAAGCGCGTGATTGCACCGAAGGCCTTGGATCGGTTTAAGCGACGAATCCGGGAGATCACGGGACGGGCAAAGGGCGTTAGCATGAAGACGACGATGGAGGAACTGGCTCCGTATATGCGGGGTTGGCGCAGCTATTTCGGATTCTGCGAAACG 
 >PredictedProphage1 -Hit 5 
 GTGACCCAACTTCGCAAAATGGTGCTCGAGGAACTCGAGCGCCGTAATTACTCTCAAGCTACCGCACGTGCCTACGTCGGCGCCATCCAGCGGTTCGCCGAACATTTCCATCGCTCGCCCGATCAACTTGGCCCCGAGCACATCCGCGAATATCAACTGCACCTCGTGCAGGACCGCAAACTGCATCCCAGGACCGTCATGATCCAGATGTCCGCGCTCCGCTTCTTCTTCCGCAAGGTCCTGAAGCGGCGCTTTGATCGCGACGACCTGCCCTTGCCGAAACTTCTGCGCCGACAGATCCCCATGGTATTGAGCCGCGACGAAGTGGCACGACTCATCGCCGCGGCTGGCAACCTGCGTCATCGCACCATCCTGATGGCGCTCTACGCCACCGGCATGCGGCGCGCCGAGCTCTGTCACTTGCGGATCGAGGACATCGACAAAGAACGCATGGTCCTCCACATCCGCCAGGGCAAGGGCGGCAAGGACCGCGAGGTCCCACTCCCGCCGAAACTGCTCGCGCAACTTCGCATCCACTATCGCGCCCTGCCGCACCGGTCGGCGTGGGTCTTCCCCAGTCTGCAATCCCGACGCCCCGATCAGCCGATGACGGAAAAGGCCGTCTGGCACGCCTGCCGCCAAGCCGCCCGGCGGGCCGGCATCACCAAGTCCGTCCATCCGCACACGCTCCGCCACTATGCCGCGTCCCGG 
 >PredictedProphage1 -Hit 6 
 AACCTGCGTTTGACGGCCATCCGATCGTTTTTCCGCTATGCATCACTGGAAGCGCCGGCGCATAGTGGAATCATCCAACGAGTGCTGGCGATTCCGAACCAACGACAGCGGCGCGCATTGGTGGGCTTTCTGACCCGGCCCGAGATCGAGGCGCTGCTGGCGGCGCCGAATCGCACGCAGTGGCTGGGACGTCGTGACCATGCCTTTCTGCTCACCGCCGTTCAGACCGGCCTACGATTATCCGAAATGACCGGGTTGCGCCAGGAGGATGTCTCGCTCGGAGCCGGCGCACATGTGCGTTGCCGGGGAAAAGGACGCAAGGAACGCTGTACGCCTTTGGCCAAGCCCACAGCCGCGGTCTTGAAAGCTTGGATTCGGGAGCAAGGGAGAGGAGATTCCAAGACGCTGTTTCCCAGTACCCGCGGCGGACCCTTGAGTGCCGATGGTGTTCAGCATTTGCTCGCACGCCACGTGGCGCAGGCGCGGAAACACTGCGCATCGCTGCGCAAGAAACGGGTTTCGCCACACGTGCTTCGGCACGCCGCAGCCATGGAGTTGCTACAGGGTGGCGTGGACCGAGCCGTGATCGCCCTTTGGCTCGGCCATGAGTCC 
 >PredictedProphage1 -Hit 7 
 TTAAGTCCTGTGCGGGCCGGGCTGATGGTAACGGCGCTTCGGTCGTTCTTTCGTTATCTGCGGCACCGCGGCGTAATCGCTACCGATCTTGCTGCTTGTGTCCCCACGGTCCCCAACTGGTCGCTTTCCACGCTTCCAAGGTTCTTGCCGGCTGCCGCGGTGGAACGTATTCTGGAGTGCTGCGATCGAACGACGTCCGTTGGCAGGCGGAACCATACCATCTTGTTGCTGCTCGCCAGGCTCGGCGTACGCGCCGGCGAAGTCGTCGGTCTGAGCTTGGACGATATTGACTGGAGCACGGGCCAGATCACGATTCGCGGAAAGGGCGGGAAATCGGCCCAACTACCGCTGGTCAACGACGTAGGCTCCGCTCTTGCCGACTATTTGCGTCATGACCGCCCACGTTCGGCTACTCGCAGAGTGTTCCTTCGCCACCGGGCGCCGTTAGTCGGCTTTGGGAACTCATCGACGATTTCCTCGCTGGTCAGGCGCGCTCTGAAACATGCCGGCGTAGAGTCGGCGCACACCGGCGCCCATGTGCTTCGACATTCGCTAGCCACGAGCTTACTTCGGCAGGGTGGCTCG 
 >PredictedProphage1 -Hit 8 
 CGCATGCGGCATAGCAGGCACTGCTTCGCCAGTCACCTGCTCGAAGCCGGCACCGATTTGCGCACGATCCAGATGTTGCTGGGCCATGCCAACCTCGAACACACCGCGGTGTACCTGCATCTCTCGCGGAAGCACCTCACCGCCGTGGCCAACCCGCTAGACACGATCGCCGTGTCCAGCCCGGATAACATCAAGCTCTCCCGGAAGAAGCAG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 TYSSTPGVPLVVVPADDILLPPNVTVGPGQCVPLPLSLTSPSGPIGTFITLTSSDPSKVTLGPGNLSSETVFIPAGAITGARTPLVCGVNFGTATISATGGGLPSANQTVLVSATLSFSPSNSAITRGKQDRLTLSLSAPAPVGGVTVSLNSDQPSVATVPSSVTILAGTSSVIVPITGIAVGSTV 
 >PredictedProphage1 -Hit 2 
 GGMGEVYKANDPRLARSVAIKVLPESLARDGDRLRRFEIEAKAAGGLNHSNILVVHDIGTENGVPYLVSELLDGESLRARLTLGKIPTTRAVELARQIASGLAAAHARGIVHRDIKPDNLFLTRDGRVKILDFGLAKVTPGEVVTDATRTLHTSAGTVLGTVSYMSPEQVRGQTVDHRSDIFSFGAVLLEMLTGEKAFAAPTAADTMSAILNSDPAISPEDEAAIPTAHLRTIRHCLEKNADDRFQTCKDLAFDLES 
 >PredictedProphage1 -Hit 3 
 GGMGEVHRALDTRLNREVAIKVSQERFSDRFEREARAVAALNHPNICHLYDVGPNYLVMELVEGESPKGPLSLEKALDYARQIADALEAAHEKGIVHRDLKPANIKITPEGKVKVLDFGLAKRIQSDGTSYNSENSPTLTNTATQAGAILGTAAYMSPEQARGKNVDKRADIWAFGVVLYELLVGERPFHGDDLTEILASVVKESPDLSRVPLKVRRLLGACLEKDPQRRLRDIGD 
 >PredictedProphage1 -Hit 4 
 LMEEVCERENLKAALQRVKANKGSPGVDGMTVIGIKDYLKQHWPAIRGQLLSGTYEPKPVRRVEIAKPDGGVRKLGIPTVLDRFIQQAVMQVLQRRWDRTFSDYSYGFRPGRSAQQAVAQAQQYIAEGHGWCVDLDLEKFFDRVNHDKLMGQIAKRIADKRLLKLIRAFLNAGVMENGLVSPSVEGTPQGGPLSPLLSNLVLDEFDRELERRGHRFVRYADDCNIYVRSERAGQRVMESITQFITQKLKLKVNETKSAVARPQERKFLGFSFTAGPEAKRVIAPKALDRFKRRIREITGRAKGVSMKTTMEELAPYMRGWRSYFGFCET 
 >PredictedProphage1 -Hit 5 
 VTQLRKMVLEELERRNYSQATARAYVGAIQRFAEHFHRSPDQLGPEHIREYQLHLVQDRKLHPRTVMIQMSALRFFFRKVLKRRFDRDDLPLPKLLRRQIPMVLSRDEVARLIAAAGNLRHRTILMALYATGMRRAELCHLRIEDIDKERMVLHIRQGKGGKDREVPLPPKLLAQLRIHYRALPHRSAWVFPSLQSRRPDQPMTEKAVWHACRQAARRAGITKSVHPHTLRHYAASR 
 >PredictedProphage1 -Hit 6 
 NLRLTAIRSFFRYASLEAPAHSGIIQRVLAIPNQRQRRALVGFLTRPEIEALLAAPNRTQWLGRRDHAFLLTAVQTGLRLSEMTGLRQEDVSLGAGAHVRCRGKGRKERCTPLAKPTAAVLKAWIREQGRGDSKTLFPSTRGGPLSADGVQHLLARHVAQARKHCASLRKKRVSPHVLRHAAAMELLQGGVDRAVIALWLGHES 
 >PredictedProphage1 -Hit 7 
 LSPVRAGLMVTALRSFFRYLRHRGVIATDLAACVPTVPNWSLSTLPRFLPAAAVERILECCDRTTSVGRRNHTILLLLARLGVRAGEVVGLSLDDIDWSTGQITIRGKGGKSAQLPLVNDVGSALADYLRHDRPRSATRRVFLRHRAPLVGFGNSSTISSLVRRALKHAGVESAHTGAHVLRHSLATSLLRQGGS 
 >PredictedProphage1 -Hit 8 
 RMRHSRHCFASHLLEAGTDLRTIQMLLGHANLEHTAVYLHLSRKHLTAVANPLDTIAVSSPDNIKLSRKKQ 
 



Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig189

Genome size:  218865
Host's GC content:  62.05
Predicted Codon Position GC:  	1st:  65.06	 2nd:  43.45	 3rd:  72.68

 

Prophage Finder Output

Genome file:  temp/acidobacteriumlc.txt
Sequence Header:  >Contig190

Genome size:  261814
Host's GC content:  62.37
Predicted Codon Position GC:  	1st:  65.26	 2nd:  43.54	 3rd:  73.24

 >PredictedProphage1 
 Length:   13659 
 Number of hits =   6 
 GC	Coding	First	Second	Third
 62.03 	 61.90 	 63.92 	 44.85 	 76.94 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	20	0.149253731343284
 Leu	TTA	3	0.0223880597014925
 Leu	CTG	53	0.395522388059701
 Leu	CTA	2	0.0149253731343284
 Leu	CTT	13	0.0970149253731343
 Leu	CTC	43	0.32089552238806
 Lys	AAG	25	0.641025641025641
 Lys	AAA	14	0.358974358974359
 Glu	GAG	36	0.537313432835821
 Glu	GAA	31	0.462686567164179
 Gln	CAG	33	0.868421052631579
 Gln	CAA	5	0.131578947368421
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	9	0.310344827586207
 His	CAC	20	0.689655172413793
 Asn	AAT	6	0.285714285714286
 Asn	AAC	15	0.714285714285714
 Ser	AGT	2	0.0344827586206897
 Ser	AGC	11	0.189655172413793
 Ser	TCG	17	0.293103448275862
 Ser	TCA	4	0.0689655172413793
 Ser	TCT	3	0.0517241379310345
 Ser	TCC	21	0.362068965517241
 Trp	TGG	11	1
 Arg	AGG	4	0.0347826086956522
 Arg	AGA	5	0.0434782608695652
 Arg	CGG	25	0.217391304347826
 Arg	CGA	14	0.121739130434783
 Arg	CGT	11	0.0956521739130435
 Arg	CGC	56	0.48695652173913
 Ala	GCG	31	0.329787234042553
 Ala	GCA	10	0.106382978723404
 Ala	GCT	9	0.0957446808510638
 Ala	GCC	44	0.468085106382979
 Cys	TGT	0	0
 Cys	TGC	6	1
 Asp	GAT	24	0.4
 Asp	GAC	36	0.6
 Gly	GGG	7	0.101449275362319
 Gly	GGA	10	0.144927536231884
 Gly	GGT	6	0.0869565217391304
 Gly	GGC	46	0.666666666666667
 Phe	TTT	7	0.145833333333333
 Phe	TTC	41	0.854166666666667
 Tyr	TAT	13	0.333333333333333
 Tyr	TAC	26	0.666666666666667
 Met	ATG	20	1
 Val	GTG	20	0.294117647058824
 Val	GTA	9	0.132352941176471
 Val	GTT	9	0.132352941176471
 Val	GTC	30	0.441176470588235
 Thr	ACG	26	0.333333333333333
 Thr	ACA	5	0.0641025641025641
 Thr	ACT	4	0.0512820512820513
 Thr	ACC	43	0.551282051282051
 Pro	CCG	34	0.523076923076923
 Pro	CCA	6	0.0923076923076923
 Pro	CCT	6	0.0923076923076923
 Pro	CCC	19	0.292307692307692
 Ile	ATA	4	0.0851063829787234
 Ile	ATT	11	0.234042553191489
 Ile	ATC	32	0.680851063829787
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 154664	155503	-1	ref|NP_817502.1|gp53 	62.0bits(149)	2e-08
 155965	156180	-1	ref|NP_817718.1|gp41 	38.5bits(88)	0.29
 156930	157508	-1	ref|NP_061531.1|integrase 	39.7bits(91)	0.13
 162404	162799	1	ref|NP_852546.1|hypothetical protein	60.8bits(146)	6e-08
 166365	166856	1	ref|NP_835731.1|similar to RNA polymerase ECF-type sigma factor	38.9bits(89)	0.23
 167528	168322	1	ref|NP_817998.1|gp25 	54.7bits(130)	4e-06
 
