Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig12

Genome size:  2045
Host's GC content:  47.92
Predicted Codon Position GC:  	1st:  56.37	 2nd:  39.64	 3rd:  48.78

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig13

Genome size:  3566
Host's GC content:  48.32
Predicted Codon Position GC:  	1st:  56.62	 2nd:  39.75	 3rd:  49.45

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig14

Genome size:  2805
Host's GC content:  49.80
Predicted Codon Position GC:  	1st:  57.53	 2nd:  40.15	 3rd:  51.97

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig15

Genome size:  2231
Host's GC content:  52.35
Predicted Codon Position GC:  	1st:  59.10	 2nd:  40.84	 3rd:  56.28

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig16

Genome size:  2728
Host's GC content:  44.94
Predicted Codon Position GC:  	1st:  54.54	 2nd:  38.83	 3rd:  43.74

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig17

Genome size:  3496
Host's GC content:  50.37
Predicted Codon Position GC:  	1st:  57.88	 2nd:  40.30	 3rd:  52.93

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig18

Genome size:  2292
Host's GC content:  48.95
Predicted Codon Position GC:  	1st:  57.01	 2nd:  39.92	 3rd:  50.53

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig19

Genome size:  2942
Host's GC content:  47.52
Predicted Codon Position GC:  	1st:  56.12	 2nd:  39.53	 3rd:  48.10

 

Prophage Finder Output

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

Genome size:  5430
Host's GC content:  48.03
Predicted Codon Position GC:  	1st:  56.44	 2nd:  39.67	 3rd:  48.97

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig22

Genome size:  2839
Host's GC content:  47.13
Predicted Codon Position GC:  	1st:  55.88	 2nd:  39.42	 3rd:  47.44

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig23

Genome size:  2472
Host's GC content:  47.13
Predicted Codon Position GC:  	1st:  55.88	 2nd:  39.42	 3rd:  47.44

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig24

Genome size:  3361
Host's GC content:  56.26
Predicted Codon Position GC:  	1st:  61.50	 2nd:  41.89	 3rd:  62.90

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig25

Genome size:  6141
Host's GC content:  48.41
Predicted Codon Position GC:  	1st:  56.67	 2nd:  39.77	 3rd:  49.61

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig26

Genome size:  3715
Host's GC content:  46.14
Predicted Codon Position GC:  	1st:  55.27	 2nd:  39.16	 3rd:  45.76

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig27

Genome size:  7254
Host's GC content:  47.63
Predicted Codon Position GC:  	1st:  56.19	 2nd:  39.56	 3rd:  48.29

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig28

Genome size:  9406
Host's GC content:  44.59
Predicted Codon Position GC:  	1st:  54.32	 2nd:  38.74	 3rd:  43.14

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig29

Genome size:  7899
Host's GC content:  48.27
Predicted Codon Position GC:  	1st:  56.59	 2nd:  39.73	 3rd:  49.38

 

Prophage Finder Output

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

Genome size:  5697
Host's GC content:  45.87
Predicted Codon Position GC:  	1st:  55.11	 2nd:  39.08	 3rd:  45.31

 

Prophage Finder Output

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

Genome size:  8131
Host's GC content:  47.13
Predicted Codon Position GC:  	1st:  55.88	 2nd:  39.42	 3rd:  47.44

 

Prophage Finder Output

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

Genome size:  10008
Host's GC content:  45.00
Predicted Codon Position GC:  	1st:  54.58	 2nd:  38.85	 3rd:  43.85

 

Prophage Finder Output

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

Genome size:  10411
Host's GC content:  49.38
Predicted Codon Position GC:  	1st:  57.27	 2nd:  40.03	 3rd:  51.25

 

Prophage Finder Output

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

Genome size:  11020
Host's GC content:  48.53
Predicted Codon Position GC:  	1st:  56.75	 2nd:  39.80	 3rd:  49.81

 

Prophage Finder Output

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

Genome size:  11035
Host's GC content:  45.74
Predicted Codon Position GC:  	1st:  55.03	 2nd:  39.05	 3rd:  45.09

 

Prophage Finder Output

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

Genome size:  9334
Host's GC content:  47.92
Predicted Codon Position GC:  	1st:  56.37	 2nd:  39.64	 3rd:  48.78

 

Prophage Finder Output

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

Genome size:  14165
Host's GC content:  48.26
Predicted Codon Position GC:  	1st:  56.58	 2nd:  39.73	 3rd:  49.36

 

Prophage Finder Output

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

Genome size:  17864
Host's GC content:  49.21
Predicted Codon Position GC:  	1st:  57.16	 2nd:  39.99	 3rd:  50.96

 

Prophage Finder Output

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

Genome size:  16430
Host's GC content:  49.13
Predicted Codon Position GC:  	1st:  57.11	 2nd:  39.97	 3rd:  50.83

 >PredictedProphage1 
 Length:   9628 
 Number of hits =   6 
 GC	Coding	First	Second	Third
 46.47 	 44.10 	 51.46 	 35.73 	 45.10 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	10	0.10989010989011
 Leu	TTA	11	0.120879120879121
 Leu	CTG	15	0.164835164835165
 Leu	CTA	5	0.0549450549450549
 Leu	CTT	27	0.296703296703297
 Leu	CTC	23	0.252747252747253
 Lys	AAG	25	0.378787878787879
 Lys	AAA	41	0.621212121212121
 Glu	GAG	11	0.234042553191489
 Glu	GAA	36	0.765957446808511
 Gln	CAG	25	0.625
 Gln	CAA	15	0.375
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	14	0.5
 His	CAC	14	0.5
 Asn	AAT	39	0.639344262295082
 Asn	AAC	22	0.360655737704918
 Ser	AGT	3	0.0508474576271186
 Ser	AGC	12	0.203389830508475
 Ser	TCG	5	0.0847457627118644
 Ser	TCA	19	0.322033898305085
 Ser	TCT	7	0.11864406779661
 Ser	TCC	13	0.220338983050847
 Trp	TGG	7	1
 Ala	GCG	2	0.037037037037037
 Ala	GCA	21	0.388888888888889
 Ala	GCT	14	0.259259259259259
 Ala	GCC	17	0.314814814814815
 Arg	AGG	9	0.132352941176471
 Arg	AGA	9	0.132352941176471
 Arg	CGG	11	0.161764705882353
 Arg	CGA	5	0.0735294117647059
 Arg	CGT	22	0.323529411764706
 Arg	CGC	12	0.176470588235294
 Cys	TGT	5	0.625
 Cys	TGC	3	0.375
 Gly	GGG	7	0.148936170212766
 Gly	GGA	14	0.297872340425532
 Gly	GGT	9	0.191489361702128
 Gly	GGC	17	0.361702127659574
 Asp	GAT	29	0.568627450980392
 Asp	GAC	22	0.431372549019608
 Phe	TTT	30	0.625
 Phe	TTC	18	0.375
 Met	ATG	16	1
 Tyr	TAT	27	0.675
 Tyr	TAC	13	0.325
 Val	GTG	6	0.1
 Val	GTA	13	0.216666666666667
 Val	GTT	23	0.383333333333333
 Val	GTC	18	0.3
 Thr	ACG	3	0.0566037735849057
 Thr	ACA	13	0.245283018867925
 Thr	ACT	10	0.188679245283019
 Thr	ACC	27	0.509433962264151
 Pro	CCG	11	0.234042553191489
 Pro	CCA	10	0.212765957446809
 Pro	CCT	8	0.170212765957447
 Pro	CCC	18	0.382978723404255
 Ile	ATA	13	0.188405797101449
 Ile	ATT	35	0.507246376811594
 Ile	ATC	21	0.304347826086957
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 2461	2733	-1	ref|NP_958155.2|gp48 	35.0bits(79)	0.24
 3260	3532	-1	ref|NP_817695.1|gp17 	37.7bits(86)	0.038
 4005	4160	-1	ref|NP_945273.1|transcriptional regulator	35.8bits(81)	0.14
 6377	7528	-1	ref|NP_542568.1|putative methyltransferase-endonuclease	41.2bits(95)	0.003
 10262	10636	-1	ref|YP_006479.1|DarB 	41.2bits(95)	0.003
 11438	12088	-1	ref|NP_835691.1|similar to DNA helicase	53.1bits(126)	9e-07
 