 DNA sequence:
 ATCCAGTTGCGCATGCCCCAGCCAGCTGCGAATCACCGTGACGTCCACGCCCGCGGCGACAAGGTGGACGGCCGTCGAATGTCTAAATACATGGGGCGTAACGCGCTTCCTGGAAATGGTGGGCACTGTCTTCGCTGCGGCCTCGACATACTGACGCAAACGGAAGCGGAAGCCCGAGGCCGTGAGCGGCGATCTGTATCGATTGACGAAAATCGGCTCGTCAGGTTTCCGTGGCTGTCTCCGTATCAATGCCGTTACCAGATTGGCCGTTTCCGGCCAGATGGGCGAGATGCGTTCCTTCCGGCCCTTTCCCATGAGCCGGACGTGGGCCGGCGACTTGAAGTAAACGTCCTGCGGCCGAAGATCGAGCGCCTCTTGAATGCGAGCCCCGGTGTTGTAAAGCAGTGACAGTAGCGCGTGGTCCCGCTGTCCTCCAACAGTGGTGCGATCAGGCTGCGAGAGGATGGCCGAAACTTCGACGGATTCCAGGTAGCGCGTCGCCCGCCGCGTTGCCTTCTTGAACGGCACGCGCAACACTTCGGCGCACTGCAATGCGACGCGCGGCTCGTGTTCCACAACGAAGGAGAAGAAGCTGCGCAGGGCCGCCAATCGGCAGTTGCGCGTGTTTACGGACGCTCGCCGCTCCTTTTCGATGTACTGAAGGAAGGCCAGCACATCCGCCCCCGTCAGGTGTTCCAAGCTGAGGGCCGCGACCGGCTTGTTTCGACGCTGAGCGACGAATCGCAGAAATAAGCGCCAGGCATCGCGATACGCCAGTATCGTCCGGTGAGAGGCGTTTCGCTGCTCGACCAACCATTCGTGAAAGAAGGAGTGCAGTAACTTCGGGAGCGTAGGAAAATCGTGTTTCGGCATTAATGAGACCTCTGGATGACTTGCAGGACTTCGGCTTCCGAGGTTCGGAAACGCTCGTTGGCATGCTGGAGCAGCTCCTGCGTAATGGTGAGATAGACCAAGGTGGAATGAATAT!
 TGCGGT
GGCCGAGGTAGGCGGCCAGATACGGCAACCGGGTCTGCGGGTTGATCCCCTGCTCGTACCACTTCGTCATCCGGTGGACGACAAAGGCATGGCGTAGATCGTGAACGCGAGCGCCGGTGTGGCCGCCAGCGCGCTTCAGTCCGACCACTCGAATCAACCGGTGGAGATGTGCCCCAGCGGCGACATAACCATAGCCGCCCTTCGCATGCCAGAACAGCGGCGCGTCGGACTCGGTAGGCGCGCCTGCTTTCGCGCGGGCATTGAGATAATCGCGCAGGGCGGCCATGGCGGTAGCTGACAATGGCAGTCGCCGCGACTTGAAGAACTTCGTGTCGCCGACCTCGATGCAATCCGTGTTCAGGTCCAGATCGCCAAGTCTAAGCCCGACGATCTCGGCCAGACGCAATCCCGCGCAGTAAGCAAGGACCAGCATGGTATACAAGGTGAGCGGGCGCAGCGGCGCTCGCGGGGACGGATCACTGCGTGCCGCATCCAAGAGCCGGCGGACTTCCTCCCCAGTGTAGATATGTGGCCGGCGGCGGCTTCTGAGCATCTCCTGCACGAGCACTCGGTCGCGTTTCGGCGTCGCCACGGAAAGCCCACCGCGATTCAGTTCCTTGGCAATCACTCTGCCGAGATCGATGCGCTGCACTTTGCCAGCTGCGGAAGAAGCGCGGCCGGCGTATTCCCGGATCAACGTAGTCAGCGGCTCCTTATCGGCGCCCGGCCGCTGCTGTAGAAACCGGTCGAACTGGAGAAAACGGTTTTCATGCCGGTATCGGAGGCCGCGGGTCCGCATGCGATTCACATGCTCGCGCATAATCGGGCCCAGATGACTGCCGTATCGTGGCGGCGGACGAAGCGCCTCCAATGCCTTGCCTGACTGATCACCCGCGAGAGCTCGCAACACGGCCGCGGACGAGCGGCAATCATACTTGCGCCGCAGTTCCGCAATCGGGTTCGCCTCGATGGCTCCGCCCGTGGCCAAC!
 CAATCCAGAAAGCGGTTCACGAGCTGTCCATGGTGGACTACCAGGGGAAGGGGCGATGTCTTCAACTCTTCTTTCAACCAGGCGCGGAGAACCGCCTCAGAAAACGCCCGCTTGGGAAAACGCCGCGCGACAAAGCGCTGGAACTGGCGAAGCCGCGATAGGAAGGGCGCGCCATAGCAGACCAGGTTGAGCTGTTCCACGAACTGGTTGATCAGCGTTTCGTCTTCTTGGTCCGGCCAATTTGGCATGGTTCTCCTTTCCCGGGCAAGTCGATACTGATTGCCCGGAGATCCTCTGTGGCGAGGCGCAGATAAATCTCGGTAGATTCCGCCGAGCGATGGCCCAACAGATCACCGATCGACTTTAATGGCACATCGGCCTCCAGCAGACTGCCCGCTCGCGCGAAGCGGAACGCGTGGGCGCCGTGCCGTCCTTTCACCTGAATGCCGGCCTGCTTCAGCCGTCGCTGAATGATGGTATGCAGAGAGCCGCCCCATGGAAACGCGCCGTGCGGCGCGCGGACGCGCAGGAATACCTCACGAATGTCCGTCT
GCGGGCGGCCGCGGCGCAGATAGTTCAGCAGTGCTTCCCCCACCGGCGGGAGCAGCGGTAGAAACGATCCCGCACCGCTCTTCGACTGCCGTACCCGCAGCCGGTCAGCACGCCAATCGATGTCATCGAGCCGCAGGCGAACCACCTCGCCAGCTCGCAGACCATAGGTTGAAAGCAGCATCAGAATGGCATGGTCGCGCAGGCCGGTGGGCGTTTTGTCCTGGCGGGTTGTCTCCAGCAACGCCTTCACCTGTGGTTCCGTAAAAGCGCGGGGGATGTCTTCGAACTTATACATGATCGGTCCGGAGACGACCGGAGAAAGATCTTTGGCAACGAACTTCTCGGCGTGCAGATACCTCAGAAAACTTCGCAAACACTGCGACACGCCATGCCGCGTCGCACGGCGCAGTCCCGGCATTCGCCAACTCAGATACTGGTCTATATCGGCAAGGCCGATCCTGGAAAGAGAATCGCGGTTCGCCCTATCGCCCAGCCATTGAACGAACACCCGCGCGGCATCGCCGTTCTTGCGGAGGGTCCCTTTGGAGAGACCATGGATATCGACCAGCCATCGGCCGTAGCCGTCGATCACCTCGCGCTGAAATCGTTCGCGCTCGTTAGCAGGTGGTTCCGGTGGCGGCCAGTTCGGGTTCACCATCCGCAGCAGTCGGTGGATCGCGCCGGAATACCTGGTCCGCCACTGGCGCGGATGCCTGGGCAAAGTGCGGTGTCGTTGTTTGAACCGATCTAACTTTGCCTGAATAAAGCTTTCCACGTGTGCGGGGCGAGCGGCTTCTATCGAAAGGCCCTGCTGTTTCAGGTAGCGAATGAACTGACGAGCCGCGGAGACGTAGCTGGGAATCCCGAGCTGGTTGTAGCGGAACTTCTCCAAATGCGACCGGAAATCCGAAAGCACCGGTTCAGGCCGCGATCCCGGAGGCCATTCGCCCTGTGTGAAGCGCAGCAGGCCGTCAACCGCGCGCCTGCTG!
 ATCATT
CGCCAGTAATCCAGCTTTTTCGGGAGGTTCGGTTTCCGTTTTCGGTAGATGCGCAGCGCGACACGGAAGTAGGCATCGACATCTTCCAGTCGAACCGCCGCGAGGCTCATCCCTTTGAGATTCAGGTAGTCAATAAACTGACGAGCGTGGCAGAGATAATCCTGGACGTAGCTCGGGTCCAATCCTCGCTCAGTCAGGTGGGTCTGAAACTGCTGAAGGTCGGGATCGCCCGACGAAGGCGGCGGCCATTGTTCTTGTGCGCCACGCAGAAGCCGGTGGATGGCCTTTGTGTACTCGCAGCGCCAGCGCACAAGTCGGCGAGGCAAATGGCCAAACTGCCTTCGATAGATTCTGAGGCGTTCAGCGATGAACCCATCGAGATCCTGCGGCGTCACGCGCTCCAGCAGCAACTGTTGTCGATCCAGATACGCCAGAAATAGGCGGGCCTGATCCAGATACTGTCGGATGGTCTCCGGACGAAGGTGCTCCTGCTCAAGCGTTTCTTTGAATGTTTGAACGCGAGACTCCAATGAAGTCAGCGGCGGCCACGCACCTTGCGCCAGTCGCAGCAGCATATGAGCCGAGGACGTGAAGCGGGATCGCCACTCCGCTTCGTCTGCCGGCCGGTGCCTGTTTCGGCGCCAGTATCGCTGCCACTGAGTACGCAGATACTCTTCAACGTCATCAGGACGGACAGCCTTCAGGCGGATCCCGCGACTTACTATATGGTTAAGAAAATGGCGGCCATTACACGTGTACTGTTTGATGGCCCACCGGCTGAAATCGCTTTCGCGCATGTGTTCGCGCAATGCGACCAGCCAACGGTCAATCTGTTGTCTGGGAATGTTTGTCTCCGGGGGGAGGCTACTGAAGAGATGACCAGAAGCGGAAAAAGGCTCAAGATTATGCGGAGGAAATCAGCACAGAACACCGGCCGGCGTCGCGAATGAGGCTCTACTGCGCATAAGTCCTTGCTGCGCATAATACCG!
 GTTATCGTGAGCTCACGATAACGAGTTGCCGTTGGTGTCCTGCATCGTGGTCGGATAGGAGGTC
CCGGCATCCTGTTCACTGCCGCCGGAAACGCAGCCCATCACCCAGAAACTGCCGTCCGGGAAGTACAAGCGATTGGCGTTGGAATCGTAGCTGACGTAAATCCCTTCCTGCGAGGTCCAGACACCGGAGTTATTTTGATCGAGCCGGTATTCGGCGCCGGTCGAATCGGTGGACAGGTAATGATCGAGCTGCGATCCCGACCAGATCGGCGTGATTGCGCCCGCAAGCAGTTTCCAGCCCATTCCGTAGCCGACATCCTGGCCAAACAGCCAAGTCCCACCCGAATCCTGACGCCAGATCTGCGAATTGTAGGTCAGAGCGAAGTTTACTCCCCAACCGCCGCGCGATTTCGGATTCCACAACGGCAGGGTATAGTTCAAGTTTCCAAACAGCATGTCCACCTGTTCGCCGGCACCGCCCCAATAGGTCCCGGTGGGCTTGACGCCCAGGCGCCGCGGTTCCAAGCCGTTAGTGGCGCCGGCAGCAGTTTGGGTCTTCCCAGAGACCGCCACCCCCTTTCCCGGCGGATGCGCCGGATCCGCCGGCGGAGGGTTGGGTCCGGTTGCGGGCGACGGTGGAGTCGTAACGGTAACGGAGGCGGCCGGCGAAAGGTTGCCGTGTTGGTCCACGACCGATACCGAGTAGGCATAGGTCTGCCCGGGAGCTACCGACTCATCGGAAAAGACCGAATTCGAGATTCGGCCGAGGTAGACGCCATCCCGATAGATCCAATATCCGGCGATGCCGGGGCTGGCGGCGTCCGGCGCGACGGCATGCCACTGCAGGTCCACTCGATTCCAGGATGCCGCCGACGCGATCTGGGCGACCCTGGCCGGCGCGGTGCGCGCGATTGCGCCGAGCTGCACAAGCGCGATGGAGTTTCCGGGCGGCGTGGCGATCGCGCCAATGCCAGGTTGACCGGCCGCGAGGGCGGCGATCGGGAATTCCATGGGGGCCGCCAGGTCCGGCCACACCATGGCGGTGCCGCC!
 GTGCAC
GGCCAAGCGCATGACCATTCCGTTGCGGCAGGAGTTCAGGAAGCCGGCGACTAGCCTGGTTGTCCCGGCGGTGCTCTGCAGGAGCATATAGTTCGCCAGGCATTTGCCGGCGCTATCGAACCTCGGATTTTGCATTTCGAAGGCCAGATAACTGCCGCCGCCGCTGGGTCCGGTGCGTGCGTCCGTGCTGGCCTGCAGGAACTCGGTGTAAGTGCCGCCGGAGGCCACCACGGTGAGAGTCATGCTGACTTCGCCTTCGCTGGTGCCATCGGGGACGGGGAGGCGCGAGATCAGCGTTCCGCCGGATGGAGTTGCGGCGGAGAGGCCGGTTCTGGAAGCGGCTGGAGAGCCGGTGGTGGTCCACTTGCTGTTATCGATCGCGGTCAGATTGTCGGTCAGATAATAACTGTAGCCGGCCCACGCGGGACAGGCGAGGAGAAAGGCAGTACCAAGGAGTCTCTTCACGGCATCACCATCCGGAACTTGGAGAGGTCAAAGTCTTTACGAAATGGCTTGACGGCGGCTTCGATGGCTGCCTTAGTCTGCCTCGATTCTTCGAAGGTCTTGATGGTTTTGTCATTGAGCATCGGTAACAGCGCGGCGCGGTTCCGGCTGACAAACTCGACGATGGCGAGAGTTCCATCGTCACTTGGCTGAAAGAAGAATCCCGTGATCCCGTCGGGATCCTGGGCTGCAGGCCACGGTGCATATTGCGGGCGTTTGGGATCATCCGTGGTCCCCTTGCCGACCATCGGGACGACACAGATCACACGATTGTAACTATTCTTGGGATCTACCCGGCGCTGGCCGTACATGGCAGCGGAGAAGATCATCAATAGGATCGCTACCCGGCTTGTCATTTACTTACACCTCTGTAGAGACTTCAGTTAGTCTTGGTGAGGTTATATTGAAGTCGGTTGGCGATCAATGCTTCTCTTAGTTATCGGGGAGAGAGGGGACTTACTTTCAAGTATTGGAACGCACGTACT!
 GCGGTGGCGTACTCGAATCGCCGGTGCTACTGAAGCGCTGCCACCAGCCGCCGCATCTGCCGCC
GCATCTCCCCGGCCGGGAAATACGCCCGCTCCCCGTGCCCCGGCAAGACCCACTCGAATTCGTACTCCCCGAGCAGAGCCACCGATTGCATCTGCTCCGCCCAGGAATACCAGCACACGTCGCGCGACGCCGTCAGGCGCCCGCGATTCCGGCTCCACCAGATGTGGTCGCCGGTGAACAGGAATTCGCGATGCAGCAGCGCGCAATGACCGCGCGTGTGGCCCGGAGTCGGGATCGCCAGAAAGTCCGGCGCCAGTTCCACGGGATCGCGCCCCTCGATCACGCGCTCCGAATCCGGCTGCGCCGCCAGCTCCAATCGATGGATGATCCGCTCGGCGCCAAACCGCTCCGCATACCGCGCGGCATCGGCCACATCGTCGCGATGCGTCAGGAAGATGTACCGCACTCCGCCGCGCTCTGCCAGCCGCCGCGCCAGCGGCTCCACGAATCGCGGCGCATCCACCAGCCAGTTCCCCGCAGGATGCTCCACGAAGTAGCTGTTGCCCCCGAACGACTTCGGCGAGTTGAACCCGCAGTAGTACACGCCATCTGCGAGCCCCATCGGAAATTCATCCACCGCCGCCCGCGCCGCCGCCTTATCGGTCGCGCCGATCGACCCCGTGGGACAGGCCACCAGCGCCCGGTACGCCGCGCGCACTTCCCCTTCGTCCCGCGGCTGCACCTGCACGAACGAGAACTGCCCGGTCTCCCCAAAGGTCGCCGGCGCGAGTTGCCGGCAGGTATCGCAATCGATGCACGTGGTATCGACGAAGAACGCGCCGTCCACATTCTCCGGAACCCTCTGCGCCCGGTCCGCCATGTTCCCAGGATGCCATAAGGAGGTACTACAATCCGGTATGGCCGAGATCAAAGCCGATACCTTCATTCGCGACTACGGACAGTGCCTCGTCGAACGCCGCGCCGCCCTCTTCGCCGGCGCCGGACTCTCGCGCGCGGCGGGCTTCGTCGATTGGAAAGGGCTGATGAGC!
 GGCATC
GCCAGCGACCTCGACCTCCGGATCGATCGCGAAAACGATCTCGTCGCCCTGGCCCAGTACTACACCAACGAACGCCACGGCAATCGCGCCGAGATCAACAACCTGCTGATCCAGCAGTTCACCCAGGAAGCCGAGGAGACCCGCAATCACCAACTCATCGCCCGCCTCCCGATCCACACCGTCTGGACCACCAACTACGACGAGCTCCTCGAAAAATCCTTTCGCCGCCAGGACAAGCGCGTCGATGTCAAGGTGGATCCCCGCACGCTCGCCCTCCATCAGCCCGGCACCGATGTCACCATCTTCAAAATGCACGGCGACGTCTCCGCACCCTACAACGCCGTGCTCACCAAAGAGGACTACGAGACCTATTCCGAAACCCGCGAGCTCTTCACCATCCGCCTCAAAGGCGATCTGGTAACCCAGACCTTCCTCTTCCTCGGCTTCAGCTTCACCGATCCCAATATCGAGTACATTCTCAGCCGCATACGCGGCCTGCTGGGCCAGGACACCCCCACCCACTACTGCATCATGCGGCGTCCCGAAAAGCCCGCGGATTCCGCCGGCGCCGCCAAGGCCGATTACGAGTACGATTGCCGCAAGCTCAACCTGCGCGTCGGCGACCTCCAGCGCTACGGCATTCAGACCGTCCTGATCGATGAGTACAGCGAAGTCACCGACATCCTGCAGGAGCTCAACCGCCGCGCCTTCCTCAAGAACATCTTCGTCTCCGGCAGCTGGACCGCCGGCCTGGATACCTTCGACGTCCCGCGCCTCGGCGCCTTCTCCCGGCTGCTCGGCAAGGAAATCATCCGCCGCGGCTACAACCTGGTCTCCGGTTACGGCTGGGGTATTGGCAGCGAGCTCATCGTCGGCGCACTCGACGCCGCCGACGAGAAGTTCTCGACGCTGCACGACCGCCTGGTCCTGCGCCCCTTCCCGCGCAGCCTCGAGGACGCGCGGCGGGACAAGATCTTTCGCGAGTGGCG!
 CGAAGCCATGCTCTCTCTCGCCGGCATCAGCATCTTCGTGGCCGGCAACAAGCCCGACCCCGCG
AGCGGGCAAATCGTCAATGGCGATGGCGTCCTGCAGGAATTCGAGATCGGCACTACCGCGCCGCTCGCGAACTTCCCCATCCCCATCGGAGCGACTGGGTACACAGCCCGCGAAATATGGGAGACCGTCATGCGGAATCCCGACCGCTACTACGGACGCCTCGACGTGAAAACGCCCCTGCAGGCGCTCGGCGATCCGAACATCACCAATGAGAAGGCCATCGATGCCATCTTCGAGATCGTCAGCCGCTGCGTCAAGGCCGAGGGTTTCGCCGCCAGGCTGGGCGGTTAGTTGAGTTAGCAAGGACGCTCCCTGACGGTCGCGGCTCTGATGGGGTGAGCGAATCGCGCAGGCGATCGGAGATCTCTATGCCTTCGCCGCCTTCAGCGCCTCTTCCAGCGCCTGGAGAATGAGCTGCACGTTCTCCGCCGTTGAGCTATAGCCCATGGTGCCGATGCGGAAGACCTTGCCCGCCAGAGGACCGAAGCCCCCGGCGATTTCCATGTTGTACTGCTCCAGCAGGAACTGCCGCACCTTGGCATCGTCCACGCCCTCGGGAATCCGCGGCGTATTCAACGTCCACAGCCGGTGGCCTTCCGGCACCAGCATGCTCAAACCCATCGCCTCGATCCCCTTCACGAACGCCTCGTGGTTTGCCTTGTGACGCGCCCACCGCGCCTCCAGCCCCTCCTCCGCGACAATCGCCAGGCCCTCGCGCAGCGCGTAGAACATCGTGGCCGACGCGGTGTGGTGATACTTCTTTCCGCAATAGAAACTGTCGAGCAGCTGCAGGTCCAGGTAGAAGGACTGCACCGGAGCCTTGCGCTCCTTCAGCCGCCCCAGCGCGCGCGGCCCCACCGTCATCGGCGCCAGTCCGGGCGGGCACCCGAGGCCCTTCTGCGAGCAGCTGTACGCGATGTCGATCCCGTTCTCATCCACCAGCACCGGCATTCCGCCCAGCGACGTGACGCAATCGGCGATCGTCACCG!
 CGTCCA
CTTCGCGCGCCGCGTCGCAGATCGGCTTCGCCTGGTTGAACATCCCGGTCGAGGTCTCGGCCTGCACGAACGCCACCACCCGCGGCCGTTCCCGGCGGATGAATTCGCGGACCTCCTGCGCATCGAACGGCTCGCCCCAAGGCTTCGTGAGCCGCACCACCTCGCCGCCATGACGCCGCGCCATATCGCCGATGCGATCGCCGAAAAATCCGTTGGTCAGCAGCGCAAATTTATCGCCGGGCTCGGTGAAGTTCGCGACCGCGCATTCCATCCCCGAGGTGCCGGTACCAGAGGTCGCGAGGTTGAAATGATTCTTCGTCGAGTAGGCATACCCGAGCAGGCCGCGGACCTCTTCCACCACCTGAAAAAAGAATGGATCCAGATGCCCCACCACGGGCTGTGACATCGCCTGATAGACGCGGGGCGCGACCATGCTGGGTCCGGGTCCGAAGAGAAGGCGCGGCGGCGCCTGAATCGCAGGATAGCTTTGCGGCATAAGCAACTAGTGTAGCCCGCGGCAGAAAAAGACGTTGCGGCTACGTTGCCGTTATCTTTGCATCTGCGCGCAGGAAGCCGCCAGCTGCTCGGCCACGCTGAGCGCAGCCCTGGGCGGTGGCGGCACCAGACTCATGCGCCGCAACCGCATCTCCACATACCCACGATCGGAACAAAGTGCGGGAGATAGCTTGGACGTGGTCATGGAGGACGGAGGTCCGAGGTACAAGATCGCGTCAACCTGGTCTTCCATCCGGGCCGGGCCCGCCGCACCGAGCACGGTTCCGCGGAGCAGGGCCAGGCTCGGAGCCGGCCACGATGACACGTCCGGTTGCAGTGTGCTCAAATCCCTGCGCGTCTCCGGCAACAACACAAAAACTTCGGCGAGCTTCTCCCGCTCGAGCCTGCTGACAATGCCATTACCCCTGCGAAGCAGGTGCTGGCCCCCAAAGATCACGAGCGCCCGCCGGCCCTTGGCCAACACTTCGCGCCGC!
 AGCAATTCCACCACGTAGGCATCGCGATCGCCCATGGCCGCATGAAGCTCTGCCAGGTTGTGGA
CCCGCTCCCAATCAATGGGAGGATCGCCAAGCAGGACACGCAAACGGCGAGCCGGCGGCAGCGAGGCATTCACGCTCCGGACTGCGCGGAAAAACTCCTCGTAGATCGGCAAGTCCCATTCATACTCGACTTGGGTTGTGTCCCGCCAAACTCGCCGCAGCTTTTCGGTAGGCACGTCGTCGCCTCGCAGGAACCGGTCCACCATATCCTGATACCGGGCATTTCCAAATTCGACCACAATATCGTTGGCCGCCGCCGTGAACCGGGGATCGCGAATCAGTGCGAGTTGAAAGGCGTGGCTTTGTTCGTTCCCGCGGAATTCAACGTTGCCCAGAGCGACAATCGCGTGCGTGCGAAAGCCGTCCACGATCGCTCCAACCGGTTCCACCGGTACCGCGGGCCCTTGCGCTTGCAGCAATACCGGAGCCGCCATCAGTAAAGCCAGAGTACAACCCCGCGGCATCATTGTTCCCGGCTCTTTCCCGTCAGGTAAACCAGCAGATGGGAGAGTCCAATGGCGGCCGGGCCGAGACCGATCCACTGAAGACCCGGCGGGATTTCCAGTCTCGCGTTCGCCGGCGAAGCGATGACCACCGATAGCGTGATGTAGATGCAAAGGCCAAGCGACAGCCAGATCAGGCCCGCCAGCAGCAATGTACGCTGTACGTTCCACGAACTCCGCTTTTGCTCCTGCTCGAGCGGCGGCAACTCTACGCCCTTTTCGATCGCCGCTAGGCGCTCCCGGTGGATCAGTGCTCTTCTTTGATGGCGCAGCCACTCGCGATAAGCGGCATATCCAATCAGCGCAATCGCCACCGCCGCGATTTCCATGTCAGGCGAGATACCCATTTGACCTCCTGCCGTTTTATACTCCTGATGGCTGCCCCACGGTTGCAGGGAAGAACAAATTCCGGCGGCATTTACCGTGCAACCCCGACCATCGCTCGCGAGTACCAATAGGCTGAATGGATGAAGACGTTCAACTTCTG!
 CTTCGA
AAACGGAGGTACCCGGAAGCCTTGGAGCAGTTGTTGACCAGATATGAAACGCCCGTATACCGCATGGCCCTCACGTTCCTGAAAGACCCCGGCCGCGCCGAAGACATCACGCAGGACATCTTCCTCAAGCTTTGGCGGGCCTTGCCGGACTACGATGGGCGCGCCTCACCGGGCACATGGCTGTACACGATCGCCCGAAATACCTGCCTCTCCGCCGCGCGGTCGGCTTCGTACCGTAAGACAATCCCGCTGGAGTCAACCAGCGAACCGGCGGCTCCTGCAGCGGCGCCGTCGGGAGACGTTGAATTGGCGCAGTGCATTGACCGGTTGCCGGAAACCCAGCGTACCGTGATCACCCTCTTCTACCTTCAGGAAAGGCGCGTAGACGAAGTGGCGCGCATGTTGGGAATCCCCGAGGGAACCGTGAAAAGCCATTTGTACCGGGCCCGCCTCGCGCTGGGCGAAATGATGAAGGAGTCATGATGAATTGCGAAGAAGCTCGTCAGGTCCTGATGGACTCCCTCGACGTATCGATTGCCGCCGCACGCGATCCCATGGCCGAATCCCACGCCGCATCATGCGATGCCTGCTGTCGCTTCGCCGCCTTGCAGCGAACGCTCGATGCCCGGCTCGCGGCTGCCGTGCCCCGCGTGTCCCTGAGCCCCGGATTCCGGAGCTCTCTTCGGCGCAAGCTCAAGCCTCACACCGCTTCCGCCTGGCCCGACTCTCTGCCCGATATCGCTCACGTGGTGGGATGCGCACTCGCCATCGCGCTCCTCGTTCTGTTTCTGCCGCGATATTCCAGCGCCGTACTCGTGGCAGGTTCCGCGTTCACCGCCGTTACGTATTTTCTTCAGTCTGTTTTGCGGAATGCCGTCGCTTCCGAATCGGATTGAGTCTCTTGCCGCCTCGCGATACACTCACAGGCAATGCGCAACGCCCTCTTCGTGCTCGCCCTGTTCGCCGCGGCCGCCTTTACCCAAACCGCC!
 GGACTTAACGCCGATCGCCTCAAGTTGATCCGCCCCCGCCTGCAGGAGCTCGTCGAAAACCAAT
CCATCCCCGGCGCGGTCGCGCTTGTCGCCCGCCACGGGAAGGTCGCCACGCTCGAAGCCGCCGGCTGGCGCGACGTGGAAGCCAGGAAGCCGATGACCACGGACTCCATCTTCCAGATCATGTCCATGACCAAGAACTTCACCGGCGTCGGCATCATGATGCTGGTGGAGGAAGGCAGGCTCGAGCTTCGCCGTCCTGTCTCCGACTATCTCCCCGAGTTCCGCAACCAGATGATCGAAGAGCGCCTGCCCAACGGCAATACCGCGCTCCATCCGCCGGCCCAGCCTCCCACGGTCGCCCAGCTCATGTCCCACACCTCCGGCCTCGCAGGCGATCCCGATGGCGAGCTCGCCGACAACCCACGAACCCTGCGCGTCCCGCTCGCCGAAGCCGTGCGTTTCTATGGCCGGCAGCACCTGCAGTTCGAGCCAGGCACGCGCTGGCGTTACAGCAACATGGGTATCGCCGCCCTCGGCCGCATCATCGAGGTCGTAACCGGCGAGGACTACGTTCACTTCATCGAATCCCGCCTGCTGACTCCGCTCGGCATGAAAGACACCTTCTTCTTCCCGCCCGATGCCAAGAAGGACCGCATAGCCCTGGTCTACAAACACAGCGCCGGCAAACTGGTCCGCTCCGGTGACGAGATCCTCGCCGGCGATTCGGCCAAGTACCGCGCCGGCGCAAAATATCCCGCGCCGGAGTTCGGCCTCTACTCCACGGCTCCCGACCTGTTCAACTTCTACGAGATGCTGCTCGAAGGCGGCACGTACAAGGACCACCGCTATCTCTCGCACCAATCCATCGACACCATGACCCGCGTCTTCACTCCGGACGTGAGCCCTTCCGGCTGGCTCGGCGGCACCGGTTACGGCCTCACCTTC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 TTACTGCACTCCTTCTTTCACGAATGGTTGGTCGAGCAGCGAAACGCCTCTCACCGGACGATACTGGCGTATCGCGATGCCTGGCGCTTATTTCTGCGATTCGTCGCTCAGCGTCGAAACAAGCCGGTCGCGGCCCTCAGCTTGGAACACCTGACGGGGGCGGATGTGCTGGCCTTCCTTCAGTACATCGAAAAGGAGCGGCGAGCGTCCGTAAACACGCGCAACTGCCGATTGGCGGCCCTGCGCAGCTTCTTCTCCTTCGTTGTGGAACACGAGCCGCGCGTCGCATTGCAGTGCGCCGAAGTGTTGCGCGTGCCGTTCAAGAAGGCAACGCGGCGGGCGACGCGCTACCTGGAATCCGTCGAAGTTTCGGCCATCCTCTCGCAGCCTGATCGCACCACTGTTGGAGGACAGCGGGACCACGCGCTACTGTCACTGCTTTACAACACCGGGGCTCGCATTCAAGAGGCGCTCGATCTTCGGCCGCAGGACGTTTACTTCAAGTCGCCGGCCCACGTCCGGCTCATGGGAAAGGGCCGGAAGGAACGCATCTCGCCCATCTGGCCGGAAACGGCCAATCTGGTAACGGCATTGATACGGAGACAGCCACGGAAACCTGACGAGCCGATTTTCGTCAATCGATACAGATCGCCGCTCACGGCCTCGGGCTTCCGCTTCCGTTTGCGTCAGTATGTCGAGGCCGCAGCGAAGACAGTGCCCACCATTTCCAGGAAGCGCGTTACGCCCCATGTATTTAGACATTCGACGGCCGTCCACCTTGTCGCCGCGGGCGTGGACGTCACGGTGATTCGCAGCTGGCTGGGGCATGCGCAACTGGAT 
 >PredictedProphage1 -Hit 2 
 TACACTGGGGAGGAAGTCCGCCGGCTCTTGGATGCGGCACGCAGTGATCCGTCCCCGCGAGCGCCGCTGCGCCCGCTCACCTTGTATACCATGCTGGTCCTTGCTTACTGCGCGGGATTGCGTCTGGCCGAGATCGTCGGGCTTAGACTTGGCGATCTGGACCTGAACACGGATTGCATCGAGGTCGGCGACACGAAGTTCTTCAAGTCGCGGCGA 
 >PredictedProphage1 -Hit 3 
 GTCTCCGGACCGATCATGTATAAGTTCGAAGACATCCCCCGCGCTTTTACGGAACCACAGGTGAAGGCGTTGCTGGAGACAACCCGCCAGGACAAAACGCCCACCGGCCTGCGCGACCATGCCATTCTGATGCTGCTTTCAACCTATGGTCTGCGAGCTGGCGAGGTGGTTCGCCTGCGGCTCGATGACATCGATTGGCGTGCTGACCGGCTGCGGGTACGGCAGTCGAAGAGCGGTGCGGGATCGTTTCTACCGCTGCTCCCGCCGGTGGGGGAAGCACTGCTGAACTATCTGCGCCGCGGCCGCCCGCAGACGGACATTCGTGAGGTATTCCTGCGCGTCCGCGCGCCGCACGGCGCGTTTCCATGGGGCGGCTCTCTGCATACCATCATTCAGCGACGGCTGAAGCAGGCCGGCATTCAGGTGAAAGGACGGCACGGCGCCCACGCGTTCCGCTTCGCGCGAGCGGGCAGTCTGCTGGAGGCCGATGTGCCATTAAAGTCGATCGGTGATCTGTTGGGCCATCGCTCGGCGGAATCTACCGAGATTTATCTGCGCCTCGCCACAGAGGATCTCCGG 
 >PredictedProphage1 -Hit 4 
 CAGTTCACCCAGGAAGCCGAGGAGACCCGCAATCACCAACTCATCGCCCGCCTCCCGATCCACACCGTCTGGACCACCAACTACGACGAGCTCCTCGAAAAATCCTTTCGCCGCCAGGACAAGCGCGTCGATGTCAAGGTGGATCCCCGCACGCTCGCCCTCCATCAGCCCGGCACCGATGTCACCATCTTCAAAATGCACGGCGACGTCTCCGCACCCTACAACGCCGTGCTCACCAAAGAGGACTACGAGACCTATTCCGAAACCCGCGAGCTCTTCACCATCCGCCTCAAAGGCGATCTGGTAACCCAGACCTTCCTCTTCCTCGGCTTCAGCTTCACCGATCCCAATATCGAGTACATTCTCAGCCGCATACGCGGCCTGCTGGGCCAGGAC 
 >PredictedProphage1 -Hit 5 
 GACGTTCAACTTCTGCTTCGAAAACGGAGGTACCCGGAAGCCTTGGAGCAGTTGTTGACCAGATATGAAACGCCCGTATACCGCATGGCCCTCACGTTCCTGAAAGACCCCGGCCGCGCCGAAGACATCACGCAGGACATCTTCCTCAAGCTTTGGCGGGCCTTGCCGGACTACGATGGGCGCGCCTCACCGGGCACATGGCTGTACACGATCGCCCGAAATACCTGCCTCTCCGCCGCGCGGTCGGCTTCGTACCGTAAGACAATCCCGCTGGAGTCAACCAGCGAACCGGCGGCTCCTGCAGCGGCGCCGTCGGGAGACGTTGAATTGGCGCAGTGCATTGACCGGTTGCCGGAAACCCAGCGTACCGTGATCACCCTCTTCTACCTTCAGGAAAGGCGCGTAGACGAAGTGGCGCGCATGTTGGGAATCCCCGAGGGAACCGTGAAAAGCCATTTGTACCGGGCCCGCCTCGCGCTGGGCGAAATGATG 
 >PredictedProphage1 -Hit 6 
 CCGATGACCACGGACTCCATCTTCCAGATCATGTCCATGACCAAGAACTTCACCGGCGTCGGCATCATGATGCTGGTGGAGGAAGGCAGGCTCGAGCTTCGCCGTCCTGTCTCCGACTATCTCCCCGAGTTCCGCAACCAGATGATCGAAGAGCGCCTGCCCAACGGCAATACCGCGCTCCATCCGCCGGCCCAGCCTCCCACGGTCGCCCAGCTCATGTCCCACACCTCCGGCCTCGCAGGCGATCCCGATGGCGAGCTCGCCGACAACCCACGAACCCTGCGCGTCCCGCTCGCCGAAGCCGTGCGTTTCTATGGCCGGCAGCACCTGCAGTTCGAGCCAGGCACGCGCTGGCGTTACAGCAACATGGGTATCGCCGCCCTCGGCCGCATCATCGAGGTCGTAACCGGCGAGGACTACGTTCACTTCATCGAATCCCGCCTGCTGACTCCGCTCGGCATGAAAGACACCTTCTTCTTCCCGCCCGATGCCAAGAAGGACCGCATAGCCCTGGTCTACAAACACAGCGCCGGCAAACTGGTCCGCTCCGGTGACGAGATCCTCGCCGGCGATTCGGCCAAGTACCGCGCCGGCGCAAAATATCCCGCGCCGGAGTTCGGCCTCTACTCCACGGCTCCCGACCTGTTCAACTTCTACGAGATGCTGCTCGAAGGCGGCACGTACAAGGACCACCGCTATCTCTCGCACCAATCCATCGACACCATGACCCGCGTCTTCACTCCGGACGTGAGCCCTTCCGGCTGGCTCGGCGGCACCGGTTACGGCCTCACCTTC 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 LLHSFFHEWLVEQRNASHRTILAYRDAWRLFLRFVAQRRNKPVAALSLEHLTGADVLAFLQYIEKERRASVNTRNCRLAALRSFFSFVVEHEPRVALQCAEVLRVPFKKATRRATRYLESVEVSAILSQPDRTTVGGQRDHALLSLLYNTGARIQEALDLRPQDVYFKSPAHVRLMGKGRKERISPIWPETANLVTALIRRQPRKPDEPIFVNRYRSPLTASGFRFRLRQYVEAAAKTVPTISRKRVTPHVFRHSTAVHLVAAGVDVTVIRSWLGHAQLD 
 >PredictedProphage1 -Hit 2 
 YTGEEVRRLLDAARSDPSPRAPLRPLTLYTMLVLAYCAGLRLAEIVGLRLGDLDLNTDCIEVGDTKFFKSRR 
 >PredictedProphage1 -Hit 3 
 VSGPIMYKFEDIPRAFTEPQVKALLETTRQDKTPTGLRDHAILMLLSTYGLRAGEVVRLRLDDIDWRADRLRVRQSKSGAGSFLPLLPPVGEALLNYLRRGRPQTDIREVFLRVRAPHGAFPWGGSLHTIIQRRLKQAGIQVKGRHGAHAFRFARAGSLLEADVPLKSIGDLLGHRSAESTEIYLRLATEDLR 
 >PredictedProphage1 -Hit 4 
 QFTQEAEETRNHQLIARLPIHTVWTTNYDELLEKSFRRQDKRVDVKVDPRTLALHQPGTDVTIFKMHGDVSAPYNAVLTKEDYETYSETRELFTIRLKGDLVTQTFLFLGFSFTDPNIEYILSRIRGLLGQD 
 >PredictedProphage1 -Hit 5 
 DVQLLLRKRRYPEALEQLLTRYETPVYRMALTFLKDPGRAEDITQDIFLKLWRALPDYDGRASPGTWLYTIARNTCLSAARSASYRKTIPLESTSEPAAPAAAPSGDVELAQCIDRLPETQRTVITLFYLQERRVDEVARMLGIPEGTVKSHLYRARLALGEMM 
 >PredictedProphage1 -Hit 6 
 PMTTDSIFQIMSMTKNFTGVGIMMLVEEGRLELRRPVSDYLPEFRNQMIEERLPNGNTALHPPAQPPTVAQLMSHTSGLAGDPDGELADNPRTLRVPLAEAVRFYGRQHLQFEPGTRWRYSNMGIAALGRIIEVVTGEDYVHFIESRLLTPLGMKDTFFFPPDAKKDRIALVYKHSAGKLVRSGDEILAGDSAKYRAGAKYPAPEFGLYSTAPDLFNFYEMLLEGGTYKDHRYLSHQSIDTMTRVFTPDVSPSGWLGGTGYGLTF 
 

 >PredictedProphage2 
 Length:   17506 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 62.06 	 64.32 	 63.13 	 57.16 	 72.67 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	7	0.12280701754386
 Leu	TTA	4	0.0701754385964912
 Leu	CTG	27	0.473684210526316
 Leu	CTA	4	0.0701754385964912
 Leu	CTT	3	0.0526315789473684
 Leu	CTC	12	0.210526315789474
 Lys	AAG	15	0.714285714285714
 Lys	AAA	6	0.285714285714286
 Glu	GAG	10	0.37037037037037
 Glu	GAA	17	0.62962962962963
 Gln	CAG	23	0.766666666666667
 Gln	CAA	7	0.233333333333333
 End	TGA	0	0
 End	TAG	1	1
 End	TAA	0	0
 His	CAT	4	0.307692307692308
 His	CAC	9	0.692307692307692
 Asn	AAT	8	0.363636363636364
 Asn	AAC	14	0.636363636363636
 Ser	AGT	6	0.0882352941176471
 Ser	AGC	16	0.235294117647059
 Ser	TCG	16	0.235294117647059
 Ser	TCA	4	0.0588235294117647
 Ser	TCT	7	0.102941176470588
 Ser	TCC	19	0.279411764705882
 Trp	TGG	2	1
 Arg	AGG	12	0.19672131147541
 Arg	AGA	2	0.0327868852459016
 Arg	CGG	8	0.131147540983607
 Arg	CGA	2	0.0327868852459016
 Arg	CGT	5	0.0819672131147541
 Arg	CGC	32	0.524590163934426
 Ala	GCG	34	0.317757009345794
 Ala	GCA	10	0.0934579439252336
 Ala	GCT	16	0.149532710280374
 Ala	GCC	47	0.439252336448598
 Cys	TGT	3	0.428571428571429
 Cys	TGC	4	0.571428571428571
 Asp	GAT	21	0.617647058823529
 Asp	GAC	13	0.382352941176471
 Gly	GGG	16	0.156862745098039
 Gly	GGA	17	0.166666666666667
 Gly	GGT	18	0.176470588235294
 Gly	GGC	51	0.5
 Phe	TTT	6	0.3
 Phe	TTC	14	0.7
 Tyr	TAT	4	0.571428571428571
 Tyr	TAC	3	0.428571428571429
 Met	ATG	9	1
 Val	GTG	35	0.593220338983051
 Val	GTA	3	0.0508474576271186
 Val	GTT	6	0.101694915254237
 Val	GTC	15	0.254237288135593
 Thr	ACG	28	0.411764705882353
 Thr	ACA	8	0.117647058823529
 Thr	ACT	4	0.0588235294117647
 Thr	ACC	28	0.411764705882353
 Pro	CCG	30	0.46875
 Pro	CCA	8	0.125
 Pro	CCT	6	0.09375
 Pro	CCC	20	0.3125
 Ile	ATA	1	0.0169491525423729
 Ile	ATT	19	0.322033898305085
 Ile	ATC	39	0.661016949152542
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 228623	228949	-1	ref|NP_203484.1|hypothetical protein	40.8bits(94)	0.059
 230213	230902	-1	ref|NP_817999.1|gp26 	50.4bits(119)	7e-05
 236318	236710	-1	ref|NP_542287.1|unknown 	38.5bits(88)	0.29
 241697	242488	1	ref|NP_612994.1|hypothetical protein	69.7bits(169)	1e-10
 245817	246128	1	ref|NP_818345.1|gp44 	38.9bits(89)	0.23
 
 DNA sequence:
 TGTGATCACACCAGAGTTACTGGGGATACCGTTGACCGTGATAAATACCGGTTGATCGCCTGGCGTGAGGCCTGGCGGGACAATCGCGTTGATCTGCGCGAGCCCGGCGTAGCCCGGAGCCAGGCCCTGATACGTGACCTGCGCGCCCTTGCCGCCGATGGTTACCTGAACGGGTGCATTGACAATGGCTAACGGACTCACCGGCGCCGGTGTCCCGTCCGCCACCGCGGGCGTAACCGGACCTTCTCCCGTAAGGAACAGAATAACGGAGCCTCCGGCGGGAATGGGCGTCGCCGCCGAGTGCGGCGATAAATCCCCATTGAGTGCGGCAGTCCGCTTGTCTGGGCCCACGAATAGCCCTGGATCTACGGCGGTTAGCGCCGCGGAATGTTCCTGCGAAGCTCGCGCCGCACGACTGCTCACCGTCGCCTGGTTTTTGACCACCACCTGTATCGTGGATGGAGAACCACTAGGCATCTGGAAGTTGATCTGGGTGGGGCTGACGAAGAACAACGGTGCGGCAATTCCGTTCACGGTCACCGAGGTCGGTCCCAACTGGGTAGGCAGCGGATAAGACGACGCCACGTAAATTGCGTCCGACAGGTTTGTCCCGACCATGGTCATGATCGCGCGCGGAGCGCCGCCCGGTTGGAAACTGGCGCCATTGACCACGGCGAGGATCGTCGGCTGCAACTGGCACCCGCCCTGTCCGCACCCCACAATCAGCGTGACCGGCAGGGACACCGAGTTTACGGTACTGTCGGTCGCAATAAACAGCACCGAGCCGTCGTACACGCCATTGGCCAGGTTTGCCGGATTGACGGTAACGGTCACGGTGCCCGGAGTCTGTCCCTGGCTGGGAGTGACCTGGAGCCAGTTGCTTCCCGAAGGGGTGCTCACCTTCACCGACACGGAATAGGCGACGGCGCGCGAAGAGGAGGTTGCCTTCAGGGTTTGCGCCGCGGGGGTGATGGTGTTGTTGGCGGCA!
 CTGAAC
ACCAACACCTGCGGTGAGATGAGCAGGGCCGGTTTGTCGGTGATCACATAGGTCACCGGAACCAGATTCACGCCGCCCGATGAATCCGTGATGCGGATGAAACCCGAGTAATTGCCCACGGAGAGTGCGGCCGGGTTGACGCTAACGGTGATCCGCCCATTTCCGGTTCCACTGGCGGGCAGCGCAGCGAGCCACGAATTTGAAGATGAAGCGGTCCAGGTCACGGTGGCGCTCGCAGAGATTTGCACTCCTTTTCCGGACGGCGGCCCTTGATTGATTTCGCTCACAAACGCGACGCTATCGGGCGTTACACTTACTGTGCTCGATTGCTGTGGCAGGTTGGTCAGGGCAAAGGCCGCCGGAGAACTCACCGCGGCCGTTGCGGTCACCACGAAATTGCCGGCGGAGTTGTTGGCCGTAAGGGGCGGAGCCGTGGCGATGCCATTGGCGTCGGTTGACACTGTGGGCGGGCCGCCAAACGTGCCACCGGGTCCGGTCGCCGTAGTGGAAGCGAAGGTCACCGCAACTCCACTCACCGGGTTGCCCGCGGAGTCGGTCACCCGCGCCTGCAGCAATGCCGGGAACTGTTGCGATACGGTAGTCGCTTGCGGCGAGCCGCTCACGGCTGTGATGCCGGCCGGAACGCCCGCGGTGATCTGGAAGGGGTTGCTGTTGACCGGAGCTTGTTGTGTAGAGGTGGCGCGTAGCGTCGTGGTTCCCACTGCCCCAATCCTGAGGTCGTTGAATGTCGCCAGTCCCGTGGCATCGCTGAGTTGCACCACGGTTCCGAAAAGCGTCCCCGTACCGGAAGAAATCGACAGCAGCACGGGAATGCCGGGGACCTGCATCGCGTTTCCGTTGCTGCCGCGCACCTGCACGGTCACCGCCGGCGCAATGATTTGTCCCGCCGCGGCATTGCTGGGCTGCTGCACAAACGCCAGCGAACTTGACCCGGCCGGCAGATTGGTCAACTGAAACAACGCGGTTCC!
 GGTGATGGACGTGGAGGAAGCCGTCACGGTAAAGGTGCCGGCGATGCTGTTGCCGGTGATCACTGCCGCGGCATGGCCTTGGGCGTCGGTGTTGACGGTAATCGTTGACTGACCGCCGAACAGGCCGCCGGGGCCGGAGGTGGGGGCGGCGAACAGCACGGGCACTCCGCTCACCGGGATGCCTGCTGTGTCGGTGACCGTCACC
TGCAGCGGCTCGCCGTATACGGTCTGGATGATGGCGCTCTGTGGAGTGCCTCCTGTTGGCGTGATCGTCGATGCCGCACCGGCGTGGATCGTGAAGGAACTGCTTGTCGCCGAAGCGACACTTCCCGACTGGGCCGACAATTGATACTGGCCCACCTGGCTGATGCTGATACTTGAAAAGGTCGCCAGACCGGTGGCATCGGTGACTTGCGCCGCAAACGATAACGGTCCCGCCATGCGCGCTACAACGGGACTCACCTGCAGAGTTACCGGGACCTCTGCCGTTTGCACCTTATTGCCGAAACTATCTTGTAACTGAACCTTGACCGGGGGCGTAATCTTCGCGCCCGCTGCCGTATCCGTAGGCTGCTGGATGAAGGAAAGCTTGTTGGCCGAGCCTGCCAAATTGGTCAGGCCGAAACTTGCCGAACTCGCGCCGCCCGTGGTCGATGCCGTGACCTGGAAAGACCCTGCCTGTCCGTTCGCCGTCATAGCCGCCGAAGTGGCAACGCCATTGACATCCGTCATCACGGCGGCCGAACTCCCGAAGCTGACGCTGGCGCCCCCGGAAGAAGGCGCGGCGAAGGTCACCGAAGCTCCCGGAATCGGGTTCTGGAAGCTGTCCTGCACCAGCGCCTTCAGCGGCGAGGTATAAGCCGTTCCAACTGTAGCTGTCTCGCCTCCGCCGCTTATCGCCGTGATGGAAAGCGCCGAACCTGCGCCCACCGCGGCGGAGACCGTGAAGGATGTGCTGGCCGTGGCGATGCCCCCGCCGCTCGCCTGCAAGTTGTATGTGCCCGACTTCTGGATGGTGAGACCCGGGAAGGTTGCAATACCGGTCGCATCGGTATTCGCGGTTGCCCCTGAGACTGCCGTCCCGCCGGGGAGGCTTAACGTAATCGCCGTGGCGACGATTGGATTATTGTTGGCATCTTTGAGACTCACGGCAACTGGAGGACTGATCGGGCTGCCCGCGAGCGCGTCACTGGG!
 TTGCCT
GACAAATGCGATGGTTTGGGCCGCACCAGCGAGATTGGTCAGATTGAACGTCGCAGGAGCCACCACCCCCACCACGCTCGCTGCCACCGCATACGAACCGGTGTTTGCATTGGCCGTTGCCGTGGCGCGGGCCACCCCGCTGGAATCCGTCATGACTTGGGCGGGCGAAAGTGTCGCTGATGCTCCGGAGGCGGGAGCCGAAAATGTTACTGACACGCCGGTCGATGGGCTGCCGCCCATGTCCGTTACTTTGACCTCCAAGGGGCTCACGAACGGAGCACCCACCGTCGCGCTCTGCACTCCCCCGCCCGTCACAGTGATGGACGACGGAGGCGTGAAGGGGACGTCGAATTCGATGGCGACGTTGGGGCCAGGGTTTCCCATGTCGAGGCGAAAGATGCCGGTACCACCGCTGCCATTGTCCACGTAGGCGGCACCTACCGAGCTGTTCAGGTAAACCGGTGCGATCGGGCTACTGTTCACCGCGTTGGCCGGATTCAGGCCAACATTAAGGTCATTGTACGGACCGTCCGCGCCGAGAGGAGATTGACCGCCGTCTTGGGTGTTGTATGCGATGCCGAAGATAACCTGATCGGGCATAGACGCCGACAGGCTACTTAAGTCGAAGGTGATCTTGAACGCCATGCCGTTGTGGCAGCCGTCGGGGGCGCGCCACATCGTGGCCACGGGGCAGTCGGAAGACGGTTCCGTTCGCCAGGGAATCATGAACGTCTGCTTGAAAGATGCGAATGGGCTGCTTGGATTGCTCACGGAATAGAGATTGAGCGTGATGTCGTGGCTCCATGGGGCGGTGTTGATCGCAAGGCCGGGGTGGTATTTCGAGTAGTATCCCCAGGTGACCATCGCGACAGTCACCGAGGTCACGTGACGGTTGGTCCCACTGAACGTAACGAGGTTGCCGTACTCGGAGACGCGCCAGGCTTGAAAACTCTCGCTGGTCAAACTCGCCGGAAGGGTTGTGGGGATGT!
 TGTCGTAGATAGGTATGGTTTGAGCATTCAATGCACCCCCAAGAATGAAAGCGACGACGAGCGT
CAAAATCCGTTGCATAGGTTCTCCCGTGAATTTCGTGGGTCAAGTTGGGCTGATTGAGGAACAGTCCAAGCCGTTAGCCTTCGGGCGGCAACCGGGATCTCGATTCTGCTCTCTCCGGCCTGGCAAGCACCCGTAACAGCGGGGAAGTTAGTCGAGTTCGTCTGGCCGGCGAACGATGAGAACGAGTTCCCTCCGCAAGTCGCAGCCACAGTGGCGAAGGCGCGTGTGTTTCGCTGCCTTCCTTGATGCCTCGTCATGAGGCCTCCTGATCAAACCGTGATCGGTCTGATATTCGGGACAATAAGAACGTAGGCCCTCTGCAGGCCATTCCTTGCGGAACCGGATCTCACCACCGGACCCTCTGATGGCTCGTGGCAAGCGCGCGGTTTGCTACGCGAGCATTGGCAGTGTCGATGCAGTGATCTGCTGACAGATGCAACAATTTGTACGAATCGTAAGTTCGGGTAAACGCCGGATGCCTGGACCGTTGAGGTCGTACGGCGAGCAACTGTCGCACTTCTTCTCGTACACAGGCCGCGGGACAGCGCCGCAGCCCGGCAACCGCTGTCCTGGCCTGTTCCCGCATCCTTGCGTCAAACGCAGTTTCTCTTCGTTTGCGCGTGGAAGCTTAATAGATTGCGCCGGCCAGAACCGCGCATTGCAGCATTTCTTCATGGCACAAGGCCTGCGCGCACACTTGTATGTCGTCGCCAACCCCCCGCCGCGGCCAACCCCGCTTGTACTCGATCGGGTAGGATGCCCAACGGCCTTGTTTGCTGGGCAAGGTGCACCCGCTCACCGGATCCGCGCTCAAATGGAACTCCACTACATCCACTTTGCCGGTGATGACTAACTCGAGAGAGCGGATCCCGACCCCCATAACTGACAATCAGCGCCGCCCGCGATTCCCGACCCACATCGTCTCTCGGTGCCGTTCTCTGTCATCGAAGCCAGACATTTCTGAACGAGACTTCTTGTCGCTAATGTCA!
 ATAACG
TCGTGTTTCGGCCCGAGCGAAGAAGGCCCATTGTTATGGCATCGGCTCACCCCGTTCGCGCGGAGTTCGCGTCGCGCTCCCGTTCATTGGCCGGCGCGGAAAACTCACAGCTTCTCCTGTACGCCGGTGCGGCATCGTACCGCGAACCGCGATTCCCAGTGGTGTCACGGTGACTATAGCTTAAAAGGGCTAATTGTCTTCGACCGAAGCCGGACGTAGAATCGCGGGGACGAGGAGGCGCGCATCATGAGCAATCAGCTGCAACTGGGCTTTGCTACGAGCATGGTCCCTGCCGATCAGACCTGGTGGTGGTATTACGGACTCACCGGCACCCAGGTTGGTCAACTCTTGACTGAGAACAAGGCGATGCTTACCCGCGTGGAGGCATACGTCGATACGGACAACACGGTAAAGCTGTCTGTCATCATGCAACCCGCTACCGAACAATGGTGGTGGTGGTATGGCATAAATGCCGACCAGGTAGGTCAATACCTGGCACAGAATAAGGCGCAACTCACCGATATCAGCGCTTACATCGACACGGACCACCAGTTGAAATTTGCGGTGATCATGAGGCCTGGAACAGGGACAGGGTGGTGGTACGGGTGCACAGCCGCGCAGGTCGGAGAACTGCTGACACAAAACAAAGCACGGATTGCCGCGATCAGCGCCTACACGGACACTGATAATAGCGTGAAGTTTGCTTTCGCGGCTGTTCCCGCAGATCAGACCTGGTGGTGGTACTACGGCGACGCGGCCTTTATCGGGCAGCAACTGACGAACCATAAGGCCATGCTCACTGACCTCAGTGCTTACATCGAAAGCGGCAATACCCTGAATTTCGTTGCCGTCATGGCCCCGGCCAACCAGGCTGCGTGGTGGTACTTTGGCAGCCCAAGCTTTATCGGACAGGAACTGACCAACAACAAGGCGCGGCTGACCGCCCTGTCGCCGTACCTTGTGGGCCCCGCGGAGATGTCCTTCAATGG!
 CGGGACGGGGTCCGGTACCACGAGCAGCGGCGCGACCGAGTGTGCTTACGAGTTGAACCTGATC
CTACAGGCGGACGGGACCTGTCATTTCTGGGGCTCCTATACCAACCGCGGGGATGTACCCATCATCACGGCGCCTAGCCAGACCTTCGGCGTCTCGATGATCGTGCTTGATGCAAACGGGAAGGGGTACTCGTTCAGCGCCGGCGGTCAGGTGCCTTCCGCGCCGCAGAAGGGCTCTACCTACACATGGAATCAGACGACGAAATCCGCCGCGATTGCGGCGAACTGGAGCGCGATCGCCGCGAGGAATTATGCGAACTACGGGTATCAGAACCAAGCCTCGATAGGCGATATACTCGGCGAGATCTTGGGAGCAGTCGCAACGGTAGCCAAGGATGTGGGTATCGTGGTCGGAGCAATTACGGCCGTTATGGCGCTGGGAGGCGGCGGTCAAAAAGGTACCACCGCCCAATCATCTGCTGCGGGATAGCAGTGGCACCTCAGTTCCATACGCTCGGCCGTCGAACAGCGGGAAATTGCTCAGGGTGGGCACAAATTTGGGTACATTGCAGAAACGGCGGTTGAAAGCCCAAAGCCTTCAACCGCCGCAATTCAAGTATGCCAAAAGAGATAATTGGTCGGGGCGAGTGGATTCGAACCACCGGCCTCCTGGTCCCGAACCAGGCGCTCTACCAGGCTGAGCCACGCCCCGAACTTTCTAGTTTAGTCTGTTGCACCCCGCCGACACAAGCGCGTACCATCAAATTCGTGAGCGAGGCCCGCCAATTACGCGAAATTCCCGCCGTGAACCAGGTTTTGGAACGGCTTTCGGACGCGCTCGCACGATATCCGCGGACTCTGGTGGTGGAAGAAGTCCGGCGCGCACTGCAACAGGTGCGTACCGGGATTGCCGCGGGAAAGCCCGACGGCCCACCCGTCGAGGCGCGGGTCGTTAGCGCGCTCGCGGCGCTGGAACGGCCTTCCCTGCGCCCCTTGATCAACGCGACCGGGGTAGTGCTGCATACCAACCTCGGACGCGCTCCCCTCGGC!
 TCGATC
CCACAGGTTCCCGGCTACTCCAACCTGGAATACGATGTCGCCGCCGGCAGGCGCGGCAAGCGCGACGTGCATACCGCGCAGCTGCTGGAGCGGCTCACCGGCGCCCACGCGATCGTGGTCAATAACAACGCGGCCGCGCTGTTTCTGGCGCTCAACGAACTGGCGGCGGGCGCGGAGGCCATCGTCTCGCGCGGCGAACTGATCGAGATCGGCGACGGCTTCCGCATTCCCGACATCATGAAGCGTTCCGGCGCGGCCCTGCATGAGGTGGGCACCACCAATCGCACCCACATTGACGATTACCGCGCAGCCATCAATGACCGCACGCGCGTCATCCTGCGCGTCCACCCGAGCAATTTCCGGATCACGGGATTCACCGCGCGGCCGGAATTGCGCGAACTCGCGGCTTTGGGCCGTGAGCGCGGAATCCCGGTCTACGAGGATTTGGGCAGTGGCTGCATCGTGGATCTGCGCGCGTTCGGAATCGACGAGCCGCTGGTAGCGGAGAGCCTCGCAGCGGGCGCCGACCTCGTCTCCTTCAGCGGCGACAAACTCCTCGGCGGTCCACAGGCCGGGATCCTGGCAGGGAAACCGGAGATCGTCTCGCGGCTGCGGCGCAATCCGCTATTCCGCGCCTTGCGCGTAGATAAGCTGATTATCCAGGCCCTCGAGCACACCCTGCGTGCGGTCCTCTTGGAGCGCTGGGAGTGCGTGCCCGCCCTCGGCATGCTGCGCCAATCGGCCGGCGAGATCCGTTCACGCGCGACTGCATTCGTAGAAGGCCTCGTGGGAGTGCGGGCAGAACTGATCCCCGGAGAGAGCGTGATCGGCGGCGGCGCTACACCCGAGCAATCGATTCCGACGTGGCTTATCGCGGTGGAATGCCCCGACGTGGCCGCCGCCGAACGCCGCCTGCGCGCCGGCGACCCCGCGGTCGTAGCCCGGATTGAAGAAGGCCGCCTGATCCTCGACCTCCGCACCGTGTTCCC!
 GGAGGAGGAGCCCGCCCTCGCGACGGCGATTCAGGATGCAACGGACTCTCCACGCGAACCGCGA
CCGTAAGGTAAGGGAGCCGATCTACATGCCTTTTACCCTATTGCAATCTGCAAAATCACGCAAACATGAAAAATATCTTCGCGTTGTTATCAGCAACTTAGCCGACTTACCCACCCTATACTCCGAAACCGGTGTGCTAAATTGCCAATCAGGTAAAGAGTTGCGCTGACCACGGCGCAATACCAACAGTTTTTATCCTGGCCAGGATACGTTGACCTGAGGTGGTGCTGACTTTCCGTAAGCCCGTTAACGGCTGCACGGTGGTTCCCCTACGTGGAGGAGACCGGCGGAAAGATCTTCGGTTCGAACCGATAATACCCGGGGGACCGTCGCGGATAGCGTTTGATTGCCGCACCCCTGGATACAGAGACTGCTACGCGAAACAAGGGGACGATCGAGAGGCCATCCAGCCGAGTTCTTACGTCTTTGTAGCGTGCAGTCAAATCACTGGCGGCCGGGCCCCACCCGGCGATAAGACCGTATGTCCCCGGCCGCCGCAACGAACAAGTACTCCCCCAACTAACGGCACACGTGTGTCCGCTCGGGATGCCGCTACGCGCGTTCCTGGTAGGTGCCTTCTGTGGTGTTCACCCGGATCTTTTCGCCTTCCGTGATGAATGGCGGGACCTGAACCACCAGGCCGGTTTCCATCTTGGCGGGCTTGGTCACGTTGGAGACGGTGGCGCCTTTGAGCCCCGGCTCGGTTTCCACCACAGTCATGTCCACGGTCGGCGGAAGCTCCACGCTGATGGGCTTGCCTTCGTAGAATTCTACGGACAATTTCAAATTGGGGATCAGGTAATTGGTCGCGTCGCCGAGCAGGTCTTTCATGAGGTGCATCTGCTCGTAAGTTTCGATGTTCATGAAGTAGTAGTACTCGCCGTCGTCGTACAAGTACTCCATTTCATGCTGTTCCATGATGGCCTTCTCGACCTTGTCTTCGGACGAGAAACGGTTCTCCGTCATGCTGCCGGTGCGAAGGCTGCGCA!
 TCCTGG
CCTGCACGAAGCCGCGCAGGTTCCCGGGGGTCCGGTGGTTGACGCTAAAAACGGTGTACAGTTCGTTGTTGTACTTGATCACCATTCCCGGACGCAGTTGTGTTGCTGAAATCATGAAACTCCTCTATGTGTTGTTGACGCTACAGAAACTCTAGTATAACAGGGGCCGAAGCCCCCGCTAAAACGGGAGTATCTCTTCACGTACCGGGTCGAAATCGATGCGCCGCTTCTGCATGTAAGAGATGTTGCCGAGATGGCTGGCCTGCGCCGAGCGATGGCCCACCAGGACGTCGCCATTCGGCTTATTGCGCGACTTCACGCATTCCAGGAAATTCTCGACGTGATCCTGATCGATGTTGCTGGATGCCTTGACGTCGATCGGCGTCGCGTTGCGGCCCAGCGGAGTGTAGGTATAGTGTCCGCGATCGATGTAGAGGCGGCCCAGAGTGCCGCAGAATTCGATGCCCGCGCCGGTGACGCCGGGCACCAGGGTCGCTTCGAACGTCGCGGTGAGGTCCTTCGGATATTCCAGCAGGACGTTAATCGTGTCCGGGGCGGTGCGGCCGTCCTTATAGTTGTAAACGCCGCCGATGGCCGAAGCGGCAATCGGGATGTCCTGCCCCAGGAACATGTGGACCACGTCGATCCAGTGCGTGAACAGGTCGGTCACCTGGCCGCCGCCGAAATCCAGGTAGGCGCGCCAGTTCCAATACTGCTGCGGGTCCCAGTCGCGCCACTTGAGCGGCCCGAGGAAGCGCGACCAGTTGAGGTTCGATGGCTGGTCCTTCAGCGATGCCGGAGCCTTGCGAAGGTGGTACCCGTTGCCGTGCCACCACGTGCGGGCGAGCGTGACCTTGCCGAGCTTGCCGGAATCCACGTAGAGCTGCTTCGCCTCGATGTAGTGCTTGCCCGAGCGCTGCTGCATACCGACCTGGCAGACGCGGTTGTTGACGCGCGCGGCCTTCACGATTTCCGGACCCTCGTCAATC!
 TTGAGCGTCAGCGGCTTTTCGACGTACACGTCCTTCCCGGCATTGAGGGCGTCGATCGCGCAGG
AGGCATGCCAGTGGTCGGGAACGCCGATCAGGGCGACATCGACCTCCTTGGTTTCGAGCAGCTTGCGATGATCGCCGAAGGTCTTGGCATTCGGCGCGGTGGTCTTGGCCGCGTCGATATTGTTGCCGTAGATGTCGCAGAGCGCGACCACATCCACCTTGCCGCTCTTGACGAAATTGCCCATGTCGTAGCGGCCGCGTTCGCCGCAGCCGATCAGGCCGAGTTGAATGCGCTCATTCGCGCCATAGACTCGGGAATAGGAAAGCGCAGTGGCGGCGCTGGCAGCGCGCAGGAATGTCCGGCGTGGGACATCATTTTCAGGCATGAGTCGATTATATGCCCCCGCGCCACCTCTGTACTACTGTGCATTTGCCTGCTCGCAGGCCGCAAACATTCGAGGGGCCCGGCATTGTGGGGCAGGCAATCCTGCCTGCAGCCGCCTTTCAGGCGGCTCCCTCGTTCACGCTCGCCACTCCGCCGATCGCGCGCCGTCTCCCAGCTCGCTGCCGCCGATTTCAACCGGTGCGTCGAACCGGATGCGGATCATCGTAGTGATATTGAGGACTGCGTTGGCGAGTTCCAGAACCGTGCCGCCGATCGAGCCGGTGAGAATATTGTTGGCCAACCAGAGCAGAGTGCTGGCGAGCAGTACGCAGCGAAAAGGAATTCCGCGCATCGTGAAGATTGCGATAGTCGCGATCGTGGAGGCGATGACCGGCAGCCAGCCGCTCTTGCTCGTGGCGAAGGCGGCGCCGAGCGCGATATTGGCGGCGACAATCACAGCGCCCAGCAGCGCGGAGCGAAAGCGGAGCGCGAGAAAAGATCGCACCGACGAGATCAGGGCGCTGGAGCCGGCGGGCAGGTTGCCCAGCAGCACGAAGTGAAGGGCGTAAACCAGGCCCTGCGTAGCGTTGAAGAGTTTGAGGCGGTCGTCGTGCTTTTGCAGGAACGCCGTGATGCCGAGAGCCAGCGCAATGTAGCCGGCCACT!
 TGAGCC
GGCGCGAAGAAGTGCATGAGAAGCGCTTATTTTAACGGAGAGCGGACAGCGTGAGATCAAGCCCCGTCGTCTCGTTGGGCCGGACAGTAAGGCGGGCCGCGCGCTGCAGGATGGCTGCATTCACGCCGCCGGGCCAGAGTTCATAGCCGGGAACCGCGACGGCGTAATAGTCGCCGGGGCGTACTGCGGTGAACTCGAAGCGGCCCTCGGTATTACAGGCGGCGAAGTAATTGCGCGGTGGCGGACCCTGTTGGGGGATGAGCCAGACCTGTCCCGTTCCGCATTTTTCGACAGCGCCGCGCACCGTGCCTCCGTTGGACTTATAAACGATGGTCAGCCCGGGCGACCCCGCGGAGAGTTCGAGTTCCTCCAGCACCGGAGTCTCCCCGGCGCGAACCGATTCGACGTAGAACCCCGGGGGCGGCGGGCCGGGAATCACGCGGTAGCTGCCGGGATAGAGCTCGAAACGAAACCCGCCGTCGGTCGCGCCGTCGGCCTCGACGATACTCTGCCCCTGCAGCAGGATCTTGCCGTTGTGCTGCTTGATCAGGGTCACCCTGGGCGGCACCGGTACCGGCATACCCTCGCGGGTTTCGACAATGACCTTACCGGAGACCGTGAAGGGCGGCGTGAGGCGCAGCTTGAGTGCGCTCAGATCGCGGCCCTTGATCGTGATCCACTGTTCGGCGAGGGCACGGTCGGATTCGGCGGAGAGTCGCCACTCGCCATCGGGTACCGACGGAAGTTCGAAGACGCCATCGGGATTCGATACTGCCTGCACGAACGCATTGCGCCGTGGACCGGGTTCCCATAAGGCCACCGCGACTTTCGCGACCGGGTCGCCGTTCGGGTTGAGGAGAACGCCGCGGACAGCATGCACGGGCGCTGCCAGCAGTTTGAGCTCGAGGCCGGGCAGATCTTCGCCGGCGTGCAGCGCAATCGGAATAGCCTGCTCCTCAAAGCCGGCGTTTGGATAGAAACTTCGGACC!
 CAGGCGCGCGGCTCGTGCGTATCGGGATCGGGAGCGGGCGGTTTCCCCGCAAGCGGCGGAGCCA
CCGAGAGTGTATAAGGTAGCGCGGCGGGAATCACCGAAGGCATGTCGAAATTGCCCTTGGCATCGGTCTCGGCCTGCCAGAAGGCGGAGCCGGTGGTCAATTCCACGCGGGCTTTCGCGACCGGGTCGCCGCTGCCATCGATGACACGGCCGGCGATGCGGCTCAGCGGAATCATCCGGCGTTCGATGCGCACCGGCAGCCCGCCTGCGCGGATGCGAACCTGCAGGGTATCGCCGGGCACGCTGGGCGAAAAGTAACGGGTTGCCGAGTAGCGGACGGAGTAGTCGCCCTCACGAAGTTCCGAAAAGCGGAAGCGGCCCTCGGAATCCGTCACGGCGACATAGGGCGTCTTGTCGCCCTGCGAGAGGGCGACCCGGACACCGGGGATTCCGGCCGAGCTGACCACGTCGGTGACCACCCCTTCGAGGGTTTGCGCGGCCAGGAACCCCGCGGCAAGCAACAGAATGGAGAGGAGCTTCACCACTCAGGCAAGACGCCGCGGGCCCCGGGTTTGTTACCACAATCCACCCCGGAAGTCGGGCGGGTGTATACTTCCAAGCGAATGGGTAGACTGGCCTAAGCGCATGGGCATGCAGCAATGATCGGCCAGACGCTGGGCCATTACCGGATCGATTCGAAGCTGGGCGAAGGCGGGATGGGCGTGGTGTATCGCGCTTTCGATACCCATCTCGATCGCCCGGTCGCCATCAAGCTGCTGCGCCCCGATGCCATTGGCAGCGCCGAACGCAGGCGCCGCTTCGTGCAGGAGGCCAAATCGGCATCCGCCCTGAATCACCCCGGCATCATTCACATTTATGACATCGACAAGGCGATTCTGCCGGAAGGTCCCGTCGATTTTATCGCGATGGAGTTCGTGCCCGGCCGAACGCTCGAACAGTGCATCGGCAAGGTGGGGCTGAGTCTCAAAGATACCCTGAAGTTCGGAATTCAGGTCGCCGACGCCCTGGCCCGCGCCCACGCGGCCGGCA!
 TCGTGC
ACCGCGATCTGAAGCCGGCCAACATCATCGTCTCCGATGATGGCCGCGTGAAACTACTCGACTTCGGGTTGGCCAAGCTGACCGAGAAGATCGATGGTGATCCGGATGGCGTCACAGCGACCATGGGGACCGGCGAAAGCCCTGAAACCGATGAAGGAACTATCGTCGGCACCGTGGCCTACATGTCGCCCGAGCAGGCCGAAGGCAGGAAGGTGGACGGCCGCTCCGACATTTTTTCCTTCGGCTCGGTTCTCTATGAGATGGCCACGGGACGGCGCGCATTCGAGGGCATCAACAAAATCTCAACGCTTTCCGCGATCCTGCACAAGGAGCCGAAGGCCGCCAGCGAAATTTCCCAGGCCGTGCCGGTGGAATTGGAAAAGATCATCGCCCGTTGCCTGCGCAAAGATCTGGAACGCCGCGCCCAGGGCATCGCCGATATCAAACTCGCCCTCGAGGAACTGAAGGAAGAATCCGAGTCGGGCAAACTGTCCGGCCAAATCGCGGCCGTTGCGCCTGCGCCGCCGCCCCGTCGTTTTGCCGCGATCATCGCTGGAGTCGCTGTGCTGGCGGCAACTGCGGCGGGCCTTGCCTGGTGGCTGCTGAAGCGGCCTGCGCCCGCGCCGGCCCGCTCCGATTGGGTGCAGATCACGAACCTGCCGGATTCCGCCGTGCAGCCGGCGCTCTCGCCGGACGGCCGCATGCTCAGCTTCATTCGTGGCCCCTCCAGCTTCAGTTCTGCCGGTCAGGTCTACGTGAAGATGCTGCCCAGCGGGGAGCCGGTCCAACTCACCCGCGATGATAATTTTAAGTTGAACCCGGCTTTTTCACCGGACGGGTCGCGGATCGCGTACTCGGTGGCAGGGGCCCCGATTTGGGACACCTGGGTGGTACCGGTTCTGGGGGGAGAGCCGCGTTTGTGGCTTCCGAACGCTTCGGGCCTCGTTTGGTTCGGAAAATCGAAGCTGCTGTTTTCCGAGATCAAAGAT!
 CAGCTCATGCATATGGCGATTGTGAGCGCCGATGAGAGCCGGGCCGGCTCGCGGGATCTCTATG
TGCCGCCCCACGATCGCGCCATGGCCCATCGCTCTTATCCCTCACCCGACGGCAAACGAATGCTCGTGGTGGAGATGGACGAGTGGGGATCCATCGTACGGTGCCGTCTGGGTCCGCTGGACGGCAGTTCGCCCGGGCAGCAGATCGGTCCGCCCAGCGGGGCCTGCATGTTCGCCGCATGGACGCCCGACGGGGAGTGGATGTACTTCAGCTCCAGCTCCGGCGGGGCCTACCATATCTGGCGTCAGCGATTCCCCGATGGCCAGGCGGAGCAGATTACTTCGGGGCCGACCGAAGAAGAAGGACTGGCCATGGCGCCTGACGGCCGCTCGTTCATCACGGGCGTGGGACTGAAGCAGAGTTCCATCTGGCTGCACGACGGACGGGGCGACCGGCAGATTTCGCTGGAAGGTTACGCCTTCTCACCCAAATTCATCCCCGGTGGGAAGCGACTGCTGTACCGGGTACGAAAAGGATCTGCGAGCGAATTGTGGGTGGCGGAACTCGATTCCGGACGTAGCGAGCCACTGCTGCCGGGCTTTGCTGTTGCGACCGCTGGTGATGGTTCTCTGGGAGGTTACGATGTTTCCGCGGATGGCCGTCAGGTCCTGATGGCGTCCCGCGATAGCGCCGGCAAAACGCGGTTGTGGCTCGCGCCGCTCGACCGCGCCTCGGCGCCCCGGCAAATTCCCAACGCAGAAGGGGAACAGCCGGTCTTCGGCTCGACCGGTGAGGTTTTTTTCCGCGGCATCCAAGGAACCTCCGCGTTCCTTTACCGTGTCCAGCAAGACGGAAGCGGGTTGCGAAAAGCCAGCGACGTGCCGATTGTCGGTATCCCGGGCGCATCCCCAGACCGTAACTGGCTGCCGTTAAGCTCTCATACGACGGGAGGCATGGTGCTTTTCCGGACTGATGGCGGCGCTCCGCTTATGACACGGATCCCGCCTGCAACGAGGCTCGAGTGGTCCGGAGACCGGAAATACTTGTAT!
 TTGCAG
AGATTGGGTGTGAATAGCACGGGCAAGATCTACGTCTTGCCAGTGGCCCCGGGGCAACTCTTTCCCGAAAGATTCGACCATGGGCTGCCGCGTGAGCCGGAACTCTTGAAGATGCCGGGAACTCGGGTGATTCTTTCGAATGACGTTGCGCCTGGGCCGACTGCAGATGTGTACGCCTTCACGCGCGAAAGCGTGCAGCGCAACTTGTATCGGATTCCGTTGCCATGAAACGGCGCGCGTCTGTGACCTGGAGAACTCTTGCGAAGCCCAAGTGTGCGCAGGGGAACCAGGCGAGCCGCGGTAACTGAAAAATCACTTTCAGCGGGAGCGGGGATATCCGATTCTATAGCCTGAAACTATGAAAGCGATATCGATACTCGTGCTGCCATTTCTCGCGCTGGGTTTCGCTGTCAGCGGGGCTTCAGGCGCGGCGTTGATTCCAGCGTCGTCATTCGTGCAACCGACCGTTGCCATGTTCAATACGCCGTCCTTGAACTTCACGGCGCCGGCGGCGTACACCGAGTCGGGGGCTACGTTCCGCGCGGGAGTGCCGGGCGGCACTCTGTTCTTGTTCTTTGGCATCCTCGATCTAGCCTCCTCGTCGCAGAATTTCCCGGCGGGGCTCTTCGATGTTTCGTTCGCGAGCCCGGAACGGCGTTTCGGTTTCGTGGGGAATTCAGCGGTGCCCCAGATCACGAATCCCACCACATGGACGGTGACGCGCGTGGACTTCTTCGCCAATCCGGATTTCACGGGACTGTTCGAAAGCTACACCACCGCGTTTCCGGTGGGCACGAGCCCGACGTTTTTCGGACTGGAATCGGCGGGCGAGTTCCAGGCAGTGCGCATCTCGCTGCTCTCGACGGGGAGTGGGTTCAGCCCATACCTCGATGATTTCCGGTTCGATAATTCACCGGAACCGGGCGGCATCTGGCTGATGGGCGCGGGGCTCGCCGCGGTGCTTGTCGGTTCGATCAGGCGGCGCCCCA!
 GGTCGTGATTTGAAAGCCCTCAGGTCACCGCTGCTGTGGATTGCGATCTTGTGCACGGTGCCAT
TTCTCGTGGGCACCGGCTCGGAGTTTTGGGGCGACGATCGCTTCCTGATTTTCCAGCGACTGGAACCTGGGAGCGGAGCTTCGCCGCTGGAATTCTTCCACCAGGATTACTGGATGGGTGTCGAGGAGAGCGGCCTGTACCGTCCGGTGGGGCTCTCTTTCCTGCTCGCCGAGCGCGCCTTGTTCGGCACGTGGGAACCCGCCTATCGCGCCGTATCGCTCCTGCTGCATTTCCTGGCGTGCGTGCTGCTCTGGCGCGTCTTCGCGCAGTTAGTGGGGCTGCGCGCGGCCACCGTGGGCGCGCTGATTTTCGCATGCCATCCGATTCACGCCGAGGCGGTGCTGCCGGTCTACGGACAACTGGACCTGCTGGCGGCGGCGCTCCTGGCGGCCGCCTTGCTGGCCAGGCGGGCGGGACGCCACTGGACCGGAGCGGCAGCATTGGGCCTCGCTTTGTTGTGCAAAGAATCGGCGATCGCGGCGCCGCTGCTGATGTTGTGGCTGGCGTGGACCGCGGCACGGCGGGTAACGGCGGCCGAGCTTCCGTATTGGCCCGTGCTGGGCGCGGTGCTGGCGCTGCGGATCGCAGTGCTCGGCACCGTGGGACTTTCGCGGGAAGCCACGGTGCTGGGCACGGGAGGGATCGGGCTGTGGGCGAACTCGGTGATTGTGACGGTGGGCCACGCGATCCGGCTGTGTGTGTGGCCCACGGGCCAGACGGTTTACTACGGCCACCTGCGCGACAGCCTGCGCGGGGTTCCGGTGGTGGAGGCGCTGTGGATCTGCGCCGGAATCGCGCTGGTGTGGCTGCTTGCGGGATGGCTGCCGAAAGACTCGACCGCCGTGGCGGCCGGCTGGTTCGCGATCTGCCTGCTGCCGGTGGCGAACGTTGTGCCCATCGGCGTGCTGGTGGCGGAGCGAACGCTCTATCTGCCATCGGCGGGCATCGCGGCGCTGGCGGGATTGTGTTGGGTGAAGGCGGC 