 DNA sequence:
 GGTGCTGAAGAGTGCGTTGAATACGATTGACCGGTTCTGGTTTGCTGCGGTTGATAATCCGGGTTTATCGGAGGATGTTGAGGCAACGGTGTCGGATGAGGGTGTTACGGTGATCCTGCCGGACGGGGTGAGTTTGCGGGCGTTGAAACCGACGATCGAGCCGTCTATTGAGGCTGCGGTTTCTCCTGCTTCGGGTACGGTGACGGATTTTACTGGCCCGGTGGTGTATGTGGTGACGTCGGAGAGTGGTGAGAGGCGTGAGTTTACGGCAGTGGCGTCGATTGCCCGGGCAACGGGCAAGAGTATTGTGCGGTTCAATATTCTGAAGATTCTTAACCCGGCATTAAGTGCCGACCTGATTGCGGATGTGTGTGAGTCGAACGTGACGGTGATAGCGCCGAGCTATGCTGATGGCGTGGTTGCTGCTTTGAGGCCGACGATACAGATTTCAACGGGGGCGTCGGTTGTTCCGGCGAGTACGCAGGTGAAGGATTTCAGCGGATCGGTATCCTATCGCCTGACTGCGGGTGATTTGTCGAAGGCGAGTTATACGGCTGATCTGTATCGGAAGGTTGATGTTGGGTCGCCTCCGACTGCCGGAGAGGTTACGGTTACGGATGGAGCGTTCACGATGCTTGGTAGCGGGTTGGATATCTGGGGAACATCTGATCAGTTCCATTATCTTTACAGGAAAATGTCGGGCGATTGTGTGGCTGAAGTGCTGCTGGAGTCGCAGCAGGCGACGAATGATTGGGCGAAGGCGGGGTTGATGGTGCGGACTACGCTTCTGGAGAGTTCGGTGCATGCGTTTGTGGGGATGGCTCCGTTGCTGGACGGGTCGAACCGGACGTTGTTTGTGATGCATCGGCTGACGACTGGCGGGGCAAGCGCGATGCCGTTTCAGGGTGGTGTTGATGGGCCTCCGATGTGGTTGCGGCTGGAGAAGGTCGGGACGGAAATCCGGGCGTACCGGAAGACGGTTGCGGGGAGTTCGTGGACGCTGGTGCAGAGCGTGACGGTGCCGCTGATCGGGAGTACGGCTTATGTGGGGTTTGCGGTGTGCAGCAAGACGACCGGGCTTGGGGAGTGCGTGTTCAGGGGGTTACGGGTGGGGTGATGGTGAGGGTGACGGGGTAACAAAAAAGGCTCTGTACAAATACAGAGCCTTAAAAAAAGACACCATGCTAAATTGATTTTCTCTTGCATGGCGGCCACCGAAGTGGACTTAAGCCCGATCTTGACAAGTCAGGAGAGCGGGTACAGGGACAATGTACTCATTTGAGGAGTCATCGTCAAGCGTTTATTCCTAATCCCGCCAAAATACATTGCTGGATGTTGACAAGGTCGTCTCTGCTTATAATCCTCTTATCGTACATTCTTTTCCCCTGATCTTTGCCGCAGAACGGCAGATAAAGCCTGTCTAATGAGACGGTATAGACCATATCGGCTTTTACCCAATGAAATTCAGCGTTATATGGTTCCGGAAGAACCGGGTCAATGAACAACTTGTAGTGGTATGCCTCGATATCCTTTGGTGGTGTTGTGCTTAAAGGGACAATGGTGCAAAGCCCCTCTCGTTTACGCATCCGGGGAGAAACGATAACTGCAGGCCTTCGCTTAACCATTTCAGGAGGAACAAAACCTTTGAAATCACAAATAACGATGGCGCCTTGTTTAGGATGATAAGGGAGGCTCATCAGTGCTGCGTTGAGCTTGCTTGATCTGAATTTACTTTATTAGCATCGCGGTCTTCGCGGAGATAGATTTTCATGGTTCGGGGATCGAGACCGAAGTACTCGAGTAGGTCATGCAGGTTGTCACGGATCATGTTGGCGGAAAGATTGACTTCGGCGTAGAGGCCGGATGGGTGTTTTTCTCCGACACGAAGTATGGTCTGATTATTTGAAAACAATGGGTTACCCCGGTTGCTGATAAAGCGTTCTGTTTCGGGGAGGGCTGCAAACTTGGCCGGATCAGCGGTTTGCAGCATATCCAGGACAAGCAGATAGAGGGTTTTCCAGGTCTTCAGGCCCTTGTAGGCAGTTTCACCGAGGATAAAGCCATACGGGCGTTTGTAGGTGAAGTTTTCGTTGAGGGTGTGAGGTACCGTCTGGTCGAGATCTGCAATGAGGCGTTCGCGTTGCTGGCGGTTTACCGATTCTTCGACGACTTCATCTTTTTCCGGGTCGATCCGGAAATGAGCTTTGATGAGACCGGTAATTTTAGCAGTGCTTTCGACAAACCGGCCCAGGTTGTTGTTGTACTCAATGATGAAGCGGGTGCCTTGTTCAAGCGAGTCGTTATCTCTTGCGTCGATATTGAGCAGCATGTCGTCCGGCAGGCCAAGAAGGTTTTCCTGCAGGCTGTTGAGAGTGTCGAGTAGTTCCTTGATTTTTTGCTGATTCATGGCTTACCGATTTTATAAATATGAAACTATTTTCCGCTCTGAATAGCATTTATAAATACCCTTTTGTATTTAATATAAATACTCTCTTATCGTGTTCTGTTATCGCATTTACTTCATGAAGAAATGCCTTGTTTTTATCATGACTTTTATTTATCAATGCAAGATAGCAATCAAGACACTCATGCTGCCTTGTCGTCATTTTTGAAAGATCACGAGAAATATCAGTTAAAGAACTATTGATGATATAGTCAGAAAATCTACCAATAAAACCGACAAGAATATCAGACATCTGGATGTAGGGGTTAGAAGAAGAATTCTGGAATGAGAGTATGTCAAGTTGATTATTATTGTCCATAAATATATGATCAGACACTTTTGACATGATCTCGCTCTCTTCATCAAATACATGTGTTGAGTTTTTAAATAAATAAATTGGCTTGATATAGAATTGTAAAAAATCACCAACCATAACATGATCAACTTCGTCTTCTAATAAAGTTAAAACTTGTTTCTTTTTGCAGTTATCAAGTAAATCTTTGAGAAATTTTATCCAAAAACTGTAATCTTCATCCTCGGCATATTTATCAAATAGAAAATAAAGATCATCAATAAATGAGATGACTGAATTACTTGATATGTTTGGGTATTTGTGGCGGTAAAAAAGGCTTGCAATAGCATCAATCTCTCTCTTAGCCAGAACATACAATACATTTTTCAAATTATTGATAATTTGCGGACCCAGCTTTGATCCTTCAGGAAAGATGCTTATTGCAGAATCAACAATATCAACCAAGGAGTAATACAGTACATTGACCACGGAATAGTGTATATAGATATTGTTGTCCAATAAATAGCGAAAAAAAACAAGTAATCTTTCCGACTTCAAGCAAGACAAGAAATCCCCTTTAGCCACATACCCAAATTTCAGTTCTTTCATTGAAGGATCAAGACGCAGCTCATTAAAAAGAACAGTCAGATCCTGTGGCGGACCGTCAAATACAATACCGCCAAGCACAAAACTTAAATTTGAAGATACATTAAAGCCATCCTCTCTCACATGATACTTTCTGATGTTGCCGGTTTCGTCATAGAAAAAATTATATGAGACCTCAAAATCAATGTCAGGATTTGATAAAATATGTGCCTCACGATATTTATTAACATCTATATCCATAATTAACTTCACTATTTAGCTTATTGAATTCGCCAATATAACTGCAACTCTATTCTCCGTAGTCACCTCCTCAGCGCTGCTCGTACAGTCCGCACAACATTCACTTCGTCGAGGCTGTCGAGACGCTGGCGAACAAGGTGAGAGGGATCAGAGAGACGGTTGAATTCGCGCTGGATGATGGCGAGTTTTTGTTCTTCGGGCATGTCGTCTGCAAGCGGCGCCAGATTGCCGATATGAGGCTGAAGCTCTTTCCCGGCGGCTTTGAGTTCATCAGGAAAGTAGAGTTCATAGACGAGGCAATCGATAACCCCAATCAAGTATGTCATCATATTATTCTTATTCTTATCGGATAAGAATCTCACATAGTCCACAAAAATTGAAATATATTCTTGAACTTGTCTTTCTGCCAATGCTATTGGAAGACGACCAACCCCATTTTCAAAATACTCTAAAAGATTATTCCCGGTTTTTTTGCCTATAAAATAATATCTAAATGTTAGCACCTCTGAATTAAGCAAAGCGAGAAGATATTTGAATAATATGTTATTATTAGTATTAAAAATAACAGTGGTATTCGTAAGACCTACATGTTCGCCCTTATCATCAAAACAAAATACATTACTATTTGCTCTATATGAACACCAGATCTTATCATACCCATAATACTCTTTATGCATCGCAAAGGTAAAGTTCCACCATTTAGCTGTAGTTCTCCTTTTTTTATCAGCCCTTTTGCGTAACTTATCTTGATTAAGCAAAAGGTATTGTCTTACTGATTCGTGCAATTTTTCAAACAAATCAACGTTTTCAACATAAAGAATCCATTCTGAATTTTCTGAAAAAGAATATTTATTAATATTCTCTCCGCTCATTCTTTTCTTTAAAAGATATTCCGGAAAACCGCTTGGTATTTTCTTAAAAACAAAGACATCATTACAGCCGGTCTGCATTCCGCTTCCAATCTTATATAGCTGTTTAAGCTTTGACTTTCCATTTTCAATCTTATCAATAATTTGCTTATGATGATTATCTATTAAAGTAAATCCATCAGCATTCCAATCAGATGCCTCAATATAATTAGTTTCGATATTCATCAGTTTCTCAAGCTCGCCATCGGAATATTTTGAAGCGTTTAAATTCAGATATCTTGCTTTTTGTTGTGACTTATACAATAAAGTAATTGCGGTTGTAATGCTGGCTTCCTGAAAAATCATAAGATTTTCAAAATTAATAATCCTTCTAACAAGATTATTATTAATCAAATACCCCCTCAATTTATTTGCCTTTTCTGCATTCAGAAATGCATTAGATGTAATAAAAGCAACAATACCTTTTGAAATCAAAACAGCTTTTTCAAAAAAATAAAAAAGAATATCACTCTTATCCATATAGACAGAGTAATTCTTCTTTAGGTAAGCTTGCATTGGAGATCCTGCGCCGTAAATATCAATATTAAAGTATGGCGGATTGCCAATGACCACATCGAACCCATCTTTCAGATGCCAGACTTCAGAGAAATACACTCTAAAATCGAAGTGCTTCTTCCCGTTCGTTATTTCATGAATCAGCGTATCGATCTCTTTGCCAAGCCTTTCCTTTATACCGTGATCCGTGGTATCGAAAAACGCTTTCTTTTTGTCTTCAATAGCATCCAACAACTTTTTGTTGAAAAGCGGATCGATGTCGATGCCGATGAGCGAATCCCCCTGAATAATTTTGTAGTCGAGGTTCGGCAGGGGTTCGATGGTGCCGTAATCCTCTTCGTCAACGATGAGCGAGAGCCAGAGCCGCAAGCGAGCAATGTCGATAGCCGACGGGTCAACATCAACGCCATAGAGATTTTCGGCGATGGCGTGGCGTTTCAGAACGTAGGAACTGCTCGTATTGCCGGTGTGATGGGCGAGCGCCTGGCGGGCGGCCACGATTTCGTGCAACATGCCGACGGGGAATGCACCGGAGCCAATGGCGGGGTCGCAGATCTTGATGTCGGCCAATGCTGCATCGATATCTCTGGCATGGATTCTGACCGTATTCGGCAGCTCAACGGTATGTTTCGTTGTTTTCTGATCACCTTGCTCGACACGATGCAGTGCAGCCATTGCCACTTCATCGTTCTGGACAAAAAGGTATCCCTTGCGTATCAGCTTTTCGATATCCTTTCTCGGCACGCGAATTCCATGATGCTCGATGGTCATGGCAATTTGCCCTGTTGGTGTGCTGTCGGCAAACATACTGATCTGCGACAGGCCGAGTTCTTCGTAGCCGGTCGGGATAGCGTTGATGCGGTTGTCAAGGTATTGGACAAGGCTTTCCTGACACATGTAATGGACGATTTCGCGAGGCGTGTAGAATGCGCCTTTGCCTTTGCGTTCGCCGTCGGAGAGCATTTTTTCAAATACCTTGCCGAGCATTTCGGGATCGACGGCAACCTCCTTGTCGAGGGGTTCGTCTTCGCGTATGGTGAAGTTGTAGCGGTCAAACACATCGAGAATTCCGGTGCCGGTATCGCCTGCTTTGGTCTTTTCCTGGTTGTGAAAGAAGGCATCGGGGATATCGAGGGAAGCGTTCTGCCAGTCGTAGTCGCCGGCCTCGAACAAGCCACCGTTCAGAAATGGTACCCGGCAGTCGAAGCGCTCGTAATAACCGGAATCAACCGGGCCTTTGCGCTCGCAGGCAAGCGCTTCGTAAAAGAGGTAGCAGAGTACATCGCTATAGTAGTTCACACCGGACTCAACGGCATGGTCGAACAAATCGCGCAGAAATCGTTTCGATCCATCCTTCCATTTGCCGCTTTCGGGTGCTCCAAGCCACCCTTTTTTCTGTAAAAAATAGAGAAAGACGATCTGACCGAGCAGTTTTTTGGCAAAGCGGCTGACCTGCTCTTCCGTTTCGATCTCATCGGCTCGCTGGAACCATGGGTGCGTTTGCAGGTGATCGCTCAGATTGCGAAAGAGCGCCTTGTACTGCTCGAAAAACTCGTCTGTGACCGTCTCAACGGAAAATGCCTGTTCGATCTCTTCGAGGCGCGGATTGACCGAATCCATGAGCAGAATCGGCATCAACTGCCTGCCGGCGGTATGGCTTTTTTCGCGCTTGCCGACCAGGTAGGAGTAACGCCGGGCGGGAGTAAGCTCTTTTCCGGGTTTGATTTTTCCCGATTTATCTTTGTAGGATTTGTATTCGATCTTGACGAATGAAAAGCGCCAGTCAGCGCCGCCATCATCTTTGGCATAAAATGCGATCAATGACTGATCTTTGCCGAACTCTTTGAGACAACTGACTGCAAAATTGCGAAGCGCTGAGCGGGCGCGTTCGAGCTTGGTGAACGAGTTGACTTCGACAACCAGCAAATCGAGTTCTTCACCATCAGGATCGACATATTTGCCCAAGCACCAGTATTGATTGACCAATGCTCTGAATGGCGCTTTGATCCATTGGCCAACGTAACGCCTTCCGGCACGTGAACCCGGCTCGATCTCATTCAGAAGGTTTCGCAGAAAATCTTGGTAGCGCTCACGCTCAAAAGAGTGCGTAAAGACTTTGTCGATCAGTTCTTTGCCCTGTTGTTTATTCATGAGCTACTCTCCGTCTCCTGAAACTTGATAGCCTGAAAGAATGATTTCCCGGCAAGCCCTCGACGATTTGACCGTTTGAGAAACGGGTTCGCTCTCTTTCCGGATGTGCTTGCGCAGAATAGTGAGCATATCGAGAGGATCGTCGGTTTTTTCAAGGGCTTTCTTGACCGTCTGCGCGGTCTTTTTGGCAATCAGCCCCTGAGTTAACATGCGAAGCACTCCGTCGATGAACTCCTCATCGGGTTCGGTAAATTTCTGGCAGGTTCGGAATGCCCTTTCTTTCAACCGTCTTTCGATATAGCTGCTGTTAGAACGACCGCCTGAAGTGGTTGATGGGGCTTCTTCCTGCATGGCATCGAGCCCAAACCGCTGTTTGTTGGTTTCGAGCCAATGATAATAGGCTGCAGGAATGGCCTGCCGGGGCGTTTCAGGCTGACATTCGAGCAGTGAGGCCGCATCGAAGAAGGTTATTTCCCTGCTTTCAACGCCCTCGTTGAGATAGAACTTTTTCAGCTGACCGATACGGAAAAAGGTGACGAGACGGTCGGTATCGAGACCGGAAAGCTTTCGTCCGGATCGCGCCTTTTTTGGCAGACGTTTGATCTTTTCGAAAAGATCGGGGTGTTTGTCCCGAAGGTTGCGCATCATTTCAAGGTAGCGTAGTTCGGAATCGCCGGCTTCATCTTCGCCGGTATAGGCCTGCTTGCGGTTCAGTGTATCGAAAAGTTCCTGGCTGCCAATTTCCTCACCATCTGAAAGGTATTTGGCGTCTTCTCCGAGGATGTCGTGAAACATCTGAATTTTGTTGGTGATATTGGCTTCGAGCTGAAGATGCGAGTCGGATTGTGTTGTGGGGAAAAAATTATAGATGTAGATGTCGGGATGTTTTGTTCCGAGACGATTAACCCTGCCGACACGCTGGAGCACACGGGTGGGATTCCATGGCAGGTCGTAGTCGATCAGAACATTTGCCCTATGCAGGTTGATTCCTTCGGAGAGAACATCTGTGGCAATGAGAATGCGGATGTTCTCATCGCAGCTTTTTTCGTTCGGGTCGAATGCTGTTTTGATAAGGTCGCGGGCTTGTGCCGGGGCATGCGTTTTGGCTGGGTCGCCTGTGCGCCCGCCTTTGCTGCTGAAAAACATAATCTTACCGGGCCAAAGCCTGTTGAGCTGTTCAAACAGATAGTCGCCGGTTTCTTTCGATTCTGTAAAAACGACCATACGTTTTTTCAGAACGGGATCATTCCGAAGCCGGTCAGTGAATGCGTCGAGCTTGGGATCTTCTGTAACATCCTGCCAGAGCTGTTCGATCTGGCGCAGGAGCTGCATGTCGTGTTGAAGGTCTGTGATGAAGTCGTTGCGGAAGTCTTCTGAAGCGTATTTCTGCGCTTTTTCCTCTTCAACGTAGCGTTCAAGTGTTTCGAAATCATCGCTGTCGAGAAGGTCGTAGACGTCGATATTGCGGCTGATGTATATGGTTCCTCCATTGTACATGTGTAGAAAGCGCTCATAGGACTCGATAAAACGGCGAACACTCTTGCGGAACGCATAAAAACTGCTTTCGAGGCGTTTGATAAGGATTCCTCGCATGAAGCCGCCAACGTTGCGCTGCTGCTGCCGTTCGAATTCCGAAAGCTGCCGACTGCCGGTATAGTAGAGCAAGGGTATATAACGGGCATAATGGAACTCTCGCAGCAGGCCGATCGTCCGGTTGAAAATGGTTTCAAGTTCACCTTCAAATGTGTAGACAATGCGGCGTGGCTCCTGAACTTCGGGGAAAAAGAGGCCCTGACTTTCTATATCGTTTTTGAACCATGTTATGACGTCGGTACGGGTACGACGTACCATGACATGCTTGAGAATACGTTCGCGAATTTCCTGCGAGACTTCCTTGATAGCATGTTTGTATGCAGGGTCGGTACGATCAAGGCCGTTGAAGTGTTTACGTAACGATGTGAAATAGCGCTCAAGGTTCGGAATACCGGGGATCGTGGAGTTTTTCGGAACCTGAAAGAGTTTGAGCTGAGAGAATATGTCGTCGATAGTGTTATTGAGCGGCGTAGCGGTTACCAGGATAACTTTCTTGCCTCGGCAGATGTCGAGCAGGTCTGCATAGGACCGGGTGTTCTCGTTCCGAAACCGGTGGGCTTCATCGATGACAACGTAGTCGAAACGGTCAAGTCCGAAACGTATGACTTTATCGAGCTTGCCGAGTGATTCCACACGGGCAGGAACCCGGAAGTCGTGAAGGCTCGATTCCCAGTAGCTTTTGAGTACGGGTGGACATATGACTATAATCCGCCCTTTGAGCTGCTGCAGAAGCTGGGCCGCAATGAAGGTTTTTCCCAAACCGACGACGTCGGCCAGAAAGACTCCGTTGTGTTCGTTGAGCTTCTTGATTGCCTGCTGTACAGCTTGCTGCTGATATTGCAGGGCCATGAAGCCTTCGGGTAGAAATATCTGAATGTC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 ACTGCCGTAAACTCACGCCTCTCACCACTCTCCGACGTCACCACATACACCACCGGGCCAGTAAAATCCGTCACCGTACCCGAAGCAGGAGAAACCGCAGCCTCAATAGACGGCTCGATCGTCGGTTTCAACGCCCGCAAACTCACCCCGTCCGGCAGGATCACCGTAACACCCTCATCCGACACCGTTGCCTCAACATCCTCCGATAAACCCGGATTATCAACCGCAGCAAACCAGAACCGGTCAATCGTATTCAACGCACTCTTCAGCACC 
 >PredictedProphage1 -Hit 2 
 CGTCTTGCTGCACACCGCAAACCCCACATAAGCCGTACTCCCGATCAGCGGCACCGTCACGCTCTGCACCAGCGTCCACGAACTCCCCGCAACCGTCTTCCGGTACGCCCGGATTTCCGTCCCGACCTTCTCCAGCCGCAACCACATCGGAGGCCCATCAACACCACCCTGAAACGGCATCGCGCTTGCCCCGCCAGTCGTCAGCCGATGCATCACAAACAACGTCCGGTTCGACCCGTCCAGCAACGGAGCCATCCCCACAAACGCATGCAC 
 >PredictedProphage1 -Hit 3 
 CTGATGAGCCTCCCTTATCATCCTAAACAAGGCGCCATCGTTATTTGTGATTTCAAAGGTTTTGTTCCTCCTGAAATGGTTAAGCGAAGGCCTGCAGTTATCGTTTCTCCCCGGATGCGTAAACGAGAGGGGCTTTGCACCATTGTCCCTTTAAGC 
 >PredictedProphage1 -Hit 4 
 TTCGATGTGGTCATTGGCAATCCGCCATACTTTAATATTGATATTTACGGCGCAGGATCTCCAATGCAAGCTTACCTAAAGAAGAATTACTCTGTCTATATGGATAAGAGTGATATTCTTTTTTATTTTTTTGAAAAAGCTGTTTTGATTTCAAAAGGTATTGTTGCTTTTATTACATCTAATGCATTTCTGAATGCAGAAAAGGCAAATAAATTGAGGGGGTATTTGATTAATAATAATCTTGTTAGAAGGATTATTAATTTTGAAAATCTTATGATTTTTCAGGAAGCCAGCATTACAACCGCAATTACTTTATTGTATAAGTCACAACAAAAAGCAAGATATCTGAATTTAAACGCTTCAAAATATTCCGATGGCGAGCTTGAGAAACTGATGAATATCGAAACTAATTATATTGAGGCATCTGATTGGAATGCTGATGGATTTACTTTAATAGATAATCATCATAAGCAAATTATTGATAAGATTGAAAATGGAAAGTCAAAGCTTAAACAGCTATATAAGATTGGAAGCGGAATGCAGACCGGCTGTAATGATGTCTTTGTTTTTAAGAAAATACCAAGCGGTTTTCCGGAATATCTTTTAAAGAAAAGAATGAGCGGAGAGAATATTAATAAATATTCTTTTTCAGAAAATTCAGAATGGATTCTTTATGTTGAAAACGTTGATTTGTTTGAAAAATTGCACGAATCAGTAAGACAATACCTTTTGCTTAATCAAGATAAGTTACGCAAAAGGGCTGATAAAAAAAGGAGAACTACAGCTAAATGGTGGAACTTTACCTTTGCGATGCATAAAGAGTATTATGGGTATGATAAGATCTGGTGTTCATATAGAGCAAATAGTAATGTATTTTGTTTTGATGATAAGGGCGAACATGTAGGTCTTACGAATACCACTGTTATTTTTAATACTAATAATAACATATTATTCAAATATCTTCTCGCTTTGCTTAATTCAGAGGTGCTAACATTTAGATATTATTTTATAGGCAAAAAAACCGGGAATAATCTTTTAGAGTATTTTGAAAATGGGGTTGGTCGTCTTCCAATAGCATTGGCAGAAAGACAAGTTCAAGAATATATTTCAATTTTTGTGGACTATGTGAGATTCTTATCCGATAAGAATAAG 
 >PredictedProphage1 -Hit 5 
 ATTCTCATTGCCACAGATGTTCTCTCCGAAGGAATCAACCTGCATAGGGCAAATGTTCTGATCGACTACGACCTGCCATGGAATCCCACCCGTGTGCTCCAGCGTGTCGGCAGGGTTAATCGTCTCGGAACAAAACATCCCGACATCTACATCTATAATTTTTTCCCCACAACACAATCCGACTCGCATCTTCAGCTCGAAGCCAATATCACCAACAAAATTCAGATGTTTCACGACATCCTCGGAGAAGACGCCAAATACCTTTCAGATGGTGAGGAAATTGGCAGCCAGGAACTTTTCGATACACTGAACCGCAAGCAGGCCTATACCGGCGAAGATGAAGCCGGCGATTCCGAACTACGCTACCTTGAAATG 
 >PredictedProphage1 -Hit 6 
 GACATTCAGATATTTCTACCCGAAGGCTTCATGGCCCTGCAATATCAGCAGCAAGCTGTACAGCAGGCAATCAAGAAGCTCAACGAACACAACGGAGTCTTTCTGGCCGACGTCGTCGGTTTGGGAAAAACCTTCATTGCGGCCCAGCTTCTGCAGCAGCTCAAAGGGCGGATTATAGTCATATGTCCACCCGTACTCAAAAGCTACTGGGAATCGAGCCTTCACGACTTCCGGGTTCCTGCCCGTGTGGAATCACTCGGCAAGCTCGATAAAGTCATACGTTTCGGACTTGACCGTTTCGACTACGTTGTCATCGATGAAGCCCACCGGTTTCGGAACGAGAACACCCGGTCCTATGCAGACCTGCTCGACATCTGCCGAGGCAAGAAAGTTATCCTGGTAACCGCTACGCCGCTCAATAACACTATCGACGACATATTCTCTCAGCTCAAACTCTTTCAGGTTCCGAAAAACTCCACGATCCCCGGTATTCCGAACCTTGAGCGCTATTTCACATCGTTACGTAAACACTTCAACGGCCTTGATCGTACCGACCCTGCATACAAACATGCTATCAAGGAAGTCTCGCAGGAAATTCGCGAACGTATTCTCAAGCATGTCATGGTACGTCGTACCCGTACCGACGTCATA 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 TAVNSRLSPLSDVTTYTTGPVKSVTVPEAGETAASIDGSIVGFNARKLTPSGRITVTPSSDTVASTSSDKPGLSTAANQNRSIVFNALFST 
 >PredictedProphage1 -Hit 2 
 RLAAHRKPHISRTPDQRHRHALHQRPRTPRNRLPVRPDFRPDLLQPQPHRRPINTTLKRHRACPASRQPMHHKQRPVRPVQQRSHPHKRMH 
 >PredictedProphage1 -Hit 3 
 LMSLPYHPKQGAIVICDFKGFVPPEMVKRRPAVIVSPRMRKREGLCTIVPLS 
 >PredictedProphage1 -Hit 4 
 FDVVIGNPPYFNIDIYGAGSPMQAYLKKNYSVYMDKSDILFYFFEKAVLISKGIVAFITSNAFLNAEKANKLRGYLINNNLVRRIINFENLMIFQEASITTAITLLYKSQQKARYLNLNASKYSDGELEKLMNIETNYIEASDWNADGFTLIDNHHKQIIDKIENGKSKLKQLYKIGSGMQTGCNDVFVFKKIPSGFPEYLLKKRMSGENINKYSFSENSEWILYVENVDLFEKLHESVRQYLLLNQDKLRKRADKKRRTTAKWWNFTFAMHKEYYGYDKIWCSYRANSNVFCFDDKGEHVGLTNTTVIFNTNNNILFKYLLALLNSEVLTFRYYFIGKKTGNNLLEYFENGVGRLPIALAERQVQEYISIFVDYVRFLSDKNK 
 >PredictedProphage1 -Hit 5 
 ILIATDVLSEGINLHRANVLIDYDLPWNPTRVLQRVGRVNRLGTKHPDIYIYNFFPTTQSDSHLQLEANITNKIQMFHDILGEDAKYLSDGEEIGSQELFDTLNRKQAYTGEDEAGDSELRYLEM 
 >PredictedProphage1 -Hit 6 
 DIQIFLPEGFMALQYQQQAVQQAIKKLNEHNGVFLADVVGLGKTFIAAQLLQQLKGRIIVICPPVLKSYWESSLHDFRVPARVESLGKLDKVIRFGLDRFDYVVIDEAHRFRNENTRSYADLLDICRGKKVILVTATPLNNTIDDIFSQLKLFQVPKNSTIPGIPNLERYFTSLRKHFNGLDRTDPAYKHAIKEVSQEIRERILKHVMVRRTRTDVI 
 