 Predicted Gene Sequences:
 >PredictedProphage2 -Hit 1 
 GCACTCAATGGGGATTTATCGCCGCACTCGGCGGCGACGCCCATTCCCGCCGGAGGCTCCGTTATTCTGTTCCTTACGGGAGAAGGTCCGGTTACGCCCGCGGTGGCGGACGGGACACCGGCGCCGGTGAGTCCGTTAGCCATTGTCAATGCACCCGTTCAGGTAACCATCGGCGGCAAGGGCGCGCAGGTCACGTATCAGGGCCTGGCTCCGGGCTACGCCGGGCTCGCGCAGATCAACGCGATTGTCCCGCCAGGCCTCACGCCAGGCGATCAACCGGTATTTATCACGGTCAACGGTATCCCCAGTAACTCTGGTGTGATCACA 
 >PredictedProphage2 -Hit 2 
 ACGATCCACGCCGGTGCGGCATCGACGATCACGCCAACAGGAGGCACTCCACAGAGCGCCATCATCCAGACCGTATACGGCGAGCCGCTGCAGGTGACGGTCACCGACACAGCAGGCATCCCGGTGAGCGGAGTGCCCGTGCTGTTCGCCGCCCCCACCTCCGGCCCCGGCGGCCTGTTCGGCGGTCAGTCAACGATTACCGTCAACACCGACGCCCAAGGCCATGCCGCGGCAGTGATCACCGGCAACAGCATCGCCGGCACCTTTACCGTGACGGCTTCCTCCACGTCCATCACCGGAACCGCGTTGTTTCAGTTGACCAATCTGCCGGCCGGGTCAAGTTCGCTGGCGTTTGTGCAGCAGCCCAGCAATGCCGCGGCGGGACAAATCATTGCGCCGGCGGTGACCGTGCAGGTGCGCGGCAGCAACGGAAACGCGATGCAGGTCCCCGGCATTCCCGTGCTGCTGTCGATTTCTTCCGGTACGGGGACGCTTTTCGGAACCGTGGTGCAACTCAGCGATGCCACGGGACTGGCGACATTCAACGACCTCAGGATTGGGGCAGTGGGAACCACGACGCTACGCGCCACCTCTACACAACAAGCTCCGGTCAACAGCAACCCCTTCCAGATCACCGCGGGCGTTCCGGCCGGCATCACAGCCGTGAGCGGCTCGCCGCAAGCGACTACC 
 >PredictedProphage2 -Hit 3 
 ATCAGTTCTGCCCGCACTCCCACGAGGCCTTCTACGAATGCAGTCGCGCGTGAACGGATCTCGCCGGCCGATTGGCGCAGCATGCCGAGGGCGGGCACGCACTCCCAGCGCTCCAAGAGGACCGCACGCAGGGTGTGCTCGAGGGCCTGGATAATCAGCTTATCTACGCGCAAGGCGCGGAATAGCGGATTGCGCCGCAGCCGCGAGACGATCTCCGGTTTCCCTGCCAGGATCCCGGCCTGTGGACCGCCGAGGAGTTTGTCGCCGCTGAAGGAGACGAGGTCGGCGCCCGCTGCGAGGCTCTCCGCTACCAGCGGCTCGTCGATTCCGAACGCGCGCAGATCCACGATGCAGCCACTGCCCAAATCCTCGTAGACCGGGATTCCGCGCTCA 
 >PredictedProphage2 -Hit 4 
 GAAGGCGGGATGGGCGTGGTGTATCGCGCTTTCGATACCCATCTCGATCGCCCGGTCGCCATCAAGCTGCTGCGCCCCGATGCCATTGGCAGCGCCGAACGCAGGCGCCGCTTCGTGCAGGAGGCCAAATCGGCATCCGCCCTGAATCACCCCGGCATCATTCACATTTATGACATCGACAAGGCGATTCTGCCGGAAGGTCCCGTCGATTTTATCGCGATGGAGTTCGTGCCCGGCCGAACGCTCGAACAGTGCATCGGCAAGGTGGGGCTGAGTCTCAAAGATACCCTGAAGTTCGGAATTCAGGTCGCCGACGCCCTGGCCCGCGCCCACGCGGCCGGCATCGTGCACCGCGATCTGAAGCCGGCCAACATCATCGTCTCCGATGATGGCCGCGTGAAACTACTCGACTTCGGGTTGGCCAAGCTGACCGAGAAGATCGATGGTGATCCGGATGGCGTCACAGCGACCATGGGGACCGGCGAAAGCCCTGAAACCGATGAAGGAACTATCGTCGGCACCGTGGCCTACATGTCGCCCGAGCAGGCCGAAGGCAGGAAGGTGGACGGCCGCTCCGACATTTTTTCCTTCGGCTCGGTTCTCTATGAGATGGCCACGGGACGGCGCGCATTCGAGGGCATCAACAAAATCTCAACGCTTTCCGCGATCCTGCACAAGGAGCCGAAGGCCGCCAGCGAAATTTCCCAGGCCGTGCCGGTGGAATTGGAAAAGATCATCGCCCGTTGCCTGCGCAAAGATCTGGAACGCCGCGCCCAGGGCATCGCCGATATC 
 >PredictedProphage2 -Hit 5 
 GACGGTGGGCCACGCGATCCGGCTGTGTGTGTGGCCCACGGGCCAGACGGTTTACTACGGCCACCTGCGCGACAGCCTGCGCGGGGTTCCGGTGGTGGAGGCGCTGTGGATCTGCGCCGGAATCGCGCTGGTGTGGCTGCTTGCGGGATGGCTGCCGAAAGACTCGACCGCCGTGGCGGCCGGCTGGTTCGCGATCTGCCTGCTGCCGGTGGCGAACGTTGTGCCCATCGGCGTGCTGGTGGCGGAGCGAACGCTCTATCTGCCATCGGCGGGCATCGCGGCGCTGGCGGGATTGTGTTGGGTGAAGGCGGC 
 

 Predicted Protein Sequences:
 >PredictedProphage2 -Hit 1 
 ALNGDLSPHSAATPIPAGGSVILFLTGEGPVTPAVADGTPAPVSPLAIVNAPVQVTIGGKGAQVTYQGLAPGYAGLAQINAIVPPGLTPGDQPVFITVNGIPSNSGVIT 
 >PredictedProphage2 -Hit 2 
 TIHAGAASTITPTGGTPQSAIIQTVYGEPLQVTVTDTAGIPVSGVPVLFAAPTSGPGGLFGGQSTITVNTDAQGHAAAVITGNSIAGTFTVTASSTSITGTALFQLTNLPAGSSSLAFVQQPSNAAAGQIIAPAVTVQVRGSNGNAMQVPGIPVLLSISSGTGTLFGTVVQLSDATGLATFNDLRIGAVGTTTLRATSTQQAPVNSNPFQITAGVPAGITAVSGSPQATT 
 >PredictedProphage2 -Hit 3 
 ISSARTPTRPSTNAVARERISPADWRSMPRAGTHSQRSKRTARRVCSRAWIISLSTRKARNSGLRRSRETISGFPARIPACGPPRSLSPLKETRSAPAARLSATSGSSIPNARRSTMQPLPKSS_TGIPRS 
 >PredictedProphage2 -Hit 4 
 EGGMGVVYRAFDTHLDRPVAIKLLRPDAIGSAERRRRFVQEAKSASALNHPGIIHIYDIDKAILPEGPVDFIAMEFVPGRTLEQCIGKVGLSLKDTLKFGIQVADALARAHAAGIVHRDLKPANIIVSDDGRVKLLDFGLAKLTEKIDGDPDGVTATMGTGESPETDEGTIVGTVAYMSPEQAEGRKVDGRSDIFSFGSVLYEMATGRRAFEGINKISTLSAILHKEPKAASEISQAVPVELEKIIARCLRKDLERRAQGIADI 
 >PredictedProphage2 -Hit 5 
 DGGPRDPAVCVAHGPDGLLRPPARQPARGSGGGGAVDLRRNRAGVAACGMAAERLDRRGGRLVRDLPAAGGERCAHRRAGGGANALSAIGGHRGAGGIVLGEGG 
 



Prophage Finder Output

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

Genome size:  252927
Host's GC content:  62.85
Predicted Codon Position GC:  	1st:  65.55	 2nd:  43.67	 3rd:  74.04

 

Prophage Finder Output

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

Genome size:  269390
Host's GC content:  61.95
Predicted Codon Position GC:  	1st:  65.00	 2nd:  43.43	 3rd:  72.52

 

Prophage Finder Output

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

Genome size:  262452
Host's GC content:  62.06
Predicted Codon Position GC:  	1st:  65.07	 2nd:  43.46	 3rd:  72.71

 

Prophage Finder Output

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

Genome size:  293161
Host's GC content:  60.76
Predicted Codon Position GC:  	1st:  64.27	 2nd:  43.10	 3rd:  70.50

 >PredictedProphage1 
 Length:   5707 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 59.26 	 59.81 	 67.61 	 46.40 	 65.42 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	16	0.152380952380952
 Leu	TTA	2	0.019047619047619
 Leu	CTG	46	0.438095238095238
 Leu	CTA	11	0.104761904761905
 Leu	CTT	9	0.0857142857142857
 Leu	CTC	21	0.2
 Lys	AAG	16	0.64
 Lys	AAA	9	0.36
 Glu	GAG	13	0.333333333333333
 Glu	GAA	26	0.666666666666667
 Gln	CAG	18	0.72
 Gln	CAA	7	0.28
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	8	0.380952380952381
 His	CAC	13	0.619047619047619
 Asn	AAT	4	0.235294117647059
 Asn	AAC	13	0.764705882352941
 Ser	AGT	7	0.155555555555556
 Ser	AGC	11	0.244444444444444
 Ser	TCG	7	0.155555555555556
 Ser	TCA	6	0.133333333333333
 Ser	TCT	3	0.0666666666666667
 Ser	TCC	11	0.244444444444444
 Trp	TGG	8	1
 Arg	AGG	4	0.0408163265306122
 Arg	AGA	3	0.0306122448979592
 Arg	CGG	27	0.275510204081633
 Arg	CGA	22	0.224489795918367
 Arg	CGT	12	0.122448979591837
 Arg	CGC	30	0.306122448979592
 Ala	GCG	29	0.322222222222222
 Ala	GCA	14	0.155555555555556
 Ala	GCT	10	0.111111111111111
 Ala	GCC	37	0.411111111111111
 Cys	TGT	7	0.875
 Cys	TGC	1	0.125
 Asp	GAT	18	0.5
 Asp	GAC	18	0.5
 Gly	GGG	4	0.0833333333333333
 Gly	GGA	11	0.229166666666667
 Gly	GGT	13	0.270833333333333
 Gly	GGC	20	0.416666666666667
 Phe	TTT	7	0.368421052631579
 Phe	TTC	12	0.631578947368421
 Tyr	TAT	11	0.423076923076923
 Tyr	TAC	15	0.576923076923077
 Met	ATG	6	1
 Val	GTG	26	0.412698412698413
 Val	GTA	4	0.0634920634920635
 Val	GTT	9	0.142857142857143
 Val	GTC	24	0.380952380952381
 Thr	ACG	14	0.368421052631579
 Thr	ACA	3	0.0789473684210526
 Thr	ACT	4	0.105263157894737
 Thr	ACC	17	0.447368421052632
 Pro	CCG	11	0.423076923076923
 Pro	CCA	3	0.115384615384615
 Pro	CCT	4	0.153846153846154
 Pro	CCC	8	0.307692307692308
 Ile	ATA	4	0.114285714285714
 Ile	ATT	18	0.514285714285714
 Ile	ATC	13	0.371428571428571
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 36197	37066	-1	ref|NP_817502.1|gp53 	66.2bits(160)	1e-09
 37459	37626	-1	ref|NP_795396.1|site-specific recombinase	39.7bits(91)	0.15
 38128	38625	-1	ref|NP_862840.1|gp1 	48.5bits(114)	3e-04
 40127	40630	1	ref|YP_006499.1|Cin 	89.4bits(220)	2e-16
 41610	41903	1	ref|NP_944257.1|putative DnaC	45.8bits(107)	0.002
 
 DNA sequence:
 AATGTATCGGCTTGTGGTGGCCACCGACGCATGACCGAGATAATCTCGAATCACTGAAACATCGATTCCCGCCTGCAGAAGGGCAACGGCACAACTGTGCCGCATGACGTGTGGGGTGACTCGGCGCTTTCGTAGCGAAGGAGCGTGTTGTGCCGCGGATCGGACGTACTTGCGCAGTAGATAGGCGACACCATCCCGCGTTAGCAGCGCGCCGAGGGTGTTCCTGAAGAGGGAATCCTCCCCGCTCCTTACGGGAATGATCCGATGTAGGGCTGATGCGGTTTCGGGCCAAAGGGGACAGATCCGTTCCTTTCGGCCTTTGCCCAGCAGCCGCACTTGCCGTGGCCTTTCCAATTGAAGATCACTGGCGCGTATCGCCAGCGCTTCGCTGACGCGCGCTCCCGTGTTATAGAGAAACAGCAGCAGGGCGTGATCGCGTTCCCCATTACGACTCCGACGATCAATGGCGGCGATCACCGCGCGGGCTTCTTCAGGTTCCAGATAAGTGGCGACGCGTCGTAGTGCTTTCTTGTTGCGAATCGCGAGAATGCGACCGTACTGACCAGCCCGCGTTACATCGTGCCGCAGGAGGTGCTGCACAAAACTGCGAACCGCGGCTAGACGACAATTTCGGGTAACCGCGGAGTTCCCTCGACGCGATTCGACATAATCTAAGAATGCGAGCAGGGCGTCGGATTGGATATCGTCCAGGGCGAGGTTAGCCACGGGCTTCCGCTTCTGACCTGCCAGGAACAAGTAGAAGAGCTTCAGCGCGTCGCGGTAGGCTCGCACGGTATGCACGCTTGCTCCGCGCGTCTGCCGTAAGTAGTTATGGAAGAAACTTTCCGTCAGGGCCAGCAGCGACTCAGACTTGGAGCGGCTCATACACGGTCGTCCTCAGATGTTGTAGTTTTGTATCGGCGCCGCAGCCGGTTGCCGACCAGGTCCAGGAGTTCCGGCGTGGTGTGCAGGTAACTCTCAGTGCCGA!
 TGATGT
CGACATGCCCCATATACGCCGATAGCCAGGGTAGGCGGGCATGGAGGTCGACACCATCACCGTACCATCGGCTCAGACGGCGAACGGCGAAGGCATGGCGGAGGTCATAGGGTCGCGGCCCGATCCGACCCCGGTCGGGCTTCAACCCGGCCAGTTTGAACAGAATACGGAAAGTGCGAGCTGCGGTCTCAACCGGCAGCCGGCGTTGGTTCGTGCCAACGAAGAAGCGATCCCCCATGTCCGATGGCGCGTACGCCAGGCGAGCGGTGAGATATTGATCGAGTTCTCGTGATAGGGAACGATGAAACGGAACCCATCGGGATCGTCCCTTGAAGGTGTCTATAAAGAGAACCGCGGATCGAGTATCCACGTCTCGCATTCGCAGGCGAAGCGCTTCTCCAAAACGAATTCCGGTACAGTACAAGACCAGAATCAGCGCCCTGTATAGTGCGGCTCGGAAGGGCGGGCGCTTGAGGTTAGCGCAGAGCTCCAAGAGATGGAGGATGTCCCTTTTCCGAAAGAGAATACGGAAGAAAGGAGGACTCGGTTGGCAGGTGCGGCCAGATCGGTTCAGCTACAGTCCCTGGTTCCGACGATCGGCGCAGGTATCGGTAAAACTGCCGCAGCACCGCGGCATCGGCGGACACGCTGATGGGCTTTCGGCCCGGCTTGCTCGACAGCCAGGCAATCGCTGCCCGATCGAGTTTCCAGCGGCGATCTCCAGCCGCATACTGAATCAGAAAACGATCGAACTCGCGCAACGTAAACTCCGCGCGCATGTAGCCATAACCGAGGCTCCGCTTAAATTGTAGGAACGCATGCAGCTCGCCGGCAGTTGGACCCTGGAAGATGTTGGTCATCGCGGCACCGGGAGAGCCACCGCACGCAGACGCTCCAACGCTACCCGCACATACACAGAGGTGGACGACGAACTACGGTGGCCGAGAATGTCGCTCACAACCTTGACATTGGCTCCGGAATCAATCTGT!
 CTGCTCGCGTGACTGCGCCGGAAAGCATGGGCTCCGATCACTTTGGTTGAAATGCCGGCCAGACCCGCATAGTACCGAATACGGTGGCGAATGGCGCCGCTGGTTATCGGCTCGTAGGGCATGTTTTCCCGAAGAAAGATATGCGGCACTGATCGAGCAGGCGGCCGTTCCCATCGCAGGTACGCGCTCAATGCCTGCGCAACTGCCGGCAACAGAGGAAGCTCGATCGACACCTTGGTCTTCGGCCGACAGACCCTCAACACTCCGCCTTGCCAGTCCACATCTTCCAACCGAATTCCAAGGACTTCGGCTGCGCCGAGGCCATACGTTGCCAACAGCAACACAATCGCGTAATCACGTTTGCCCGGCGCTGCCGTCCGAGAGATCCCACGCAGAATCTTCTGCACGTCGCTCCACGGCAAACAGCGT
GGGGGCCGCTCATCTATCCGATATCGCAGTGCGATCACTCCACCGGCGAGATCAGTCGGCAGCCTTCCTGTCATGTGCAGAAATCGGAGAAACGCTCGGAGCGAACTGCAGGTATCGGCAACCGTTCGTTTGGAAAGCCGGGCGGCAAGCGCCTGCACAAACCCGTCCACATCTGCCAAGTTTGCCCGTGCAATAGACTTCGTTCTACGCTGCAGCTGCCCGAGGAATCCACGCGCGGTTTCCACATCGCGCACCAAAGTGCTTTCCGAGACCCCGCCGTGTGCATGCCGGTAATGGCAATATTCCTTCATCAAGGGTGACAGCGGTGGCGCACATTTCTCGCGCCATTGCGGCAATGACACCCCCAGCGCTCCTAACGCGCAAGCCCACGCGTGAAGTGCATTGCCAGCGAGGTTGCGGCTATTCTGAGAGCTTGGGCGCCCTCTGAGTCTGGGCCCGGCGTAAGCGCGAGTGAATCGCCGCACCCCGGCTGCGGTCAGGTGTTCGGTCGCGAGTAGTTTCCGCTTGTCGCAGTATGTTCGGAACCGCCGGACCCACTGAAGATAAATGACGATCGTTCCGAGTGAGAGATGGCCCTTTCGCCACAACTCAACAACTGCGCGTTCGCGGCCATCAACAGCCCTCACCAAATCCTTCATGCAATATTGGACGCCTCTCGCATGAGGGAATTATCACGACGCCCACGAACGATTCGCCCCCTTCTACGCACTTCCCACGCAATCGCTCTGGATAATTCCGGAGTCCAGATAATGCGCCTTATCTGGAGCACCAAATAAGACGCATGGAAGGCGGCAGTTTGTGGAAGTGGCGCAGAACTTTCCCGAAGAGTGCCGGCATGTGCTCGAATCGCTGGGCAGTGTGTATGCCAACGATGCGATCGCACGCGAGCAGAAGCTCTCTGCTCAGGACCGTCTGCAGTTTCATCAGCAACAGAGTAGTTCCGTGATGGATGGGCTGCACGACTGGCT!
 GGAAGC
GCAACTGGCGGAGAAAAAGACTGAGCCGAACTCGGGGTTGGGTAAGGCGATCACGTATCTGTTGCGGCACTGGAAGGGCCTGACGGCGTTCCTGCGCAAGGCCGGCGCTCCGCTGGACAACAACCTTTGTGAACGGGCGCTGAAGCGTGCGGTACTGCATCGTAAGAATGCCCTGTTCTACAAGACGCTGCACGGCGCCGGGGTCGGCGACGTGTTTATGAGCCTGATTCACACCTGCCCGTTGTGCGGCGCCAACTCGTTCGAATTTCTGACGGAGTTGCAGCGGCATGCCCGGGAACTGGAGGCGCATCCCGCGGAGTGGATGCCATGGAACTATCGCGAGACGCTGGCGCACGCGCCTTCTGGGTAATATCATGATTTCCAGCATGGCCGAAAAGGATAGTCGTCGGCCATGCAGGAGCGACACCATCAAATGGCCGCCAAACGGACATCCGAGAAGGCAAAATCGCCGAGGGTTTTTGGCCAGACACGGAAACTGCCGAAAATGTTTCGCGCCGGCCTCTACGCCCGCGTCTCTACGAACGACCAGCAGACCGTCCCGCTGCAGACCCGCGCCCTGCGGGAATATACCGTCCGGCGGGGTTGGACGGTCGCTCTGCAGGTGAAAGAGGTCCGTAGCGGTGCATCCGAACGGCAACTGCGGGAGAAGTTGTTGGCGGCGGCGCGCCGCGGCGAGATCGACGTGGTGCTGGTGTGGCGATTGGATCGTTGGGACAGATCGGTGGCGGACCTGCTGGCAACTCTGCAGGAACTGGAGCATCTGGGTGTCGGCTTCGTCTCGCTGACAGAGGCTCTGGACCTGACGACGCCCGCCGGTCGCGCCATGGCTGCACTACTTGCTGTATTCGCGGAGTTCGAAAGAGAAATTCTACGGGAACGCGTGCGCGCCGGCCTAGCCCACGCCCGACAGAATGGTCAGACCCTGGGCCGACCCGTAACAGCCGGACTCCAGGCGGACAAGGCTCGAA!
 AACTGTATCTTGCCGGCGTCAGCAAAGCCGAGATCGCCCGTCGCTTGCAGATCGGTCGCACCTC
CGTTCGCCGCATTCTGGCCTGACCTATTTCTTGAAGAAATAGGTCAAGCCTCGCGAACCTCTTCATAGAGAAACTTCCCCCGGATGCTCTCGGCAAAATACCCGCCTTTAGACTCTGCTGCAAGCAACTCATCATAATGTTCCGACGGGAACCCGAAATAGCGATAGACTTTGCCGCTATGGAACCTTAGAAACAGCTGACGCTGGTCACAGCGGTATGCCACCGAAGCAAACACACTCGAATCCACAGCCACCCAGTTCATGGACTTGTCGCTCTACAACCATTTTCGCTGTTCCTGCCCCAGCCCACCCGAACATCGGCAGCGCCAACAGGTAAGCTCCGACCCTTCGCCCTCCATAGGGCGACCGCAAAACTGGTGGTGGCCATGTCCGGTGGGGCAGTAGCCACCCTCGCCTTTTTTCCGCCGCTCTCGACACCCGCAGGCATTGACCAGGTAGAACCAGCAGCGCACACGATTTTCCTTTGACGGAAGTACCAATGGTTCGCATGCATAATCATTCGTCAGCCTAAGCTGTTTACCTTAGACGAACAAACGGCGAAACGCCCAAATAAATCCAAACTACGCATCCTTGCCGAAAGGACACGATGAACTCGCCCACACTCAAGACAACAAGGAAGACGACAGCGACGATTCCGGGCAATAGCCTCTCCGCTCAACTTCGGCAGATCGGCTTGTGCGCCGTGCCCGCGCAACGGGATGACTTCATCGCACCGCTACAAAATCGCGTTGGAGCGCTCACCAGATCCTGGAACAACTGGTGCAGGCAGAAGGCGCCGAGCGCTCGCGCCGCAGTCTGGAGCGCCGTCTGCGGATCAGCGGGATCAAAAGCTTCAAGCCCATGGTCGACTTCGATTCGTCCTGGCCCGCCAAGGTCGAACGCGACGTCATCGAGCGCGCGCTGACACTCGACTTTCTTGGCGAGGCGCGCAACCTCGTCATGGTGGGCCGCAACGGTTTGGGCAAAACG!
 ATGATT
GCCCAGAACCTCTGTCACACCGCCGTGCTCGCCGGCCACTCCGTGCTGTTTCGCTCCGCCGCGGCGTTGCTCGAAGACCTGCACCGGCAGAGTCCGGAAGGCCGCCGCCGCAAACTCCGCACCTACGCCAACGTTGGTTTGCTGTGCATCGACGAGGTCGGCTATCTGTCATTCGACGACAAGACGGCGGATCTACTGTACGAAGTCGTCAACCGGCGTTACGAACGCAAGCCGGTCATCCTCACTACGAAC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 TCTGAGTCGCTGCTGGCCCTGACGGAAAGTTTCTTCCATAACTACTTACGGCAGACGCGCGGAGCAAGCGTGCATACCGTGCGAGCCTACCGCGACGCGCTGAAGCTCTTCTACTTGTTCCTGGCAGGTCAGAAGCGGAAGCCCGTGGCTAACCTCGCCCTGGACGATATCCAATCCGACGCCCTGCTCGCATTCTTAGATTATGTCGAATCGCGTCGAGGGAACTCCGCGGTTACCCGAAATTGTCGTCTAGCCGCGGTTCGCAGTTTTGTGCAGCACCTCCTGCGGCACGATGTAACGCGGGCTGGTCAGTACGGTCGCATTCTCGCGATTCGCAACAAGAAAGCACTACGACGCGTCGCCACTTATCTGGAACCTGAAGAAGCCCGCGCGGTGATCGCCGCCATTGATCGTCGGAGTCGTAATGGGGAACGCGATCACGCCCTGCTGCTGTTTCTCTATAACACGGGAGCGCGCGTCAGCGAAGCGCTGGCGATACGCGCCAGTGATCTTCAATTGGAAAGGCCACGGCAAGTGCGGCTGCTGGGCAAAGGCCGAAAGGAACGGATCTGTCCCCTTTGGCCCGAAACCGCATCAGCCCTACATCGGATCATTCCCGTAAGGAGCGGGGAGGATTCCCTCTTCAGGAACACCCTCGGCGCGCTGCTAACGCGGGATGGTGTCGCCTATCTACTGCGCAAGTACGTCCGATCCGCGGCACAACACGCTCCTTCGCTACGAAAGCGCCGAGTCACCCCACACGTCATGCGGCACAGTTGTGCCGTTGCCCTTCTGCAGGCGGGAATCGATGTTTCAGTGATTCGAGATTATCTCGGTCATGCGTCGGTGGCCACCACAAGCCGATACATT 
 >PredictedProphage1 -Hit 2 
 CTGATTCTGGTCTTGTACTGTACCGGAATTCGTTTTGGAGAAGCGCTTCGCCTGCGAATGCGAGACGTGGATACTCGATCCGCGGTTCTCTTTATAGACACCTTCAAGGGACGATCCCGATGGGTTCCGTTTCATCGTTCCCTATCACGAGAACTCGATCAATATCTC 
 >PredictedProphage1 -Hit 3 
 ATAGATGAGCGGCCCCCACGCTGTTTGCCGTGGAGCGACGTGCAGAAGATTCTGCGTGGGATCTCTCGGACGGCAGCGCCGGGCAAACGTGATTACGCGATTGTGTTGCTGTTGGCAACGTATGGCCTCGGCGCAGCCGAAGTCCTTGGAATTCGGTTGGAAGATGTGGACTGGCAAGGCGGAGTGTTGAGGGTCTGTCGGCCGAAGACCAAGGTGTCGATCGAGCTTCCTCTGTTGCCGGCAGTTGCGCAGGCATTGAGCGCGTACCTGCGATGGGAACGGCCGCCTGCTCGATCAGTGCCGCATATCTTTCTTCGGGAAAACATGCCCTACGAGCCGATAACCAGCGGCGCCATTCGCCACCGTATTCGGTACTATGCGGGTCTGGCCGGCATTTCAACCAAAGTGATCGGAGCCCATGCTTTCCGGCGCAGTCACGCGAGCAGACAGATTGATTCCGGAGCCAATGTCAAGGTTGTGAGCGACATTCTCGGCCAC 
 >PredictedProphage1 -Hit 4 
 TACGCCCGCGTCTCTACGAACGACCAGCAGACCGTCCCGCTGCAGACCCGCGCCCTGCGGGAATATACCGTCCGGCGGGGTTGGACGGTCGCTCTGCAGGTGAAAGAGGTCCGTAGCGGTGCATCCGAACGGCAACTGCGGGAGAAGTTGTTGGCGGCGGCGCGCCGCGGCGAGATCGACGTGGTGCTGGTGTGGCGATTGGATCGTTGGGACAGATCGGTGGCGGACCTGCTGGCAACTCTGCAGGAACTGGAGCATCTGGGTGTCGGCTTCGTCTCGCTGACAGAGGCTCTGGACCTGACGACGCCCGCCGGTCGCGCCATGGCTGCACTACTTGCTGTATTCGCGGAGTTCGAAAGAGAAATTCTACGGGAACGCGTGCGCGCCGGCCTAGCCCACGCCCGACAGAATGGTCAGACCCTGGGCCGACCCGTAACAGCCGGACTCCAGGCGGACAAGGCTCGAAAACTGTATCTTGCCGGCGTCAGCAAAGCCGAGATCGCC 
 >PredictedProphage1 -Hit 5 
 CTCGTCATGGTGGGCCGCAACGGTTTGGGCAAAACGATGATTGCCCAGAACCTCTGTCACACCGCCGTGCTCGCCGGCCACTCCGTGCTGTTTCGCTCCGCCGCGGCGTTGCTCGAAGACCTGCACCGGCAGAGTCCGGAAGGCCGCCGCCGCAAACTCCGCACCTACGCCAACGTTGGTTTGCTGTGCATCGACGAGGTCGGCTATCTGTCATTCGACGACAAGACGGCGGATCTACTGTACGAAGTCGTCAACCGGCGTTACGAACGCAAGCCGGTCATCCTCACTACGAAC 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 SESLLALTESFFHNYLRQTRGASVHTVRAYRDALKLFYLFLAGQKRKPVANLALDDIQSDALLAFLDYVESRRGNSAVTRNCRLAAVRSFVQHLLRHDVTRAGQYGRILAIRNKKALRRVATYLEPEEARAVIAAIDRRSRNGERDHALLLFLYNTGARVSEALAIRASDLQLERPRQVRLLGKGRKERICPLWPETASALHRIIPVRSGEDSLFRNTLGALLTRDGVAYLLRKYVRSAAQHAPSLRKRRVTPHVMRHSCAVALLQAGIDVSVIRDYLGHASVATTSRYI 
 >PredictedProphage1 -Hit 2 
 LILVLYCTGIRFGEALRLRMRDVDTRSAVLFIDTFKGRSRWVPFHRSLSRELDQYL 
 >PredictedProphage1 -Hit 3 
 IDERPPRCLPWSDVQKILRGISRTAAPGKRDYAIVLLLATYGLGAAEVLGIRLEDVDWQGGVLRVCRPKTKVSIELPLLPAVAQALSAYLRWERPPARSVPHIFLRENMPYEPITSGAIRHRIRYYAGLAGISTKVIGAHAFRRSHASRQIDSGANVKVVSDILGH 
 >PredictedProphage1 -Hit 4 
 YARVSTNDQQTVPLQTRALREYTVRRGWTVALQVKEVRSGASERQLREKLLAAARRGEIDVVLVWRLDRWDRSVADLLATLQELEHLGVGFVSLTEALDLTTPAGRAMAALLAVFAEFEREILRERVRAGLAHARQNGQTLGRPVTAGLQADKARKLYLAGVSKAEIA 
 >PredictedProphage1 -Hit 5 
 LVMVGRNGLGKTMIAQNLCHTAVLAGHSVLFRSAAALLEDLHRQSPEGRRRKLRTYANVGLLCIDEVGYLSFDDKTADLLYEVVNRRYERKPVILTTN 
 



Prophage Finder Output

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

Genome size:  298173
Host's GC content:  61.11
Predicted Codon Position GC:  	1st:  64.48	 2nd:  43.20	 3rd:  71.09

 

Prophage Finder Output

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

Genome size:  329235
Host's GC content:  60.85
Predicted Codon Position GC:  	1st:  64.32	 2nd:  43.13	 3rd:  70.66