Prophage Finder Output

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

Genome size:  20661
Host's GC content:  46.27
Predicted Codon Position GC:  	1st:  55.36	 2nd:  39.19	 3rd:  45.99

 

Prophage Finder Output

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

Genome size:  19614
Host's GC content:  45.78
Predicted Codon Position GC:  	1st:  55.06	 2nd:  39.06	 3rd:  45.17

 

Prophage Finder Output

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

Genome size:  17676
Host's GC content:  47.48
Predicted Codon Position GC:  	1st:  56.10	 2nd:  39.52	 3rd:  48.04

 

Prophage Finder Output

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

Genome size:  18267
Host's GC content:  49.73
Predicted Codon Position GC:  	1st:  57.48	 2nd:  40.13	 3rd:  51.84

 

Prophage Finder Output

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

Genome size:  25624
Host's GC content:  47.09
Predicted Codon Position GC:  	1st:  55.86	 2nd:  39.41	 3rd:  47.37

 

Prophage Finder Output

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

Genome size:  24907
Host's GC content:  49.07
Predicted Codon Position GC:  	1st:  57.08	 2nd:  39.95	 3rd:  50.73

 

Prophage Finder Output

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

Genome size:  25738
Host's GC content:  48.71
Predicted Codon Position GC:  	1st:  56.85	 2nd:  39.85	 3rd:  50.11

 

Prophage Finder Output

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

Genome size:  24426
Host's GC content:  48.92
Predicted Codon Position GC:  	1st:  56.98	 2nd:  39.91	 3rd:  50.46

 >PredictedProphage1 
 Length:   7419 
 Number of hits =   6 
 GC	Coding	First	Second	Third
 50.57 	 50.40 	 56.31 	 38.58 	 56.31 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	12	0.184615384615385
 Leu	TTA	3	0.0461538461538462
 Leu	CTG	20	0.307692307692308
 Leu	CTA	3	0.0461538461538462
 Leu	CTT	16	0.246153846153846
 Leu	CTC	11	0.169230769230769
 Lys	AAG	25	0.595238095238095
 Lys	AAA	17	0.404761904761905
 Glu	GAG	21	0.488372093023256
 Glu	GAA	22	0.511627906976744
 Gln	CAG	22	0.88
 Gln	CAA	3	0.12
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	11	0.647058823529412
 His	CAC	6	0.352941176470588
 Asn	AAT	14	0.538461538461538
 Asn	AAC	12	0.461538461538462
 Ser	AGT	2	0.0416666666666667
 Ser	AGC	14	0.291666666666667
 Ser	TCG	13	0.270833333333333
 Ser	TCA	4	0.0833333333333333
 Ser	TCT	5	0.104166666666667
 Ser	TCC	10	0.208333333333333
 Trp	TGG	8	1
 Arg	AGG	4	0.114285714285714
 Arg	AGA	5	0.142857142857143
 Arg	CGG	6	0.171428571428571
 Arg	CGA	3	0.0857142857142857
 Arg	CGT	9	0.257142857142857
 Arg	CGC	8	0.228571428571429
 Ala	GCG	6	0.122448979591837
 Ala	GCA	7	0.142857142857143
 Ala	GCT	18	0.36734693877551
 Ala	GCC	18	0.36734693877551
 Cys	TGT	5	0.5
 Cys	TGC	5	0.5
 Asp	GAT	30	0.638297872340426
 Asp	GAC	17	0.361702127659574
 Gly	GGG	18	0.285714285714286
 Gly	GGA	8	0.126984126984127
 Gly	GGT	16	0.253968253968254
 Gly	GGC	21	0.333333333333333
 Phe	TTT	22	0.564102564102564
 Phe	TTC	17	0.435897435897436
 Tyr	TAT	12	0.444444444444444
 Tyr	TAC	15	0.555555555555556
 Met	ATG	12	1
 Val	GTG	15	0.306122448979592
 Val	GTA	6	0.122448979591837
 Val	GTT	19	0.387755102040816
 Val	GTC	9	0.183673469387755
 Thr	ACG	8	0.258064516129032
 Thr	ACA	10	0.32258064516129
 Thr	ACT	4	0.129032258064516
 Thr	ACC	9	0.290322580645161
 Pro	CCG	11	0.392857142857143
 Pro	CCA	6	0.214285714285714
 Pro	CCT	4	0.142857142857143
 Pro	CCC	7	0.25
 Ile	ATA	11	0.268292682926829
 Ile	ATT	13	0.317073170731707
 Ile	ATC	17	0.414634146341463
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 1867	2265	-1	ref|NP_803670.1|ORF104 	85.5bits(210)	2e-16
 2907	3284	1	ref|NP_958559.1|putative protein	42.0bits(97)	0.003
 4321	4800	1	ref|NP_795389.1|hypothetical protein	41.2bits(95)	0.005
 6191	6499	1	ref|NP_817387.1|gp49 	83.2bits(204)	1e-15
 8347	8544	1	ref|NP_817647.1|gp58 	35.0bits(79)	0.36
 8935	9285	1	ref|NP_039721.1|predicted 17.2Kd protein	55.5bits(132)	3e-07
 