 >PredictedProphage1 
 Length:   7423 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 59.72 	 62.88 	 66.54 	 47.94 	 74.15 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	22	0.161764705882353
 Leu	TTA	7	0.0514705882352941
 Leu	CTG	57	0.419117647058824
 Leu	CTA	4	0.0294117647058824
 Leu	CTT	19	0.139705882352941
 Leu	CTC	27	0.198529411764706
 Lys	AAG	25	0.609756097560976
 Lys	AAA	16	0.390243902439024
 Glu	GAG	32	0.653061224489796
 Glu	GAA	17	0.346938775510204
 Gln	CAG	24	0.648648648648649
 Gln	CAA	13	0.351351351351351
 End	TGA	1	1
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	14	0.333333333333333
 His	CAC	28	0.666666666666667
 Asn	AAT	2	0.105263157894737
 Asn	AAC	17	0.894736842105263
 Ser	AGT	8	0.133333333333333
 Ser	AGC	9	0.15
 Ser	TCG	18	0.3
 Ser	TCA	1	0.0166666666666667
 Ser	TCT	6	0.1
 Ser	TCC	18	0.3
 Trp	TGG	13	1
 Arg	AGG	7	0.053030303030303
 Arg	AGA	2	0.0151515151515152
 Arg	CGG	30	0.227272727272727
 Arg	CGA	19	0.143939393939394
 Arg	CGT	16	0.121212121212121
 Arg	CGC	58	0.439393939393939
 Ala	GCG	35	0.301724137931034
 Ala	GCA	9	0.0775862068965517
 Ala	GCT	15	0.129310344827586
 Ala	GCC	57	0.491379310344828
 Cys	TGT	4	0.333333333333333
 Cys	TGC	8	0.666666666666667
 Asp	GAT	21	0.428571428571429
 Asp	GAC	28	0.571428571428571
 Gly	GGG	18	0.227848101265823
 Gly	GGA	11	0.139240506329114
 Gly	GGT	6	0.0759493670886076
 Gly	GGC	44	0.556962025316456
 Phe	TTT	11	0.289473684210526
 Phe	TTC	27	0.710526315789474
 Tyr	TAT	11	0.392857142857143
 Tyr	TAC	17	0.607142857142857
 Met	ATG	20	1
 Val	GTG	24	0.358208955223881
 Val	GTA	7	0.104477611940299
 Val	GTT	10	0.149253731343284
 Val	GTC	26	0.388059701492537
 Thr	ACG	22	0.415094339622642
 Thr	ACA	1	0.0188679245283019
 Thr	ACT	6	0.113207547169811
 Thr	ACC	24	0.452830188679245
 Pro	CCG	26	0.456140350877193
 Pro	CCA	7	0.12280701754386
 Pro	CCT	5	0.087719298245614
 Pro	CCC	19	0.333333333333333
 Ile	ATA	1	0.0238095238095238
 Ile	ATT	12	0.285714285714286
 Ile	ATC	29	0.69047619047619
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 159791	160426	-1	ref|NP_046669.1|similar to part of DNA ligases	85.5bits(210)	3e-15
 163384	163995	-1	ref|NP_817502.1|gp53 	68.6bits(166)	3e-10
 164387	165079	-1	ref|NP_817502.1|gp53 	39.7bits(91)	0.16
 165289	165873	-1	ref|NP_817502.1|gp53 	53.9bits(128)	8e-06
 166467	167213	-1	ref|NP_817502.1|gp53 	48.5bits(114)	3e-04
 
 DNA sequence:
 CCCGTCGTAGTATCCGAAAATCAGGGCGTCAAAGCCGTTGCCGCTGGGCGTGTACCCGGCGATGACGAAATCCTGCCCCTGGTTCATGCGCATCTTCTGCCATGCGCCGGAGCGCTGCCCGGCCTCATAGCGGCTATCCCGGCGCTTGGCGATCGGCCCTTCCAGGCCCTGGGCCTTCACCGACTGAATCAGCTGCGGCAGAGTGGCGACCAACTCCGGTGACTCGCGGATGGGATCGGCCAGCTTCGCCAGCACGCGGCTCCGCAGAAGCTCCCTGCGGTCCTCCAGTGGCAGCGCCATCACGTCCTCCCCCGCGATCACCATCACGTCGAATGCGTAGTACAAGAGCGGCCCCGTGGAGAAGCCGTAGTTCTGCAGGGCGCTGAACGAAGGACGGCCAACCCCATCCAGGGCCACGATCTCCCCGTCGATCACGGTTTCATCGGGCATGTGCGCGAGGGCCTTCACGATGACGGGGTACTTGGCGTTGAAGTCCTTGTCGTTGCGGGAGCGGAGGTGGACCTTGCCGCCGGTCTTGTAGGCGATGGCGCGGAAGCCATCCAGTTTCAGCTCGTAGGAAACGCCGTCACCCTCCGGGAGGTGCTCGGTTCGTCGTAGCAGCATCGGCTCGATGAACCGGACTCTACTTGTGGGGGGTGGCATGGACTCGCCCAGTTTACGACAGTCTCGCTTCAATTGATGCTGTCGCCAAAGTCGGTGAAGGCGTGGACACCAAGCTTCTCGCGGTAATCGGCGTCTTTATCGACAACAGTTGCTACGGCCCTTCAACGCTTTTCACACGGTGCTGGCCACCAAGCTGCCTAATTCGGGCCGTAATCATAGAATTTCGCTTGGTCTGTGTCTCCGACGTTCGCACGGCGACCAGTATCCTCAGTTCACTACTAGTTGTTTTCCACGCACTAGGCATCTCACCAAAACCTCTTGAGGACTAAGATGATCCATGTCAGTGATTCTTACGGAAGATATC!
 TCAATG
TATGGTACGTGGGCTTGTCCCCTTGGGTGAGACAAACAGTTAAGAGACAGTTCGCCGTTCGATGGTAAATCATTCCATTCGATGCGGCAATAGTTTTATTCTGATCGTGTCGGTGAAGCGGAGGCGGGCAATGCTGGCGAGCAACCCGTCAAGGAATAGCCGGCCGGAACTCATCGCGGACGATGGACAGAGCATGTTCTTTCCGGCATGCCCTATACCCTGGCAGCGGCCCGACCGGAAAGCGGGACACGCCCCAGGGGTAAAAAGCAGGAACGACACATCGGACCGATAGATTCCGTCATGCCTCCCAAAACGCATTCTGAGGGCGCCCTCACTTTTCATGCGGTTTGCTCCAGCGGCACCAGCGAACGTTCAAACTCGACCGGCGAGCAGTAGCCCAGCGCCGAGTGCAGACGCTTGCCGTTGTAGATTTTCTCAATGAACTTTTCCACCGACGCTTGCGCCTCGGCGAGGTCGCGATATTCTTGTCTATAGACCTCCTCGTATTTCAAGGTCTTCATGAAGGATTCGCATTTGGCATTGTCGTAGGGATTGCCCTTCCGGCTCATGCTGATCTGAACGCCGTGTTCCTTCAGCAAATCCGTGTATTCCTTGGAAGCGTATTGCACGCCGCGGTCGGAATGATGGGTCAATCCTTTGACGGAGCCCCGCCGCCGGAAAGCCATCTTCAACGCCTGCACCGCCAGGCTAGCTTCCAGAGTCCGGCCCAGAGCCCAGCCAATTACCCGTCTTGAGAATGCATCCAGCACCACCGCCAGATAGATGAACTCCGTCTCCAGCCGAATGTAGGTGATGTCGGCCACCCACAACTGGTCCAACCCGGTCAACTCCATCTTCTTGGCCAAGTTGGGATAGACGCGAAGGCCGTGATTGGAATCGGTGGTGCAGCAAACAAACTTCCTCCGGCGAATGCAAAGGAGGTTGTCTTCCCGCATGATGCGTCCAACCCGCTTATGATTCACTGCCCA!
 GCCCTGACGCCGAAGCTCGGCGGTGATTCTGGGCCTACCGTAGCATGGGAATTCCAGAGCGATCCTCTGGATCGCGTCGCGCAGGTCCAACTCTTCCTCGCGCTGCTCCGCCTCCGGATCGAACCGGTAGAAGCCAGCCCGGCTGATGTCGCCCAGTTCACACATGCGCAGAATCGTCATCTGGACGCCTTTCTGGATTTGGTCTTCGATGTACTGGCAGGTCGCGGCTTTCCAGTCAGTGCCTGCAGCATCCGCTGTTCCTCGAGGCGCTGCAAGCACCCCTTCAAAAAATCGATCTCCACGGTCTGCTGGCCGACCTTGCGTTCCAGTTGGGCAACACGGGTCTCCTCCCAGCGTCGCTTTCCGCCTCCTGGGAAGGAGTTTCCAGGGCCATGCTGGAACTCCTTCCGCCACCGGTGGAGGAGGTTGGCGTTGATTTCAAAGGCGCGGGCTACTTCCGCCGCTGACGAGCCGGCATCCAGTTGCTGGATCGCCGCCATTTTCAATTCGCGTGTGAACTTCCGTCGAGTCAAACCCATGAGTCAATTCTCCATTCATTGAATTTTGACTCTTAACTGTTTGTCTCAAAATTGGGGACAAGTCCAAACATCCGCCGACACTCCCACCGTTACTGGAGGAGTACGCCGGTATCGACGTGCCCACAATGGGGTCTCGGAACGGACGCTGGTGCGCGATGTCGAGACCGCGAGTGGCTTCCTCGAGCAACTGCGCAGTGGAAGGACCACCATTGCGA
GAGCGAGACTGACAGATGTGGATGCTTTTGTGCGGAAGCTTGCCACCCGTCTTTCGAGACGAACCGTCGCGGATACCTGCAGTTCGCTCCGAGGGTTTCTCCGATTTCTGCGGATAACTGGAAGAATGACGTCCGACCTGGCCAACGAGGTGGTTGCACCGCGATATCGGATAGATGAACGACCCCCACGCTGTCTGCCGTGGAGCGACGTGCAGAAGATCCTGCGTGCGATCTCTCGAACGGAAGCGCCGGGCAAGCGTGACTATGCGATCGTGTTGCTATTGGCCACGTATGGTCTGGGCGCAGCCGAAGTCCTTGGAATTAGATTGGAAGATGTAAACTGGCAAGGCGGAGTGCTGAAGGTCTGTCAGCCGAAGACCAATGTGTTGATCGAGCTTCCTCTGTTGCCGGCAGTTGCACAGGCAATGACTGCGTACCTGCGTTGGGAGCGGCCGCCTGCGAGATCCGTTCAGCATATTTTTGTCCGGGAAAACATGCCCTACGAGCCGCTAACCAGCGGCGCCATTCGCCACTGTATCCGGCACTATGCGCATCTGGCTGGCATCTCAACCAAAGTGATCGGGGCCCATGCACTTCGTCACTATGCCGCGTCCCGGATTATGCCGCGAAGATCAGAACGAAGTGGTTCGAGGCCCTCGGAATATGAGGTTTGGTTGGACACTATCATCGTCACGCGGCATAGTCCGGACGCTTGGGATTAGAGTTGTTTGAGGAAGGCCAGCAGCTCGTCGTCCGGTTGAAAGCGTTTGGGACCGCCTTTGACTGGGTTGGTCTTGGCCAAGGCCTCTTCTTTCAACGCAAGGTCGGCGTCGAGGTAGATCTGGGTGGTTTCGACGGACTCATGGCCGAGCCAAAGGGCGATTACGGCTCGGTCCACGCCGGCCTGGAGGAGTTCCATGGCGGCGGCGTGTCGAAGCACGTGTGGCGAAACCCGTTTCTTGCGCAGCGAGGCGCAGTGTTTCCGCGCC!
 TTCGCC
ACGTGGCGTGCGAGCAAATGCTGAACCCCATCGGCACTCAAGGGTCCGCCGCGGGTACTGGGAAACAGCGTCTTGGAATCTCCTCTGCCTTGCTCCCGAATCCAAGCTTTCAGGACCGCGGCCGTGGGCTTGGCCAAAGGCGTACAGCGTTCCTTGCGTCCCTTTCCCCGGCAACGCACATGTGCGCCGGCTCCGAGCGAGACATCCTCGTGGCGCAACCCGGTCATTTCAGATAATCGTAAGCCGGTCTGAACGGCGGTGAGCAGAAAGGCATGGTCACGGCGTCCCAGCCACTGCGTGCGATTCGGCGCCGCCAGCAGCGCGTCGATCTCCGGTCGGGTCAAAAAACCAACCAGGGTGCGCCGTTGGCGTTGGTTCGGAATCGCCAGCACTCGTTGAATGATTCCGCTGTGCGCCGGCGCCTCCAGCGAAGCGTAGCGGAAGAACGACCGGATGGCCGTCAAGCGAAGGTTCCGGCTACGCGCGCCATTGTGGCGGCGGTTTCCCAGATCTTCCAGGAACGCGCCGACCAAAGAGGCATCCAGATCTTCCAGTCCCAACTGAGAGGGGGCTTTGCGTAGCCGCATTTGAGCAAACTGCAACAGCAGGCGGAACGTATCGCGATACGAGGCGATGGTGTGAGGGCTGGCTTTCCGCTGCGCCATCAAACGCGTGGTGAAGAAAGACTGCAGCAAGGCAGCAAGATTAGCGGGATCCCGCATTCAAGGCCTCCCACCGTTTCTCCAGCCGCTTATTGGCCGCTCCCAACAGTTCGGGAGTGCCGGTCAGATACCAATAGGTATCGGTTACGTGGGCATGCCCGAGATAGGTGGACAAGATGGGTAAGCGCCGCTTGGGGTCTTCGCCGTTGCGATACCAGCGCAACAGAGTCTCGACCTCAAATCGGTGTCGAAAATCGTGCAGGCGCGGGCCGCGGCTGGCGTCCGCAGCACGCAATCCAATCTGTCGGGACAGCAGGTAAAACGCCC!
 GGTGGACCTCGCCTTTGTCCAGCCGGTTACCGTTCAGGTTGACCGGGAAATACCCCTCTGCTCG
CGCGCCGAAGCGCTCATCCCGGCGCTTCGCGTAGTCGGCCAGGACTTTACAAGTCGAGGTGTGCAGCGGAACCAGACGGGACTTTCCGAACTTGGCCCCTCGAATCGTGAGAATGCCTTCCGTCCAATCCATATCCCCAAGTCGGAGGCCGAGCGCCTCGCCCAACCGCAGGCCTGTGACCGCCAGCAAGCCGAAAAGGCAGTGGTAGGTCCAGGGCCGTAGAGGGTCTATAGAAGGTCACGTTTTAGCAGCCCTCATCAGTTTCCGGATTTCGTGGTCGGAATAGAAATATGGTTGAGCGCGTGCGGGACGATAGGGCAGCAGCCCCAGCGGTGGAACTTCGGTCAACGCATCCGTGGCACTCCAGTAACGGGCGAAGCCACGCACAACGCAGAGACGCGCCGCCCATTCAGCCGGCTGCTGGCGGGCATGCTGGGTCGCCCACTCCAAGGCCAAGGCCACGGTGATGTGAGAACTGCGTTTCCGTGCCAGGAAAGACGCGAACTCCTTCAGCCCAGCCTCATGCCGAGCCAGCTTGAACCCCAGGCCACGACGCAAAGCCAGGTAGTCACGGATACCTTTGGCCAGCGGATTCATCGGCCACCTCCCGGCCACGGCAACGCCAGGGTGTGCAAGGCGGTGACGTCTACTTTGGCGTAGATCGCCGTCGTGTTGGGGCTCTGGTGCCGCAGCAGTTCGCCAATCTCATCCAGCGAGCCACCCTGCCGAAGTAAACTCGTGGCTAGCGAATGTCGAAGCACATGGGCGCCGGTGTGCGCCGACTCTACGCCGGCATGTTTCAGAGCGCGCCTGACCAGAGAGGAAATCGTCGAGGAGTTCCCAAAGCCGACTAACGGCGCCCGGTTGCGAAGGAACACTCTGCGAGTAGCCGAACGTGGGCGATCGTGACGTAAATAGTCGGCAAGAGCGGAGCCTACGTCGTTGACCAGCGGTAGTTGGGCCGATTTCCCGCCCTTTCCGCGAATGGT!
 GATCTG
GCCCGTGCTCCAGTCAATATCGTCCAAGCTCAGACCGACGACTTCGCCGGCGCGTACGCCGAGCCTGGCGAGCAGCAACAAGATGGTATGGTTCCGCCTGCCAACGGACGTCGTTCGATCGCAGCACTCGAGAATACTTTCCACCGCGGCAGTCGGTAAGAACCTTGGAAGCGTGGAAAGCGACCAGTTGGGGACCGTGGGGACACAAGCAGCAAGATCGGTAGCGATTACGCCCCGGTGCCTCAGATAACGAAAAAACGACCGAAGCGCCGTTACCATCAGCCCGGCCCGCACAGGACTTAACTGACGTGCGTGACGTAAAACGAATCCGGTGACGTGCGTTGCCCGTAACATGGCGACGTTCGGAACCGCGTTGTGAAATCGTTCGGCCAGGAACTGCTCCGCGACGGGCACGTAGTTGAGCAGCGTGGATGGGGACAGGCCGAGATCCTGCAACAGGTAGCATCCGAACTCGTTGGTGATCCTCGTCCGGGCGTTGGCTGCGACCGGTTGTTGGTGTTGTTTCACAACGCCTCTTTGGCCAAGCATGGCCAGCAGTCGCGCCAGCGTTTTCGGCTCGCCTCTGCGGATCCGCTGCTGCCGACGGCGAAGCCGCAGATATCGATCCACAACCTGGCTGTTCAGTGCCTGGACATCAATGTGTTTCTGTGCCAGCCAGCGGCTGAAATCGGCAATGACTACGATCTGCTGTCTGATCGAGTCGTGCGTATAGCCCTGTTCGGCAACAGCGGCCGCATAGGCATCGAGGTATTCATTCAAAGGCCCCTGGCGCAGCCGTTCAATCGTGCTTGATAAGGTGAAGAGTTGGTTTATCACCCTCCCAGAGTGCCAAGCACGAACCCAAACCTATGCCGCGTTGCCGCTATTTAAATGCCCATGAATCGCGGCTCGCACGCCACACGCGGCATAGTCCGGGACGCGGCATAGTGGCGGAGCGTGTGCGGATGGACGGACTTGGTGATGCCGGC!
 CCGCCGGGCGGCTTGGCGGCAGGCGTGCCAGACGGCCTTTTCCGTCATCGGCTGATCGGGGCGT
CGGGATTGCAGACTGGGGAAGACCAACGCCGACCGGTGCGGCAGGGCGCGATAGTGGATGCGAAGTTGCGCGAGCAGTTTCGGCGGGAGTGGGACCTCGCGGTCCTTGCCACCCTTGCCCTGGCGGATGTGGAGGACCATGCGTTCTTTGTCGATGTCCTCGATCCGCAAGTGACAGAGCTCGGCGCGCCGCATGCCGGTGGCGTAAAGCGCCATCAGGATGGTGCGATGACGCAGGTTGCCAGCCGCGGCGATGAGTCGTGCCACTTCGTCGCGGCTCAATACCGTGGGGATCTGTCGGCGCAGAAGTTTCGGCAAGGGCAGGTCGTCGCGATCAAAGCGCCGCTTCAGGACCTTGCGGAAGAAGAAGCGGAGCGCGGACATCTGGATCATGACGGTCCGGGGATGCAGTTTGCGGTCCTGCACGAGGTGCAGTTGATATTCGCGGATGTGCTCGGGGCCAAGTTGATCGGGCGAGCGATGGAAATGTTCGGCGAACCGCTGGATGGCGCCGACGTAGGCACGTGCGGTAGCTTGAGAGTAATTACGGCGCTCGAGTTCCTCGAGCACCATTTTGCGAAGTTGGGTCAC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 TTCATCGAGCCGATGCTGCTACGACGAACCGAGCACCTCCCGGAGGGTGACGGCGTTTCCTACGAGCTGAAACTGGATGGCTTCCGCGCCATCGCCTACAAGACCGGCGGCAAGGTCCACCTCCGCTCCCGCAACGACAAGGACTTCAACGCCAAGTACCCCGTCATCGTGAAGGCCCTCGCGCACATGCCCGATGAAACCGTGATCGACGGGGAGATCGTGGCCCTGGATGGGGTTGGCCGTCCTTCGTTCAGCGCCCTGCAGAACTACGGCTTCTCCACGGGGCCGCTCTTGTACTACGCATTCGACGTGATGGTGATCGCGGGGGAGGACGTGATGGCGCTGCCACTGGAGGACCGCAGGGAGCTTCTGCGGAGCCGCGTGCTGGCGAAGCTGGCCGATCCCATCCGCGAGTCACCGGAGTTGGTCGCCACTCTGCCGCAGCTGATTCAGTCGGTGAAGGCCCAGGGCCTGGAAGGGCCGATCGCCAAGCGCCGGGATAGCCGCTATGAGGCCGGGCAGCGCTCCGGCGCATGGCAGAAGATGCGCATGAACCAGGGGCAGGATTTCGTCATCGCCGGGTACACGCCCAGCGGCAACGGCTTTGACGCCCTGATTTTCGGATACTACGACGGG 
 >PredictedProphage1 -Hit 2 
 AACCTTCGCTTGACGGCCATCCGGTCGTTCTTCCGCTACGCTTCGCTGGAGGCGCCGGCGCACAGCGGAATCATTCAACGAGTGCTGGCGATTCCGAACCAACGCCAACGGCGCACCCTGGTTGGTTTTTTGACCCGACCGGAGATCGACGCGCTGCTGGCGGCGCCGAATCGCACGCAGTGGCTGGGACGCCGTGACCATGCCTTTCTGCTCACCGCCGTTCAGACCGGCTTACGATTATCTGAAATGACCGGGTTGCGCCACGAGGATGTCTCGCTCGGAGCCGGCGCACATGTGCGTTGCCGGGGAAAGGGACGCAAGGAACGCTGTACGCCTTTGGCCAAGCCCACGGCCGCGGTCCTGAAAGCTTGGATTCGGGAGCAAGGCAGAGGAGATTCCAAGACGCTGTTTCCCAGTACCCGCGGCGGACCCTTGAGTGCCGATGGGGTTCAGCATTTGCTCGCACGCCACGTGGCGAAGGCGCGGAAACACTGCGCCTCGCTGCGCAAGAAACGGGTTTCGCCACACGTGCTTCGACACGCCGCCGCCATGGAACTCCTCCAGGCCGGCGTGGACCGAGCCGTAATCGCCCTTTGGCTCGGCCATGAGTCC 
 >PredictedProphage1 -Hit 3 
 TTCGCGTCTTTCCTGGCACGGAAACGCAGTTCTCACATCACCGTGGCCTTGGCCTTGGAGTGGGCGACCCAGCATGCCCGCCAGCAGCCGGCTGAATGGGCGGCGCGTCTCTGCGTTGTGCGTGGCTTCGCCCGTTACTGGAGTGCCACGGATGCGTTGACCGAAGTTCCACCGCTGGGGCTGCTGCCCTATCGTCCCGCACGCGCTCAACCATATTTCTATTCCGACCACGAAATCCGGAAACTGATGAGGGCTGCTAAAACGTGACCTTCTATAGACCCTCTACGGCCCTGGACCTACCACTGCCTTTTCGGCTTGCTGGCGGTCACAGGCCTGCGGTTGGGCGAGGCGCTCGGCCTCCGACTTGGGGATATGGATTGGACGGAAGGCATTCTCACGATTCGAGGGGCCAAGTTCGGAAAGTCCCGTCTGGTTCCGCTGCACACCTCGACTTGTAAAGTCCTGGCCGACTACGCGAAGCGCCGGGATGAGCGCTTCGGCGCGCGAGCAGAGGGGTATTTCCCGGTCAACCTGAACGGTAACCGGCTGGACAAAGGCGAGGTCCACCGGGCGTTTTACCTGCTGTCCCGACAGATTGGATTGCGTGCTGCGGACGCCAGCCGCGGCCCGCGCCTGCACGATTTTCGACACCGATTTGAGGTCGAGACTCTGTTGCGCTGGTATCGCAACGGC 
 >PredictedProphage1 -Hit 4 
 TTAAGTCCTGTGCGGGCCGGGCTGATGGTAACGGCGCTTCGGTCGTTTTTTCGTTATCTGAGGCACCGGGGCGTAATCGCTACCGATCTTGCTGCTTGTGTCCCCACGGTCCCCAACTGGTCGCTTTCCACGCTTCCAAGGTTCTTACCGACTGCCGCGGTGGAAAGTATTCTCGAGTGCTGCGATCGAACGACGTCCGTTGGCAGGCGGAACCATACCATCTTGTTGCTGCTCGCCAGGCTCGGCGTACGCGCCGGCGAAGTCGTCGGTCTGAGCTTGGACGATATTGACTGGAGCACGGGCCAGATCACCATTCGCGGAAAGGGCGGGAAATCGGCCCAACTACCGCTGGTCAACGACGTAGGCTCCGCTCTTGCCGACTATTTACGTCACGATCGCCCACGTTCGGCTACTCGCAGAGTGTTCCTTCGCAACCGGGCGCCGTTAGTCGGCTTTGGGAACTCCTCGACGATTTCCTCTCTGGTCAGGCGCGCTCTGAAACATGCCGGCGTAGAGTCGGCGCACACCGGCGCCCATGTGCTTCGACATTCGCTAGCCACGAGTTTACTTCGGCAGGGTGGCTCG 
 >PredictedProphage1 -Hit 5 
 GTGACCCAACTTCGCAAAATGGTGCTCGAGGAACTCGAGCGCCGTAATTACTCTCAAGCTACCGCACGTGCCTACGTCGGCGCCATCCAGCGGTTCGCCGAACATTTCCATCGCTCGCCCGATCAACTTGGCCCCGAGCACATCCGCGAATATCAACTGCACCTCGTGCAGGACCGCAAACTGCATCCCCGGACCGTCATGATCCAGATGTCCGCGCTCCGCTTCTTCTTCCGCAAGGTCCTGAAGCGGCGCTTTGATCGCGACGACCTGCCCTTGCCGAAACTTCTGCGCCGACAGATCCCCACGGTATTGAGCCGCGACGAAGTGGCACGACTCATCGCCGCGGCTGGCAACCTGCGTCATCGCACCATCCTGATGGCGCTTTACGCCACCGGCATGCGGCGCGCCGAGCTCTGTCACTTGCGGATCGAGGACATCGACAAAGAACGCATGGTCCTCCACATCCGCCAGGGCAAGGGTGGCAAGGACCGCGAGGTCCCACTCCCGCCGAAACTGCTCGCGCAACTTCGCATCCACTATCGCGCCCTGCCGCACCGGTCGGCGTTGGTCTTCCCCAGTCTGCAATCCCGACGCCCCGATCAGCCGATGACGGAAAAGGCCGTCTGGCACGCCTGCCGCCAAGCCGCCCGGCGGGCCGGCATCACCAAGTCCGTCCATCCGCACACGCTCCGCCACTATGCCGCGTCCCGGACTATGCCGCGTGTGGCGTGCGAGCCGCGATTCATG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 FIEPMLLRRTEHLPEGDGVSYELKLDGFRAIAYKTGGKVHLRSRNDKDFNAKYPVIVKALAHMPDETVIDGEIVALDGVGRPSFSALQNYGFSTGPLLYYAFDVMVIAGEDVMALPLEDRRELLRSRVLAKLADPIRESPELVATLPQLIQSVKAQGLEGPIAKRRDSRYEAGQRSGAWQKMRMNQGQDFVIAGYTPSGNGFDALIFGYYDG 
 >PredictedProphage1 -Hit 2 
 NLRLTAIRSFFRYASLEAPAHSGIIQRVLAIPNQRQRRTLVGFLTRPEIDALLAAPNRTQWLGRRDHAFLLTAVQTGLRLSEMTGLRHEDVSLGAGAHVRCRGKGRKERCTPLAKPTAAVLKAWIREQGRGDSKTLFPSTRGGPLSADGVQHLLARHVAKARKHCASLRKKRVSPHVLRHAAAMELLQAGVDRAVIALWLGHES 
 >PredictedProphage1 -Hit 3 
 FASFLARKRSSHITVALALEWATQHARQQPAEWAARLCVVRGFARYWSATDALTEVPPLGLLPYRPARAQPYFYSDHEIRKLMRAAKT_PSIDPLRPWTYHCLFGLLAVTGLRLGEALGLRLGDMDWTEGILTIRGAKFGKSRLVPLHTSTCKVLADYAKRRDERFGARAEGYFPVNLNGNRLDKGEVHRAFYLLSRQIGLRAADASRGPRLHDFRHRFEVETLLRWYRNG 
 >PredictedProphage1 -Hit 4 
 LSPVRAGLMVTALRSFFRYLRHRGVIATDLAACVPTVPNWSLSTLPRFLPTAAVESILECCDRTTSVGRRNHTILLLLARLGVRAGEVVGLSLDDIDWSTGQITIRGKGGKSAQLPLVNDVGSALADYLRHDRPRSATRRVFLRNRAPLVGFGNSSTISSLVRRALKHAGVESAHTGAHVLRHSLATSLLRQGGS 
 >PredictedProphage1 -Hit 5 
 VTQLRKMVLEELERRNYSQATARAYVGAIQRFAEHFHRSPDQLGPEHIREYQLHLVQDRKLHPRTVMIQMSALRFFFRKVLKRRFDRDDLPLPKLLRRQIPTVLSRDEVARLIAAAGNLRHRTILMALYATGMRRAELCHLRIEDIDKERMVLHIRQGKGGKDREVPLPPKLLAQLRIHYRALPHRSALVFPSLQSRRPDQPMTEKAVWHACRQAARRAGITKSVHPHTLRHYAASRTMPRVACEPRFM 
 



Prophage Finder Output

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

Genome size:  604493
Host's GC content:  61.06
Predicted Codon Position GC:  	1st:  64.45	 2nd:  43.19	 3rd:  71.01

 >PredictedProphage1 
 Length:   15487 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 62.84 	 64.11 	 66.43 	 49.23 	 76.66 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	6	0.0810810810810811
 Leu	TTA	0	0
 Leu	CTG	26	0.351351351351351
 Leu	CTA	4	0.0540540540540541
 Leu	CTT	5	0.0675675675675676
 Leu	CTC	33	0.445945945945946
 Lys	AAG	19	0.612903225806452
 Lys	AAA	12	0.387096774193548
 Glu	GAG	24	0.5
 Glu	GAA	24	0.5
 Gln	CAG	30	0.697674418604651
 Gln	CAA	13	0.302325581395349
 End	TGA	1	1
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	10	0.37037037037037
 His	CAC	17	0.62962962962963
 Asn	AAT	7	0.205882352941176
 Asn	AAC	27	0.794117647058823
 Ser	AGT	4	0.0634920634920635
 Ser	AGC	17	0.26984126984127
 Ser	TCG	19	0.301587301587302
 Ser	TCA	2	0.0317460317460317
 Ser	TCT	3	0.0476190476190476
 Ser	TCC	18	0.285714285714286
 Trp	TGG	7	1
 Arg	AGG	0	0
 Arg	AGA	0	0
 Arg	CGG	10	0.175438596491228
 Arg	CGA	9	0.157894736842105
 Arg	CGT	7	0.12280701754386
 Arg	CGC	31	0.543859649122807
 Ala	GCG	43	0.364406779661017
 Ala	GCA	5	0.0423728813559322
 Ala	GCT	9	0.076271186440678
 Ala	GCC	61	0.516949152542373
 Cys	TGT	1	0.142857142857143
 Cys	TGC	6	0.857142857142857
 Asp	GAT	23	0.534883720930233
 Asp	GAC	20	0.465116279069767
 Gly	GGG	13	0.116071428571429
 Gly	GGA	18	0.160714285714286
 Gly	GGT	10	0.0892857142857143
 Gly	GGC	71	0.633928571428571
 Phe	TTT	6	0.181818181818182
 Phe	TTC	27	0.818181818181818
 Tyr	TAT	6	0.222222222222222
 Tyr	TAC	21	0.777777777777778
 Met	ATG	15	1
 Val	GTG	26	0.337662337662338
 Val	GTA	5	0.0649350649350649
 Val	GTT	11	0.142857142857143
 Val	GTC	35	0.454545454545455
 Thr	ACG	17	0.283333333333333
 Thr	ACA	5	0.0833333333333333
 Thr	ACT	9	0.15
 Thr	ACC	29	0.483333333333333
 Pro	CCG	24	0.428571428571429
 Pro	CCA	5	0.0892857142857143
 Pro	CCT	8	0.142857142857143
 Pro	CCC	19	0.339285714285714
 Ile	ATA	0	0
 Ile	ATT	6	0.136363636363636
 Ile	ATC	38	0.863636363636364
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 417571	417813	-1	ref|NP_795486.1|hypothetical protein	44.3bits(103)	0.012
 420264	420701	1	ref|YP_024421.1|Hypothetical protein	41.2bits(95)	0.097
 424192	425322	-1	ref|NP_932363.1|hypothetical protein	329bits(844)	1e-88
 429413	430009	-1	ref|NP_612994.1|hypothetical protein	60.5bits(145)	2e-07
 432536	433057	1	ref|YP_024939.1|gp19 	41.2bits(95)	0.097
 
 DNA sequence:
 GAGGAACCACTGCATCCACGGTGTGACGTCCAGGGAACCTTGTTGGGTGCGCTCAAGGATATCGTAATAGGCATTGCGCTCCTGACGGATCTGCGCGGACATGCTGTAGAAGCGTTGGGGAGTGTTTTCCGAGCGCGCCAGGGCGAGGTCGGCGATGGCCCGCGCGATGCGGCCGTTGCCATCATCGAACGGGTGAATGGTGACGAACCAAAGGTGCGCGAGGGCTGCTTTAAGCACCGGGTCCACGGTAGCGCCGGCATTGAACCAGTCGAGGAATGCGGTCATCTCATCGTCCACGCGGCCGGCATCCGGCGCCACGAAATGGACATGCTCCCTGCCCATAGGCCCGGAGACAACCTGCATGGGACCGGTGCGATCGTCGCGCCAGGCGCCCGCGCTTATCCTGGTGATGCCGCTGCGGCCGGTTGGGAAGAGGGACGCATGCCATCCATAGAGGCGCTCGGAGTCCAGGGGCTGGTCGTAGCGGCGGGTGGCATCGAGCATCATCTCGACCACGCCCTCGACGCTGCGATCGGCGGGTTTGAGGGCGCCGATGTCGATGCCGAGGCGGCGGGCGAGGGATGAGCGCACCTGCGCGGTGTCCAGCCTTTCGCCTTCGATCTCGCTGGTCTTGAGCACGTCGGTGGTGAGGGTCTGGAGGAGAGCCTCCTGTTGCAGAGGGAATCCGAGGGCTTCCAGGTGACCGACCAGGCGTCCCTGGCGGTGGCGCACGGAGGCGAGGGAATCGGCGAGGAGGGCGCTATTCCATGTAAGGTGCGGCCAATTGAGCCGCTCGTGGATGTACATTCTCCGCACTCTCTGCGGATATTATAGCGAGTTTTCGCCGCACCACCAAGTATTCACCGCAATACGTGCGGCAAATAGGACTTGTATTCTCCGCATCGCCCGGGTACCGGCCGGCCTCAATCGCCGAGGAATTTGCCGAAGGGGCGGAGGCCTTTGACGTTGTCGCAGACGGCTTTGAGGC!
 CGGCGG
TCAGGGGGATGGCGAGGAGGAGGCCAGGGGCGTCCCAGAGGAAGCCCCAGATCATGAGGGAGAAGGTCACGATCAATGGATTCAGGTGGACGCGCGAACCGACGATTTTCGGGTAGAGCACGTTGAGCGCGATGAGGTGGAGCAGGGCGACGGTCACGACGACCAGCACGTAGGTGGAGACGGTGTTCACCGGGAGGGCGGCAAAGAGCGGCGGGATCATGGCGAGGGGCAGGCCGATGTACGGGACCAGGCTCATGAAGCCGCTGAGGGGGCCGACCAGGGCGGGGTAGGGCACGTGCAGAATCCAGAACAGGACGGAGCTGATCATTGCCAGCATAAGGCCGAGGACGAAGTTGCCGACCACGAAAGCGCGCACCATATCGGCGATGCCCTGCATGCTGCGCGCGGCAATCAGACGGTCTTCGCCGTGGAAGAACTGGAGGAAGCTGCGGTTCAGATGATCGCGCCAGCTCAGCATGAAATAGACCAGGAACGGGATAAACGATGCCATCAGGAGCACGTGGTAAAGGCCGCTGAGGCGCAGCAGGTAATCGCTGATCGGGGTGCTCTCCTCGTGAATGCGCACCTCCGGGATAGCTCCAGGGACGGGGGGCGGGACGGCCGCGGCGGCGCCCTTTTTGCCGGACTTTTTGGATGCGGAGGCGAACTGCTCCTGCTGTCGCCGGCGCTCTTCTTCCAGGCGCTGGCGGGCGGGGACGAGGATCTTGTAAGTCTGGTCCTCCATGCCGGAGATTTTCTGCTGGACGTTATCCACGAGGTCGGCGATGCGCTGGCCGTATTTGGGGAGCTCGTCGTAGAGGCCGGACAGCTGGGAATAGGCGCCGAGCGCGATCACGTAGAGAAGAGCGAGTGCCACGGAGCAGACCACGAAACTGGCCAGCGAGCGCGGGAAGCGGATGCGCATGAGCAGCGCGACAAAGGGTTCCAGGATGAAGGCGATGGTGAGGGCGATCAGCGAGGTGATAAAG!
 AAGAGGCGGCCGAAGTAGAGGACGGCGATGATCACACCGGCGGCCAGAATCGGCAAAGCGACATTCCGCGCTTCCTGCACGGTCTTGCTGGTGATGCTGGAAGAGTGAGTTACGACGGCCACGGCGCCTTGTAGACCCTTTAAATCGACTGTAGCACGCGCACGTCTATAATGAAATTGAATTGACCCCCGACCTATCGCGCATTCTCGCACTTGACCTGGGCAAACGACGGATCGGGCTGGCGATCAGCGACCCGTTGCGAATCACCGCGCAGGGACTCCCGAACCTGGTGCGGACGCGCATCCGCGACGATTTGGACGCGCTGGAACAACTGGTGAAGGAGCGCGAGGTGGGGCTGGTGCTGCTGGGAAATCCGATCAATATGAAGGGGACCGAG
GGGCGGCAATCGGGGTGGGTGCGGGAGTTCGCGACCGCGATGGAGAAACGCACGGGCGTACCGGTGAAGTTGTGGGACGAGCGGCTGACCTCGGTGGAGGCTGGGCGGGTGCTGCGTTCGAGCGGGATCAGTATTGAGAAGCGGGCCGCGGCGGTGGACAAATTGTCGGCGGTGATCCTGCTGCAGAGTTACCTGGATTCGCTATGAAGCTTCTGCGGCGGCTGGGAGTGGTGATTCTGCTGATAGCGGCGGCGGGCGGTTTCGCGGCCTGGCGGCTGGCGCAGCCCTACAGCGGCTTTCAGGGTGAAACCTTCGTGGAATTTCCGCGCGGGACGGGCACGCGGGCGATGGGCGAACAACTGGCGCGCGCCGGAGTGGTGCGCAGCCAGTGGGAGTTCCTGCTGGCGCGGTGGGCGAGCGGGGCGCGTGTGCTCCAGGCTGGGGAGTACAAGTTCGACCATGCGGCGAGCCCTCTCGAGGTAGTGGGGCGGATCGCGCGCGGGGACATCTTCTACTACGAGCTGGTAGTGCCGGAGGGACGCAACCTGTTTGACATCGGGGCCTCGGTGGAGCAACTGGGCGTTTTTCCGGCGGCGAAATTTCTGCAGGCGGCGCGCAATCCGGCGATGATCCACGATCTGGACCCGGAGGCGCCGACGCTGGAGGGCTACCTTTTTCCCGACACGTACCGGCTGGCTCGGAAGACGACGCCGGAGCAGTTGTGCCGGACCATGACGGGCAAGTTCCGGGCGGCGTGGAAGAGCCTGCACACGGAGGCGGACGTGCATCACACGGTCACGCTGGCGTCGCTGGTGGAGAAGGAAGGCAAGCTGGCGGAGGAGCGGCCTCGAATCGCGGCGGTGTTTGAGAACCGGCTAAAGATCGGGATGAAGCTGGATTGCGACCCGACGACGATCTATGCGGCGCTGCTGCAGGATCGTTATCACGGGGTGATTCACCGCAGCGACCTGGATAGCGATCAGGCGTAC!
 AACACG
TACCGGCACGCGGGGCTGCCGCCGGGTCCGATCGCGAACCCGGGGCTGGCATCGATGCGCGCGACGTTGGAGCCGGCGAACAGCGATTCGCTGTACTTCGTCGCGCGCGCGGACGGCAGCGGGGGCCACGAGTTCTCGAGCAATATCGCCGCGCACACGAGCGCGGTGGAGCGTTACCGGCGTGCCCTCCGCAAATAAGTCGTTGAAGCAGCAGTTTCGGGAATACCTGGCGGCCGAGCAGCCGGCGCGGATTACGGAGGCTGTGTGGCGCGGGCTGCTGGCGCGACTGGCGCCGGTATCGGAGAGCTATCTGCGGGAACTGCTGCGCGATACGGGGCTGCCGTTCGACCAGCCGTACGCGGGCATCCGGCAGCATACCTTCGAGGAGCTGGAGGGTTCGCTGCGGGAGATGCTGGAGGTTTACCGGGCGTCGAACGACGCAGGGGATAGGGAGCGGGCGCGGTATTGCAGGCGGCAGGTGATCGCGGCGAAGGACCGGGCGAAGTTCCTGGTGCAGCGGAATCCGGCGAAGGAAGAGATGGCGCAGTGGATGCTGGTGTGGCTGGAAAATCCCGAGGTATTCCCGGCGTGGGTGGAGGCTCGGAAGAAGCAGATGGGCGCAAGGATGGCCACCGGTGAAGGCGAATAGGGGCTGTTCTTTATCTGCGTTCATCTGCGTTCATCTGTGGCCCATTTGGTTTGTCGAAAGAATTATGGGCCGCAGATAAACGCAGATGAACACAGATAAAAACGAAGGCGGTGATTTGCGCGGCGAAGTTGGTATGGTGTCGGCGTGCGCACGGTCTCACAAGACGGTGGCGTGCCGGTTCTGTCGGGACACGGCAGTATACGAGCAGGCTGTGACCGGTCGATCACGATGTCGCTGCAATCGCTTGCCCATGCCGAGTTCGGAGGAATTGAGTGCCATTCTCATGCAGGAGAGGATCTACTTCGTGACTCGTGCGGACAAGACGCCGGCGCTGAAGTTG!
 CGCGTCAGATCTTGCCCCGGTCGAAAACGCTCGGTTCTCTAAGCAGTTTGGAAAGGCGCGGGGC
GCGCCGGGCACGAGCGGAAAGCGCTGACTGAAATGCTGCCCAGCCTTCGGGGATCAGAGCGAAACGGCGGCGATCCGGCAGTTCCGCCGATTGAAGGGCAGGTTGGGTCACGGTGTTCGGATCTGTCATGACAACTAGTTATTGCTCTTGTTGTTGAAGCGGTAGCCGAGGATGGCCTTCACCAGGAGGTGGTCGGTGGCCTGGGTGACGCCGACGCCGACGCCGAAGTTGAATTCCCAGTTGCGGCCGAAATCGATATCGACGGCGGGGATAAACATCTGCTCGGTATCGCGCACGACGTCGAAGGAGGCGATGCGTCCGAAGGCTCCGTAGTATTCGAGCCCGAAGGCGAGCCGCTTCACGACGTCGTAGGAGACCTTCACGTTGGGAGAGAAGTTGGGGTTCTCGGACTTGCCGGGACCGTGGAGGGACATATCCAGCGTCGGGTTGAAGGAGGCGTATACCTTGCCTATTTTCTTATCGATGATGGGGCGCAGCTCGATGGTCCAGGTGTCGGGAGAGAACTGGGGGCGCTGGTAGCCGATCTCGGTGGAGAGGCTGAGACCGACGGGAAGCTTGTATCGCTCGGGGATCGCGATGCGCGGGCGGATGTGGGTGCCGACCCACTTCCAACTGCCGTCCGGCTGGATGCTGGTGAACTGGTAGAAGCCGCACTCGAACCACTCGTTGAAGCCGTGGGTGATCTCGACGGTTTCGTGTTCCGCATGGTTGGTCGGCAGAACGCCATCGTTCACCCCTTTGCTTCCCTTGGCGGTGAAGTTGCTGTGGAGCTCCACCATCGTAACGCCCTTGGGAATGAGATCCGAGCCATAGACCTGGACTTCATAATTGCCCTGGGCGCGCAGGCCGGCAGCACAGGCCAAGGCGGTGATGAGGATAAAAGTATGAGTGCGCACTTGTATCACTTTAAACCAGACGGGTCAGGATTGTCCGATCACATCCTTGTAGATTTCGAGGACCTGGCGGGC!
 GGTCCA
GTTCCAGCTGAAGCGGGCGGCCTGTTCGCGGCCGCGGCGGATGAGGCGGGCGCGCAATTCCTCATCGAGCAGCATGTCGCTGATGCCGCGCGCGATATCGAAGACGTTCTCGGGGTTGACCTGGATGGCGGCGTCGCCGACCACTTCGGGGAGCGAGCTGACGTTGGACGTAACCACCGGCGTGCCGCAGGCCATGGCTTCGAGCGGCGGCAGGCCGAAGCCTTCATAGCGCGAGGGGAAAACGAAGCCGGCGGCCGATTCGTAGAAGCAGCGGAGGGTTTCGAAGGGGACGAAGCCGAGAAAGCGAACTACATTTTCGACGCGGCTCTTGATCACGGCCTGGCGCACGGAAGGGTATTGGGAGATGGTATCGCCGATAATGACGAGCCGCAGGTCCTTATAGACGGGGTGGTGCGCAAGCTGGTCGCGCACGACGGCGAAGGCCTCCACAAGTCGCGGGATATTCTTGTGGCGGCGGATATTTCCGGCGTAGAGCAGGAAGGGATAGTTGATCTGGTAGCGCTCCAGGATGAGCTGTTGTTCCTGTCCGCCTGGCTCCGCGGCGCGATTGAAGAAGGCGGGATCGGGCGCGTTATATACGCGGGTGATGCGGCTGGAGGGCACGCCCATCTGGGCTTCGACATCGCGCTTGGTGGCCTCGCTGACGGCGATCACGCGATTGGCGCGCACCAGGCCGCGGCGAAAGCGGTAGCGGCGCAGCTGCATGCGGAGGTTCGAAGTTTCCTGCTCGAAGAAGATGTTGGCCAGATCGTGGATGGTGACCACGTAGGGCTTGATCATGAAGAGCGGAACGCGATTCAGCGGGACGTGGACGAGGTCGGGCGAGAGTCCCTTCAGGAAGATGGGGAAGGCCACGTGGTCGAGGGTGCTGTGATCGCTGCGTACGTATACGGCCGAGCTGAAATTTTCAGGAAGGCCTTCGACGGCGCGCACGTCGGCGGGTCCGGAGACCAGCGTGTAATGGTTGG!
 TCCGGTCGATGGCGCCGAGTGCCTGGACGAGGCTGCGGATGTAGGTCCCGATGCCGAAGTCGCG
GACGCGGCGGGCGTCGATGACGATGTGCGCCGCCATTCTAGGCCTGGACGGTATCGCGTTTCCAACTGTAGAGCGGGAAGCGGGTGGTGAGCGCCTGCACCTTCTGCCGTACGCCGGCGATGACATCCTCGTTTGCGATATTAGTGAGCACCTCGGCGATCAGCGTGCCGACTTCGCGCATCTCGGCCTCTTTGAAGCCGCGGGTGGTGACGGCGGGCGAGCCGAGGCGGATACCGCTCGGGTTCATGGGCGGATTGGTATCGAACGGGATGGCGTTCTTGTTGACCGTGATGCGCGCGCGGTCGAGGGCCTGTTCGCTCTCCTTGCCACGGAGCCCTTTCGAGAAGACGTCGAGCAGGACAACGTGGGTATCGGTGCCGCCGGAGACCACGCGGAAGCCGGCATCGATCAGGCTCTGCGCGAGGGCTTTGGCATTGGCGACGACCTGCCGCTGGTAGACGGCGAATTCGGGCTGCAGGGCTTCGAGGAAGCAGACGGCCTTGGCCGCCATGACGTGGACGAGGGGGCCGCCCTGGGTGCCGGGGAAGACGTTCTTATCGATCTCCTTGCCGTATTTTTCGCGGGCGAGGATGATGCCGGCGCGCGGTCCGCGCAGGGTCTTATGGGTGGTGGAGGTGACGATGTCGGCGAACTCGCAAGGGTTCGGATGGACGCCGGCGGCGACCAGGCCGGAGATGTGCGCCATATCGACGAGGAAGACGGCGCCGACGGCATCGGCGATTTTGCGGAAACGGGCGAAATCGATGATGCGCGGGTAGGCGCTGGCGCCCGCGATGATCATCTTGGGCTGGTGCTCGCGGGCTAGCTTTTCGACTTCGTCGTAATCGATCAACTCGTCTTCCTTACGGACGTTGTAGGGGACGATCTTGTAAGTCTTGCCGGAGAAGTTGAGGGCATGGCCGTGGGTGAGGTGTCCGCCGTGCGCGAGGTTGAGGCCCATCACGGTATCGCCGGGGGAGACCACGGCC!
 CCGTAA
GCGGCCTGGTTGGCCTGCGAGCCGGAGTGGGGCTGTACGTTGACGTACTCGGCGCCGAAGAGCTTGCTGGCGCGCTCGCGGGCCAGGTTTTCGACCACGTCGGTATACTCGCAGCCGCCGTAGTAGCGTTTGCCGGGATAGCCTTCCGCGTACTTGTTGGTGAAGACGCTGCCGGTGGCTTCGAGCACGGCTTCGGAGGTGAAGTTCTCGCTGGCGATCAGTTCGAGCTGACCGTCCTGGCGCGCCGTCTCGTGCTGGATGGCCTGGTAAATTTCAGGGTCTACTTCGGCGAGGGTGCGGGACATGCGTTGTGATTCGGTCATATCGATTTTTCCTCCGAGGCTGGGCGAAAAGCCGCCTCTTATTTTTCCAACTGGGCGATCTTGGCGACGCGGCGGGCATGGCGTCCGCCGGCGAATTCCGTATTCAGAAAGATGTGGATGAGCTCGATGGCGCGATCTTCATCTAGGTACTTGGCGCCGAGGGTGAGCACGTTCGCGTCGTTGTGTTCGCGCGTGAATTTGACTTCGTCATCGCTCTGCGCGGGAGCGGCGCGGACGCCATCGATTTTGTTGGCGGCCATGGCCATGCCGATTCCCGTGGAGCAGACGAGAATTCCGCGGTCGCTGCGGCCTTGCGCGACATCGCGGGCAACGGGTTGGGCGAAATCCGGATAATCGCATGACGCGTCCGATGCGGTGCCGAAGTCAACGACTTCGTGACCGTCCTGAGCCAGTTTCTGCCGCAGTTTTTCCTTGAGAGAAAACCCGGCGTGATCCGCGCCAATGGCGATTTTCATAAGGGGAGAATCATGATTTTAACATGTTAGAATTCAGGCCTATGCGGTGGAGCAGGCTATTCATTCCGACGCTGCGCGAAAATCCGGCAGACGCGGAAACGGTGAGCCAGCAGCTGCTGGTGCGCGCGGGCTACGCGCGCGCGGTGAAGACCGGAGTCTACGGGTGGCTGCCGTTGGGGCAGCGAGCGAT!
 GGCGAAGATTCAGCGCATCGCGCGGCAGGAATTGACGGCGCTCGGCGGGCAGGAAGTAGGGCTG
GACGCAGCGGATGCGGCGGAGATCGGGCGCGGCGAGATTCGCGGCGCGAAATCGCTGCCGCAGATCTGGTTTCGCGTGGAGGCTCCGCTGTTGCGGAGGCGGCAGTTCGCGGGACTGGACGTCTACGGGTTCGGCGAGGACGCGGGTGCAATGCGCGAGTGCTTCCAGCGTATTCTGGATCGCTGCGGCGTGAGCGCGCTGGAGGTGGAAGACGCGTTCTTCGCAGTGATGGAGGCGGGGACGGACACGGTGGTGGTGTGCCGGGGCTGCGGATATGCGGCGAGTCCCCGGACGGCGTGGAGCGCGGCGTCGGCGCCTGGAATCGCCGATCCGGAGGGCGACCTGACACCCGAGGAGTTCCACACACCAGGGCAGAAGACGATCGCCGACATCGCGAGTTTCACGGGGCTGCCGGAGAGCGCGCAGATGAAGAGCCTGGTGCTGGTGGCGAACCAGAAGCCGGTGCTGGTGATGCTGCGCGGCGACCATCAGCTCAATCCGGCGCGTTTCGCGGCGAAGACGGGCGACGCGGGATTCCGCCAGGCGCTGCCGGAGGAGTTATTCCGGTGGTTCGGCGCGCAGGCCGGTTCGCTGGGGCCGGTCGGAGTGAAGGACATGCCGGTGCTGGCGGATTCGGCGCTTGCGGGGCGGCGGAACATGATCAGCGGCGCAAACCGCACCGACTATCATTTGCGCCACGTGACGCCGGGCGAGGATTTCGCGGCGGAGTTCTGCGATTTGCGCGAGGCGGCGGCAGGCGATGCGTGCGCGCGCTGCGGCGCGGTGCTGGAATTTCGCAACGCCGTGGAACTGGCGCGGATGACTGCGGGCCTATACCGGCTGGCATTGGATCGGATTTTGACGACCGCGATTGAAGCGGGCAACGACAAGGACGGCATGGCACTGCCGGCCGGCGTGGCGCCGTTCGACGTGGTGGTGTCGGTGGCGGTGGCGGGCGATGCGGCGCAGATGGAGGCGGCGGAGCGGAT!
 CTACGC
GGAGTGTACGGCGGCCGGGATGGACCTGCTGTTCGACGATCGCGATGAGCGTCCAGGGGTGAAATTCAAGGACGCGGATTTGATCGGCGTGCCGTGGCGGGTGACGGTCGGCAAGAAAATCGCGGGCGGCCTGGTGGAATTGGTGGAGCGCAAGACGAAGGTGGTGACGGCTGTGCCGATTGCGAGCGTGATGGAGGCTATCGACCAACCGCGTTGACTCTGACGATGGCGACGCGGCCGACGGAGGCCATCGCGTTGCATCGGGGCGAGCCGGCTGAAAGCCGGCTGCAGGCAGGATTGCCTGCCCCACTTCTGACGGTTGCGGCTCTGATGGGGCGGCGAGTTTTCCGTGCGGGTGAGCCAGTTATGGACGTCTTAATAATTGCACGGTGCTGGAAGTTACCTGTTCGGGATAGGCGATCCGCTGACCGTCCGGCGATGGCACAACAAACGTCACCTTCGACGATTCCAGCAGTTGCGATGCATGTCCCTCCAGGTCGGAATAAATCATGATGCCGCCGGAGCCTGCATTGGCGGTCACGAACAGGCCTTTGCCATCGGCCGACCAGGATACGGAACTCAGGTTCCGAAATCCCTCCAACTTGATGAAGCGTTCGTCTATCCGCGCATCGAGAGGAGTGAGGCGGATCAGCGCGCTTTGGGAATCATGGTTCGGGCTGGCGATCACGCTGCCATCCGGCGACAGGGACCAATCGAAAATGAGGTAGGGGCCATAGGGAGTGCGCGCCAATACGCGGCCCTTTCCCTGCACCGGATCCAACTCCCGCACAACGAATTGATCGGCCTCCACGGAACGCACCACACAGCGCGACGCCGGTGCCGCACCGCAGCCCTGTTCCGCGCCTGTCTCTCCGGCCATCGGCACGGGTGCGGCCTGCGCGCTGCCGTCCACCGGAAGGCGCATCAATTGAGCGGCAAACCGCGACGCGCCCTGGCGAAACAGGATCCACCGCCCATCCGGTGTAACC!
 CTGGGCTGCACGGCGTCTTCGCGGCCGCGATAGAACATGGTTTCCCTCCCGCTGGAAAGCTCGT
ACCGAAAGAGCTCAAATCTTCCGTTGCGGTTAGATTCGAAGAGGATCGCCTTGCTATCGGGGGTCCACGATTGGGGATAGTCCTGTGTGAGGCCGAAGGTCAATCGCCGGACGTTGGAAAGAGCCGGAACGGGAGCGGCTGCGAACTCCGCCGCATAAATATTGACGAACTCGCTGGCCGAGATCAAAGCCATGGTGCCGCCGTTATTGGAGACGGTCAGGCTCGAGAACATTCCGTCCTTCGAATACGGCATGGGAGTCCGGCTTTGGCCTATGACCGCGCCGGTCGATGGATTCGTGCGGATCTCGATCAATTCCCCGCCGTGCGACGTCGCGGGATAGGCCCAGGGGAGACCGATGATCCGGCCATCAGGCAAGGCCGTGGCGGAAAACAGCGGCAGATCGTCGATGCGCGCAATCAACAAACCCGATTCGGCGTCCACGGTTTCAAATACAAACGAATACTTGGCCGGTGGTCGCGCAACCTGGGTCAGGATCATGTAGGAGATACGTTTCGAATCCGGCGACCAGACCAGCGAATGGAAATTCGCGCCGGGCTCGGCCGAGCGAATCACGCGAGGATGCGACCCATCGCGATCGACGATCCGAATCGCGCTGCCGTCACTGCTGCAAAGCGCGATCCGTGAGCCATCGGGCGAAGGCGCCGCATCGCGGCCCTGATGGGGAACGAGCACGGCGTCCCGCTCGAGGCTGTCCAAGGGCAACACCCATAGCGCCAGCTTCCGATCGTCCCCGGCGCCGCTGATCAGCAGCTGCTTACCATCCGCGAACCACGCCAGGCGCGATGCCCGGAGGCCCGCGGGTGAGTGCAGAATCCTGGTCCCGCCGTCGCTCATCCGCCGCAGGTACAATGGGCCGCCGAACAGGGCATACACGAGTTGGGTTCCATCCGGCGAAAGGGCGGCTGCGGTTACGTTCTTATCGAGCAAGCGCGTGAGCGGATCCAGGACCAAGGGTTTCGGTGTTTCC!
 AAGGGT
TGGCGCAGGAAGACCGCGCCCGCCGCGACCAGGAGAAGGGCGATCGATAGCGCAGCCATTGCCGGCGCGCGACGGCGGCGGGTGAAGGGTTCCGGAGTCCCGGACAACTTCAGGAGTTGCTCCAATTCGACGGCGGCCGGGCGATCTGCCGCGTCCTTGGCCATCATCGCGGCCACCAAAGAACTCAAAGCCGCCGAGATTTCAGGCCGCACGGAGCCGGCACGTTTCGGCTCGTGGTGAGCGATGGCATAGGCGGTATCGATGGGCGAAGCGGATTGAAAGGGATGGACTCCGCACAGCAGTTCATAGAGCATCGAGCCCAGTGAAAAGATGTCGCTCGCCTGGGTGGGGTTCTCTCCGCGCGCCTGCTCCGGCGACATATAGCTCAAAGTTCCGCCGAGAAAGCCGAACAGGCTCGCGGAAGCCGAAGGGGCGCCCTCCAGCAATCGGGTTCGCCGCGCCAAACCGAAGTCGAGCACCTTCACGTACCCATCCGGCCGCAGCATCACGTTCTCAGGCTTGATATCGCGATGCACGATTCCACGGGCGTGGGTTGCGGCGAGCGCTTGCACGATCTGGCGGGCCCAATGGATAACCTGGCCGACCGGTTGCGGCTGGCCGCACACCTCGCGCATCGATTGACCTTCCACGAGTTCCATCGCCAAGGCGACTTCCGAGCCGTGGCGGACAACATCGTATACCGTCACGATGTTGGGATGATTGAGCGCCGAAGCCGCTTTGGCTTCGCGGATCAGCCGCTCCGCCGAGCCCATTTTGCCCGGCGAGCCCGTCTGCCCGCTGAGCAGTTTGAGGGCGACGAGGCGGCCCAGTTCGGAATCGTGCGCCGCGTACACCTGGCCCATGCCGCCGCGGCCGAGCTTGGCGGTGATCTGATACCGCCCCAATTTGGAACCGATGCGGGGCTCCTGCTCCTCTACGCCGTCGAGGTCCTCTTCTCTGGCGTTCTGAAGCAGTTCGAAGACAATCTC!
 CAGGAGTTCCGGATCGCCGGAAGCGCGTGCGCGTGCGAAATCGTGCCGCTGCTCGCTTGGCGTC
TCCAGTCCGTCATCAAAGATCTCATAGGCGCGACGCCAAAGCTGAGCCTTGAGATCTGCCTCGTCAGGCGTGCCCATAAGCGACGCGGGCGCAAGGTCGTCTCATTTTCTTCTCAGCTTCGTATTATAACGGACGCTTGCCGCGAGATAATTGAAAAGGATCAGGCAACATGCAAGCGGCCCCAGGTGAAATTGCGGAATTGATGGACCGGCTCCGTTCGGGGAGCAAGGAAGCGGCTGGACAGCTGGTGTCACTGTTCTACCCGGAGCTGCGCCGCCTGGCCCGTTCCCACATGCGCCGCGAAGCGCCCGGCCACAGCTGGCAGCCAACCGTGCTGGTCAATCAGCTTTACCTGGAGTTGATCAAGATCAAGGCGCTCAAGAAGGACGGTGGCGGCGACGCCTACGACGACCGCCAGGCGTTCTTCGGGCTGGCCGCGCATTTGATGCGCCGCCTGTTGATCCACCATTCCCGCCCCCTCGCTCAGCGCATGGAGATGACCGAACTGGGGGATGAGGTGCTCTTCGAAGGCTCCGACACGGATGAACTGGCAATCGTGGAGGATCTGTTGGGAGGTCTTGACGAAGTCGATCCCCAATTTCGCACGGTGGCCGAACTGAAGGTCTTCGAAGGCCTCTCGATGGAAGAGATCGCCGCGCAATTGGACATCCCGCTTCGAACGGCCTACCGGCGCTGGACGTTCGCGCGCACCTGGCTCGCCAGGCACCTGTAATCTCGCCCCGTAAATCCGCGACGAAAAAAATATTCGCAGGCGTGGCAAAAAGAACGGCCTGCTCTCCCTTTCCCTCACGAGGGGCCTTTTGACGAAGCCGCTCGCGCAAAAGAGGAGAACCATGTCAACTCGAACCACAATCTTGACGCTCACGCTGCTGCTGCTCATGGCGGCGATCGGAAACGCGCAGCCTACCCAGAGCTTTGGGACCATCATGAACTGGACCAATGGCACGCTGCCGCACTATACCTGCGGG!
 GCACCC
GGAGAACCATCCTGTTTCACAGGCTGCGCCGACGCGCCGGGCAACCAAATCCGCATCGATTCCTTTACCGGCCAGTTGAATTGCAACCTTCCGGCCCCAACGTGCACGCTGGCGCCCGGATTGGTATTTGTTCCCAACCAGCACGACATTACGTTCCTGGTGATGACGGACGTTCACCTGCGCAATGGAACCAGCGGCAAGATCACGGACGTGCAGCATTCCCTACACGCCTTGAACATGCGCCAGATGGGACATAACGGCTGGAGGTGGACCAAATCGAACGCTGGTTTTCCGAATGACCCCATCGCTCCGCCGGTAGGCCTGGTCTCGACGGGCGACGAAACCAACGACGGGCAGCCGACAGCGCTCGGCGCGTTCCGCCTGCTGTATGAATTCGGCTTCGCCACCGATGCCGCGCAGATCCCGTTATTCCCGGGCTACGGGAACCACGACGTTCAGAACGATTGCATCTTCGGCAGCTGCGGTTACCGCATGCTGGACTATTCGAAGAACGCCGGGTCCTGCGCACCCAATTTCGACCCGAACAGCGACAACTACTCGTGGGATTGGGGCAAGTATCACATGATCCAGCTGAACGTCTGGGCCGGTTCCACATTGGCCGGCGTGAACAACAGCTACATCCCGGCGGTGACCGATACGCATCCCTCGGGGCTGCCCTGGCTGGTGGCGGATCTTGCCGCTAAGGTGGGGAACTCGGGGCGGCCGGTGATCATCTTTCAACACTACGGCTGGGACCCCTTCTCGAAAGATGGCGACTGGTGGTCCGAAGCCGACCGGCAGTCGTTTCTGGATGTGATCAAGGACTACAACGTGCCGATGATCATCACCGGGCACGACCACAACATGGGTTCTTACTCGATCCAGGTCACCGACAGCCACGGAAAGGTGAAGACCATCGACGACACCGTGGGCGGAACAGGCGGGCAAGGCGGCAAGGGCGAATTCTTTGTCGTGCGAATGACGGACCA!
 GTTCTTCGACCTCATGCCGGTGGAGTGGCTCGATCCGTTTATGTTTCCCCTGGTAGCTTCGCCA
TATCCGATAGAGGTTGGCGCGGCACGACCTTCGTTCTTCAATAATGTCCAAAGCTGCCGGCGTTGGGTCGGCGGCGAACTGGGGTCCGCGCCGGTCACTACCGCGGCCAGCGGCGCCCAAGCATTCACGATCACCAATAACACCCAGTCCACACTACAGGGGCCGTTCGCGCTGCGCTTCGATTCCGTGGGCTACCGCAGCTACCCGGCGCTGCCCGGACAAATCCTGTTCACCGGGAGTTGTTCCGCGGGCCCGCTCTATGTCGCCGGCACGAAGACGTCACTGGCTCCAGGCGAATCGGAAACCATCACATTGAGCACCACGGCGCCCACGCTCTCCGGCGTGGTCACCCTGGCCGGCGATAACCTGCAGGCCACTCCTAATGCGGTTACCTTCGCCTATCCGTACGGCGATGCGCAGACCCTGGGCGTGAGCACGGCCTTTGGCGCCAAGATCCCGGTTTCCATCAGCGCGAATCAGCCGTGGATCAACGCCGGGCTGGATAACTCCACTACGCCCGCGAGCCTGAAGATCGGTATCGAGACCGGCAAATTCAACGGAAGTCAACAGGCGACGATTACGATCAGCTCGTCGAATGCCGCGTACAAATCAATTCCAGTGACGGTGTCGCTCACGGGCGTTCCGGTGACCTTCAACACCGCGGCTCCGAAGGCCTCGGTCACAATCGACGGCACGACTTACAACCTCCCGGTGACTCTGAACTTCGCCTACGGGTCGGCGCACAAGGCGACGGCGCAAACACTTTTCGGCGCCGGAGTACAGACGCGATTCCTGGGCTGGCCCGGCAACGTGCCGAAC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 GACCCGGTGCTTAAAGCAGCCCTCGCGCACCTTTGGTTCGTCACCATTCACCCGTTCGATGATGGCAACGGCCGCATCGCGCGGGCCATCGCCGACCTCGCCCTGGCGCGCTCGGAAAACACTCCCCAACGCTTCTACAGCATGTCCGCGCAGATCCGTCAGGAGCGCAATGCCTATTACGATATCCTTGAGCGCACCCAACAAGGTTCCCTGGACGTCACACCGTGGATGCAGTGGTTCCTC 
 >PredictedProphage1 -Hit 2 
 CGTGGAATTTCCGCGCGGGACGGGCACGCGGGCGATGGGCGAACAACTGGCGCGCGCCGGAGTGGTGCGCAGCCAGTGGGAGTTCCTGCTGGCGCGGTGGGCGAGCGGGGCGCGTGTGCTCCAGGCTGGGGAGTACAAGTTCGACCATGCGGCGAGCCCTCTCGAGGTAGTGGGGCGGATCGCGCGCGGGGACATCTTCTACTACGAGCTGGTAGTGCCGGAGGGACGCAACCTGTTTGACATCGGGGCCTCGGTGGAGCAACTGGGCGTTTTTCCGGCGGCGAAATTTCTGCAGGCGGCGCGCAATCCGGCGATGATCCACGATCTGGACCCGGAGGCGCCGACGCTGGAGGGCTACCTTTTTCCCGACACGTACCGGCTGGCTCGGAAGACGACGCCGGAGCAGTTGTGCCGGACCATGACGGGCAAGTTCCGGGC 
 >PredictedProphage1 -Hit 3 
 GACCCTGAAATTTACCAGGCCATCCAGCACGAGACGGCGCGCCAGGACGGTCAGCTCGAACTGATCGCCAGCGAGAACTTCACCTCCGAAGCCGTGCTCGAAGCCACCGGCAGCGTCTTCACCAACAAGTACGCGGAAGGCTATCCCGGCAAACGCTACTACGGCGGCTGCGAGTATACCGACGTGGTCGAAAACCTGGCCCGCGAGCGCGCCAGCAAGCTCTTCGGCGCCGAGTACGTCAACGTACAGCCCCACTCCGGCTCGCAGGCCAACCAGGCCGCTTACGGGGCCGTGGTCTCCCCCGGCGATACCGTGATGGGCCTCAACCTCGCGCACGGCGGACACCTCACCCACGGCCATGCCCTCAACTTCTCCGGCAAGACTTACAAGATCGTCCCCTACAACGTCCGTAAGGAAGACGAGTTGATCGATTACGACGAAGTCGAAAAGCTAGCCCGCGAGCACCAGCCCAAGATGATCATCGCGGGCGCCAGCGCCTACCCGCGCATCATCGATTTCGCCCGTTTCCGCAAAATCGCCGATGCCGTCGGCGCCGTCTTCCTCGTCGATATGGCGCACATCTCCGGCCTGGTCGCCGCCGGCGTCCATCCGAACCCTTGCGAGTTCGCCGACATCGTCACCTCCACCACCCATAAGACCCTGCGCGGACCGCGCGCCGGCATCATCCTCGCCCGCGAAAAATACGGCAAGGAGATCGATAAGAACGTCTTCCCCGGCACCCAGGGCGGCCCCCTCGTCCACGTCATGGCGGCCAAGGCCGTCTGCTTCCTCGAAGCCCTGCAGCCCGAATTCGCCGTCTACCAGCGGCAGGTCGTCGCCAATGCCAAAGCCCTCGCGCAGAGCCTGATCGATGCCGGCTTCCGCGTGGTCTCCGGCGGCACCGATACCCACGTTGTCCTGCTCGACGTCTTCTCGAAAGGGCTCCGTGGCAAGGAGAGCGAACAGGCCCTCGACCGCGCGCGCATCA!
 CGGTCA
ACAAGAACGCCATCCCGTTCGATACCAATCCGCCCATGAACCCGAGCGGTATCCGCCTCGGCTCGCCCGCCGTCACCACCCGCGGCTTCAAAGAGGCCGAGATGCGCGAAGTCGGCACGCTGATCGCCGAGGTGCTC 
 >PredictedProphage1 -Hit 4 
 CGCGGCGGCATGGGCCAGGTGTACGCGGCGCACGATTCCGAACTGGGCCGCCTCGTCGCCCTCAAACTGCTCAGCGGGCAGACGGGCTCGCCGGGCAAAATGGGCTCGGCGGAGCGGCTGATCCGCGAAGCCAAAGCGGCTTCGGCGCTCAATCATCCCAACATCGTGACGGTATACGATGTTGTCCGCCACGGCTCGGAAGTCGCCTTGGCGATGGAACTCGTGGAAGGTCAATCGATGCGCGAGGTGTGCGGCCAGCCGCAACCGGTCGGCCAGGTTATCCATTGGGCCCGCCAGATCGTGCAAGCGCTCGCCGCAACCCACGCCCGTGGAATCGTGCATCGCGATATCAAGCCTGAGAACGTGATGCTGCGGCCGGATGGGTACGTGAAGGTGCTCGACTTCGGTTTGGCGCGGCGAACCCGATTGCTGGAGGGCGCCCCTTCGGCTTCCGCGAGCCTGTTCGGCTTTCTCGGCGGAACTTTGAGCTATATGTCGCCGGAGCAGGCGCGCGGAGAGAACCCCACCCAGGCGAGCGACATCTTTTCACTGGGCTCGATGCTCTATGAACTGCTGTGCGGAGTCCATCCCTTTCAA 
 >PredictedProphage1 -Hit 5 
 TCGGAAACCATCACATTGAGCACCACGGCGCCCACGCTCTCCGGCGTGGTCACCCTGGCCGGCGATAACCTGCAGGCCACTCCTAATGCGGTTACCTTCGCCTATCCGTACGGCGATGCGCAGACCCTGGGCGTGAGCACGGCCTTTGGCGCCAAGATCCCGGTTTCCATCAGCGCGAATCAGCCGTGGATCAACGCCGGGCTGGATAACTCCACTACGCCCGCGAGCCTGAAGATCGGTATCGAGACCGGCAAATTCAACGGAAGTCAACAGGCGACGATTACGATCAGCTCGTCGAATGCCGCGTACAAATCAATTCCAGTGACGGTGTCGCTCACGGGCGTTCCGGTGACCTTCAACACCGCGGCTCCGAAGGCCTCGGTCACAATCGACGGCACGACTTACAACCTCCCGGTGACTCTGAACTTCGCCTACGGGTCGGCGCACAAGGCGACGGCGCAAACACTTTTCGGCGCCGGAGTACAGACGCGATTCCTGGGCTGGCCCGGCAACGTGCCGAAC 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 DPVLKAALAHLWFVTIHPFDDGNGRIARAIADLALARSENTPQRFYSMSAQIRQERNAYYDILERTQQGSLDVTPWMQWFL 
 >PredictedProphage1 -Hit 2 
 RGISARDGHAGDGRTTGARRSGAQPVGVPAGAVGERGACAPGWGVQVRPCGEPSRGSGADRARGHLLLRAGSAGGTQPV_HRGLGGATGRFSGGEISAGGAQSGDDPRSGPGGADAGGLPFSRHVPAGSEDDAGAVVPDHDGQVPG 
 >PredictedProphage1 -Hit 3 
 DPEIYQAIQHETARQDGQLELIASENFTSEAVLEATGSVFTNKYAEGYPGKRYYGGCEYTDVVENLARERASKLFGAEYVNVQPHSGSQANQAAYGAVVSPGDTVMGLNLAHGGHLTHGHALNFSGKTYKIVPYNVRKEDELIDYDEVEKLAREHQPKMIIAGASAYPRIIDFARFRKIADAVGAVFLVDMAHISGLVAAGVHPNPCEFADIVTSTTHKTLRGPRAGIILAREKYGKEIDKNVFPGTQGGPLVHVMAAKAVCFLEALQPEFAVYQRQVVANAKALAQSLIDAGFRVVSGGTDTHVVLLDVFSKGLRGKESEQALDRARITVNKNAIPFDTNPPMNPSGIRLGSPAVTTRGFKEAEMREVGTLIAEVL 
 >PredictedProphage1 -Hit 4 
 RGGMGQVYAAHDSELGRLVALKLLSGQTGSPGKMGSAERLIREAKAASALNHPNIVTVYDVVRHGSEVALAMELVEGQSMREVCGQPQPVGQVIHWARQIVQALAATHARGIVHRDIKPENVMLRPDGYVKVLDFGLARRTRLLEGAPSASASLFGFLGGTLSYMSPEQARGENPTQASDIFSLGSMLYELLCGVHPFQ 
 >PredictedProphage1 -Hit 5 
 SETITLSTTAPTLSGVVTLAGDNLQATPNAVTFAYPYGDAQTLGVSTAFGAKIPVSISANQPWINAGLDNSTTPASLKIGIETGKFNGSQQATITISSSNAAYKSIPVTVSLTGVPVTFNTAAPKASVTIDGTTYNLPVTLNFAYGSAHKATAQTLFGAGVQTRFLGWPGNVPN