 DNA sequence:
 TGGCTCATAGACCTGTATCTCGACGGGAAGACCTTGTAAAGCGCTTTCGATTTCAGCTTTTACCACGCTCCAGTCCAGCCCGCCATTGCCGAATCCGAGAGGAGGAATCGCTATCGACTCGATCTGGTAGTCCTCTATTTTTTTTCGCAAGTCGCGCAACCCGGCTGTTATCCATTCCGGTTTCGATGGGTAACGCCAGTGGTTCCTGGTGGGAAAGGTGATGATGTACCGTACGCCGTTCAGTGATGAAACCGGGACAACCTGAACCTCGCCTGTTCTGATCTGCTTGCGATTCACCGCATCGGCATAAGCTTTGAAATTCTCGGGAAAAGCATGTTTGAACTGCAGGGCGATCCCTTTACCCATCACGCCGACCGGATTGATGGTTATTAGAAATACGGTTTGACCATGTTTTTTCAACCCGTGATTGTCTGTTCAGGACAATGTCATTCCGGAACATTTCCATGACATAAAAGCACGCCGAAGCTCATGGCTTTTGAGAGTATTACAGACGAATTTATCGAAGAGTTGATCGGTTGCCGCAAAATGGTGATCAACCCGAAAACTCGGGATGTCAACAAGCCCGGCCACAAGCAGGTCAACTATAGGGTAAAGGCGCTTGATGATTCCGGCCATAAATTCGAACTATTTACCCGTCAGAATCTGGCGGAGGGAATGGTGGATGATTTTTCCTGTGGATTGCGGTGGCTGGCTTTCAATGGAGAAAGCCTGATCCTTTGCCGCTATAATGGATCGAGCCATCCGCACAGGAACAAGGTTGAAAACCGGAAATTGGGGTTGGTATTTCATATTCATCGGGCTACAGAGAGATATATCGCAGCAAACCGGAAATCGGACGGATTTGCTTCTGAAACAGATAAATACCATAATCTGAATGAAGCACTCCATTGCCTGCTCAAGGATTGCCGTATTGAAGGCTTGACTTTGGGTGAAGTCGGCCTAAACCAGATTGACTTGTTTGAGTGATGACTATTGACGTGAACATACTCCAGAACACACTTTGCAAAGCGATGTGCAGCGAAGTGAAGATAAGGGAAAAAAGCGCAGGTCTGCTGGCTGTTGATACTCCGTTTACATTTCCTGATGGGGATCAGTATCAGCTATACATAAAGGTTATGCCGGGGGGGCTGCTTAGGCTTACCGATATGGGGCATACACTGATGCATCTGAGCTATGAGCATGATATAGACAAGTTTTGTGAAGGCACGAGAGGTGCTCTTTACGAAAAGATAAAGTCCGAAACATCTGTTGAGGAGCATGATGGTTCCTTGTGCATTGATTCGACGTCGGAACAGCTTGCTGCTGATATTTTTCGTTTGGGTCAGGCGATTACGAGCATCAGTGACTTGACGTTTTTAAAGAGATCGCGGATAGAGTCCACATTCTACGATGATCTCAGGGACTCACTGTTCAGGGTTGTTCCGGCTGAAAAGGTCAAAAAAGATTATCTCTACGAAGGGATGGCAAATGCGTCGGATTACCCGATCGACTACTGGATCGAAGGGAGGGAGGCTCCGGTTTTTCTCTTCGGTATTCCCGGTCGTGACAAGGCCAAGACGGTTACGATTATTCTTGAGCATCTGCTGAGAGCCAATGCCACGTTCGAAAGCATTCTCGTGTTTTCGGATCAGAGTTCCTTGCCTCGCGCCGATCTGGCCCGGCTTACAAACGTAAGCGATACCATGATCTCCTCTCTCGATGCCGAGTCCGATTTCAGGCGGAAGCTTGAGAAAAAGGCACAACTGAACTGATATTTATTCATTTCCCGGAGCATTACCCCGCCTGACGGTTGATGTTTTCGAAAACGTTATGCATCAGCTTTCGAGCTATGAACGTCTTGAAGGCTTCGTCGTTCATGATTCGGTTGAAGATTACAGCCATCTGTCTGGTGACAAGTCTTCCTGTAATTGCCTTTTATTTCTATCCCTCATTTATTGCCTGCCGCAGGATAATCGGACAGGTTTCATTGGAATACAATGCCTGTTAGCTGTATATTACTCTTTATTTTATCCATTTAGCGCCGATAGTCAAGCAGTAACCATGCACTGGATCGCACCTTCCGAAAAAGATACCGCTACCGCCGCACTCGAAAAGCGCCTGTGGGATGCCGCCGACCAGCTTCGGGCGAACTCCGGCCTCAAGGCCCAGGAGTATTCCGCACCCGTTCTCGGGCTTATTTTCCTGCTTTTTGCCGACGTGCGGTTCGCCGCCCGGAGGGCTGAGCTTGAATCGGCAAAGAGCAGTACTCGCCGGGGGAGCCGGGTGGACGATCCGGCGGCCTATCATGCCGAAGGCGTGCTCTACCTTTCGCCAGAAGCGCGGTTTGTCTACCTGCTCAACCGTCCTGAAGCCGAGAACATCGGCGTGATGGTCAACGAAGCCATGCGCGCTATCGAGAAGCACAATCCGCAGCTTGCCGGTGTGCTGCCGAAGACCTACTACCTGTTCGACAGCCCGCTTCTGAAGCAGTTGCTGAAAAAGGTGTCGGAGATTCCCTCTTCGATGGATTACGATGCGTTCGGACGCATCTACGAGTACTTTCTCGGCGAATTCGCCATGAGCGAAGGGCAGGGCGGGGGAGAGTTCTATACGCCCGTCAGCATCGTTCGTCTCCTGACCGAAGTGATCGAGCCATATCACGGGCGCATTCTCGACCCCGCATGCGGTTCCGGCGGCATGTTCGTCTCCTCGGCCCGGTTCGTTGCCCAGCACAAGCAGAACCCTTCGGCAGAACTCTCCATTCACGGCATCGAGAAGACCGACGAGACGGGAAGGCTTTGTCGCCTGAACCTTGCGGTGCACGGGCTTGAAGGCCGTATCATGCATGGCGGCAACGTGAACAGCTACTACGACGATCCGCATGATGCAACGGGGAATTTTGATTTCGTGCTGGCCAATCCGCCGTTCAATGTTAACGCCGTTGACAAGGAACGCCTGAAAGATTCGGTCGGTCCGGGACGACGCTTTCCTTTCGGTCTTCCGCGAACCGACAACGCGAACTATCTCTGGATACAGCTTTTCTACTCGGCACTGAACGAAAGGGGGAGAGCCGGTTTCGTCATGGCGAACTCGGCTTCCGACGCCCGCTCCTCGGAGCAGGAAATCCGTCGCCAGCTTATCGAAAGCCGTACGGTGGACGTAATGGTCGCAGTCGGGCCGAACATGTTCTACACCGTCACGCTGCCCTGCACGCTGTGGTTTTTCGACAAGGCGAAAGCAAGGCTTTCGCCACCCTCATCCCCGGCCCTTCTCCCAAAGGTAGAAGGGGGAGAAGAAGATTTACCATTATCCAGACGCATTCTCACAGAGCGCGACGGGGAAGGGAATGTACCGAACAGGGCGGATACGGTGCTGTTTATCGATGCACGGCACATCTACCGGCAGGTTGACAGGGCTCATCGCGACTGGACGCCCGCCCAGATCGGCTTTATGGCCAACCTTGTCCGTCTCTGGCGCGGCGAAGCGCTCGACTACACGCTGGGTGGCGACGAAGCTCGCGAAAAGATCGAAGAGGTTTTCGCTGCCAAAAGTTCTGACCCGGCAGGCTTGAACGGGCAGGAGGGGCATTCTGCCCACGCACTGGCCGCCGAATCCCCCGCTCCATACGGATCAAGTGATGAAATTGAAAAACTCCCTTCTACCTTTGGGAGAAGGGCCGGGGATGAGGGTGCTGTCAAGCATGAGGGTGCCGGGAACGTCGCCTATCGCGATGAAGCAAAAGAACACCCTTCGCCCTCTGGGAGAAGGGCCGGGGATGAGGGTGCTGTCAAGCATGAGGGTGCCGGGAACGTCGCCTATAGCGACATTCCCGGCTTATGCAAGGCCGCCACATTAAAGGAAATAGAGGCGCAGGGCTGGTCGCTCAATCCCGGCAGATATGTCGGCGTTGCTCCCGGCGAGGCAATCAGCGACGAGGATTTCAAGGTCCAGCTCGAAACGCTGAACGAAGAACTGGAACTTCTGAATGCGCAGGCGCGTGAACTGGAGGCAACGATTGCCGGAAATGTGGCGCAAATTTTGGAGACCTGACCATGAGTGAATTGTGTGAGGCAACGTGTAAGGAATTCTTACAAGTTCAGTTTGAAGGTACCAGGCAACTGTTCAGAAATACTTAACAGTTCGAGAAAAGAGTGTATTTGTAGCGCGTTCAGTTGTAAAGGATTTCTTTACAACTGCCGATGGAGAGGCCTGCTGCACGAAGATGTAATAACGATTGTCTGAAACATCTCAAATTCTTTAAGCAATGAAAACTGAACTGATCCGGACACTCACGACTACTTTTGAGGCTCATGCCCGGAAGGTTGAAGGAGGAGTAGAATATTGGCTGGCCCGTGATCTTCAGTATTTGCTTGGCTATAGCAAGTGGGACAACTTTCTGAACGTAGTTTCCAAGGCTAAAACTGCTTGCGAAATTTCCGGCCACAATGTGGCCGACCATTTTGCTGACGTCGGGAAAATGGTCGATCTTGGTTCTGGCAGCCAGCGCGAGGTGGACGATATCATGCTCACACGCTATGCTTGCTATCTCATTGCCCAGAATGGCGATTCACGAAAGCAGGAAATCGCTTTTGCCCAGACCTATTTTGCCATTCAGACACGTCGCGCCGAAGTTATTGAGCAGCGTTTGCTGGAGGCCGAAAGAGTATCTGCCCGCAAAAAGCTGAGTGCAACGGAAAAGGAGCTGTCGGGTGTGATCTTCGAGCAGACAGGAAGTACGGAGAATTTTGCTCTCATTCGGAGCAAGGGCGATCAGGCACTTTTTGGCAAAAGCACACAGGCGATGAAAGCAGAGTGGAATGTACCGGATAAACGCCCGCTGGCAGATTTTGCACCAACCATCATCCTGAAAGCCAAAGACTTTGCCACGGAGATCACCATTTTCAATGCACGCGAACACGGGATGAAAAGTGAAGGGCAAATTTCCACGGAACACATCACCAACAACAAGGCGGTACGGAAAACTCTACTCGAACGGGGCATCCGTCCGGAATCGCTGCCGCCAGCCGAAGATGTAAAAAAGGTCGAGCGTCGTCTGGCCTCCGAGGAAAAGAAGTCGTTGAAGAATCCTGACGGCTTGAGTGAGCCAGCGGAGGAGTGATGGGAATGAAAGTCGAAAATTTGCAATGCGCTGAGGCGCGACTTGGTCAGAACAATTGCTTGCAACTTGAGGAGGATGCGGGATGTGGGATGATGTATGAACTTCGCACAATCCATATTGGTGACTTGGGTCGTGTCTTGACTGGAAAGACGCCCCCAAGTGTCCGGCCTGAACTATTTGGAGATGATCACCCGTTTCTTACACCAACAGACATTGACGGTGCTTCGCGTTACATTGAGCCCGAACGTTTTCTTTCGCCAGAAGGGCGCAACTACCAGCAAAGACTTATGCTACCTGGGCGATCCGTTTGCGTTGTCTGTATTGGTGCTACCATTGGCAAAGTTTGCATGACTGGCAGACCGTCTTTCACAAATCAACAAATTAATTCCGTTGTCGTGAATGAGCAAGAGCACGATCCGTTCTTTGTTTATCACCTGATGACAACGCTTCGCGACGAGTTAAAAGCTAATGCTGGTGGGTCGGCGACTCCCATTATCAATAAGACGGCGTTTTCAGAAATCAAAGTACGTGTTCCCCCGCTTCCAGTTCAACGGCGGATTGCGGGCATACTGTCAACCTACGACGAACTGATTGAGAACAGTCAGCGGCGCATCAAGATTCTGGAGGAGATGGCCCGATCAGTCTATCGTGAATGGTTCGTTCACTTCCGCTTTCCCGGCCACGAAAATGTTTCGCTCGTTTCGTCTTCTCTTGGTGCTATTCCGCAGGGGTGGGAGGCTGGTCGTTTAGACGATGTGCTTGTTCTTCAACGTGGCTTCGATTTGCCTAAAGCCAAGCGGATGGAGGGTACTGTGCCCATTTACGCAGCTACCGGAGTTACTGGATTTCACTGCGAAGCTAAGGTCAAAGCACCTTGTGTTGTGACCGGAAGATCAGGCACAATTGGAGATGTCATCTATGTACAGGAAGATTTTTGGCCACTGAATACCTCACTTTGGGCGAAGGGTTTTCCAAAGTCGGAACCGCTTTATGCATACTACGTGCTCTCTTCAGTTGGCTTGAAGCAGTTCAATTCCGGGGCGGCTGTTCCGACGCTTAATCGAAATGACCTTCATGGTCTTGACGTGCTGATTCCTCCATGCGTATTGCAAAAACGATTTCAAAAAATTGCCGGTGCAATGTTATTACAAACCCGCAATCTTGAACTGCAAATTCAAAACCTTCGTCGGACGCGCGATCTACTGTTGCCGCGTCTGCTATCGGGGCAGGTCAATCCCAAGGAGAATTGAACGATGAATGCGAAGTCAGATTTGTCACCGATAAAGCAGATACCAATCATTGAAGTGGCGAAAAGACTTGGTATTGAAGTACGCGGTACGAAAGCGATGTGCTTCATGGGTCATGACAAGGCTTCTCCAAGCTTATCGTTCTCAATAAACTACAATACTTGGCGATGTTTTGGAGCTTGTGGAAAGCATGGTGATGCCATCAACTTGGTCATGGAGAAGGAGGGGCTGGATTTTAACGCCGCCCTAGAATGGTTCTCGAATAATTTTAACGCAGATGTTAAACGGCAGTTTAGTGGGCAGAGAAAGCGGACTTGTTCAATCAAACAAAATAACGCTATGGTTGCTCCAGTTCAAAAACAGTCCGAATTTTTTTCAGATTCAGAGCTTTACACTTGGTTTGTCAATAAATGTGCTTTTGTTTCAAACCCCGTAGGAGTAAACTACTTGGAATCGCATGGAATTTCTGATGTAGCGGCAAGTCGCTTTAACCTTCGGCAGATGAGCAGTCCTGCGCGTGCCTTTCGTATGCTTTTACAGCAGTGGGGAGAGGATCGGGTTTTTCGTAGTGGGATCGCATGGGGACGTGATGGTAAACCCATAAGCTTGATTTGGGGCTCATATGCTCTTTTGTTCCCTTTTTACGATGAGGTGAAAATCACTTATATCCAAGCCAGAATGTTTGAAAAAGAGCCTAAGGCGAAGTTTCTCAATTTGCGTGGTATCACCAAGCCATTGTTCAATGCCGACCGGCTTAAAAGCCTTCCGGCTGGGCAGACGGTGCATCTTTGCGAAGGCGTGCCCGATGTAGTGTCTCTGGAATCCAAGGGTTTGATTGCTCTCGGCGTTTTGGGTGCAACTTCGTTTCGTACAGAGTGGGTTGACAGATTTCTGAAATTCAAGGTTGTTGTTCTCGGTGATGGTGATGAGGGTGGGGCTAAGTTTGCGAAGGACATTTCCAAGTACTTCATTGATCGTGGTAAACCGGTTCAATGTATGACACTTCCAAAAGGCAAAGATGTTTCGGATGTGCTGGCACAAGATGGGAGCGCC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 GTATTTCTAATAACCATCAATCCGGTCGGCGTGATGGGTAAAGGGATCGCCCTGCAGTTCAAACATGCTTTTCCCGAGAATTTCAAAGCTTATGCCGATGCGGTGAATCGCAAGCAGATCAGAACAGGCGAGGTTCAGGTTGTCCCGGTTTCATCACTGAACGGCGTACGGTACATCATCACCTTTCCCACCAGGAACCACTGGCGTTACCCATCGAAACCGGAATGGATAACAGCCGGGTTGCGCGACTTGCGAAAAAAAATAGAGGACTACCAGATCGAGTCGATAGCGATTCCTCCTCTCGGATTCGGCAATGGCGGGCTGGACTGGAGCGTGGTAAAAGCTGAAATCGAAAGCGCTTTACAAGGTCTTCCCGTCGAGATACAGGTCTATGAGCCA 
 >PredictedProphage1 -Hit 2 
 GAAGTGAAGATAAGGGAAAAAAGCGCAGGTCTGCTGGCTGTTGATACTCCGTTTACATTTCCTGATGGGGATCAGTATCAGCTATACATAAAGGTTATGCCGGGGGGGCTGCTTAGGCTTACCGATATGGGGCATACACTGATGCATCTGAGCTATGAGCATGATATAGACAAGTTTTGTGAAGGCACGAGAGGTGCTCTTTACGAAAAGATAAAGTCCGAAACATCTGTTGAGGAGCATGATGGTTCCTTGTGCATTGATTCGACGTCGGAACAGCTTGCTGCTGATATTTTTCGTTTGGGTCAGGCGATTACGAGCATCAGTGACTTGACGTTTTTAAAGAGATCGCGGATAGAGTCCACATTCTACGATGATCTC 
 >PredictedProphage1 -Hit 3 
 ACCTACTACCTGTTCGACAGCCCGCTTCTGAAGCAGTTGCTGAAAAAGGTGTCGGAGATTCCCTCTTCGATGGATTACGATGCGTTCGGACGCATCTACGAGTACTTTCTCGGCGAATTCGCCATGAGCGAAGGGCAGGGCGGGGGAGAGTTCTATACGCCCGTCAGCATCGTTCGTCTCCTGACCGAAGTGATCGAGCCATATCACGGGCGCATTCTCGACCCCGCATGCGGTTCCGGCGGCATGTTCGTCTCCTCGGCCCGGTTCGTTGCCCAGCACAAGCAGAACCCTTCGGCAGAACTCTCCATTCACGGCATCGAGAAGACCGACGAGACGGGAAGGCTTTGTCGCCTGAACCTTGCGGTGCACGGGCTTGAAGGCCGTATCATGCATGGCGGCAACGTGAACAGCTACTACGACGATCCGCATGATGCAACGGGGAATTTTGATTTCGTGCTGGCCAATCCGCCGTTCAATGTT 
 >PredictedProphage1 -Hit 4 
 GAAGGAGGAGTAGAATATTGGCTGGCCCGTGATCTTCAGTATTTGCTTGGCTATAGCAAGTGGGACAACTTTCTGAACGTAGTTTCCAAGGCTAAAACTGCTTGCGAAATTTCCGGCCACAATGTGGCCGACCATTTTGCTGACGTCGGGAAAATGGTCGATCTTGGTTCTGGCAGCCAGCGCGAGGTGGACGATATCATGCTCACACGCTATGCTTGCTATCTCATTGCCCAGAATGGCGATTCACGAAAGCAGGAAATCGCTTTTGCCCAGACCTATTTTGCCATTCAGACACGTCGCGCCGAAGTT 
 >PredictedProphage1 -Hit 5 
 CATGACAAGGCTTCTCCAAGCTTATCGTTCTCAATAAACTACAATACTTGGCGATGTTTTGGAGCTTGTGGAAAGCATGGTGATGCCATCAACTTGGTCATGGAGAAGGAGGGGCTGGATTTTAACGCCGCCCTAGAATGGTTCTCGAATAATTTTAACGCAGATGTTAAACGGCAGTTTAGTGGGCAGAGAAAGCGG 
 >PredictedProphage1 -Hit 6 
 AAGTTTCTCAATTTGCGTGGTATCACCAAGCCATTGTTCAATGCCGACCGGCTTAAAAGCCTTCCGGCTGGGCAGACGGTGCATCTTTGCGAAGGCGTGCCCGATGTAGTGTCTCTGGAATCCAAGGGTTTGATTGCTCTCGGCGTTTTGGGTGCAACTTCGTTTCGTACAGAGTGGGTTGACAGATTTCTGAAATTCAAGGTTGTTGTTCTCGGTGATGGTGATGAGGGTGGGGCTAAGTTTGCGAAGGACATTTCCAAGTACTTCATTGATCGTGGTAAACCGGTTCAATGTATGACACTTCCAAAAGGCAAAGATGTTTCGGATGTGCTGGCACAAGATGGGAGCGCC 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 VFLITINPVGVMGKGIALQFKHAFPENFKAYADAVNRKQIRTGEVQVVPVSSLNGVRYIITFPTRNHWRYPSKPEWITAGLRDLRKKIEDYQIESIAIPPLGFGNGGLDWSVVKAEIESALQGLPVEIQVYEP 
 >PredictedProphage1 -Hit 2 
 EVKIREKSAGLLAVDTPFTFPDGDQYQLYIKVMPGGLLRLTDMGHTLMHLSYEHDIDKFCEGTRGALYEKIKSETSVEEHDGSLCIDSTSEQLAADIFRLGQAITSISDLTFLKRSRIESTFYDDL 
 >PredictedProphage1 -Hit 3 
 TYYLFDSPLLKQLLKKVSEIPSSMDYDAFGRIYEYFLGEFAMSEGQGGGEFYTPVSIVRLLTEVIEPYHGRILDPACGSGGMFVSSARFVAQHKQNPSAELSIHGIEKTDETGRLCRLNLAVHGLEGRIMHGGNVNSYYDDPHDATGNFDFVLANPPFNV 
 >PredictedProphage1 -Hit 4 
 EGGVEYWLARDLQYLLGYSKWDNFLNVVSKAKTACEISGHNVADHFADVGKMVDLGSGSQREVDDIMLTRYACYLIAQNGDSRKQEIAFAQTYFAIQTRRAEV 
 >PredictedProphage1 -Hit 5 
 HDKASPSLSFSINYNTWRCFGACGKHGDAINLVMEKEGLDFNAALEWFSNNFNADVKRQFSGQRKR 
 >PredictedProphage1 -Hit 6 
 KFLNLRGITKPLFNADRLKSLPAGQTVHLCEGVPDVVSLESKGLIALGVLGATSFRTEWVDRFLKFKVVVLGDGDEGGAKFAKDISKYFIDRGKPVQCMTLPKGKDVSDVLAQDGSA 
 



Prophage Finder Output

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

Genome size:  21917
Host's GC content:  48.39
Predicted Codon Position GC:  	1st:  56.66	 2nd:  39.77	 3rd:  49.58

 

Prophage Finder Output

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

Genome size:  24854
Host's GC content:  47.98
Predicted Codon Position GC:  	1st:  56.41	 2nd:  39.66	 3rd:  48.89

 

Prophage Finder Output

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

Genome size:  26772
Host's GC content:  52.47
Predicted Codon Position GC:  	1st:  59.17	 2nd:  40.87	 3rd:  56.48

 

Prophage Finder Output

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

Genome size:  24419
Host's GC content:  52.23
Predicted Codon Position GC:  	1st:  59.02	 2nd:  40.80	 3rd:  56.07

 

Prophage Finder Output

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

Genome size:  28073
Host's GC content:  50.62
Predicted Codon Position GC:  	1st:  58.03	 2nd:  40.37	 3rd:  53.35

 

Prophage Finder Output

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

Genome size:  30325
Host's GC content:  44.96
Predicted Codon Position GC:  	1st:  54.55	 2nd:  38.84	 3rd:  43.78

 

Prophage Finder Output

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

Genome size:  25456
Host's GC content:  49.63
Predicted Codon Position GC:  	1st:  57.43	 2nd:  40.10	 3rd:  51.68

 

Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig55

Genome size:  28627
Host's GC content:  48.35
Predicted Codon Position GC:  	1st:  56.63	 2nd:  39.75	 3rd:  49.50

 

Prophage Finder Output

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

Genome size:  23864
Host's GC content:  46.37
Predicted Codon Position GC:  	1st:  55.42	 2nd:  39.22	 3rd:  46.16

 

Prophage Finder Output

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

Genome size:  33492
Host's GC content:  47.51
Predicted Codon Position GC:  	1st:  56.12	 2nd:  39.53	 3rd:  48.09

 

Prophage Finder Output

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

Genome size:  29275
Host's GC content:  52.60
Predicted Codon Position GC:  	1st:  59.25	 2nd:  40.90	 3rd:  56.71

 

Prophage Finder Output

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

Genome size:  28235
Host's GC content:  45.61
Predicted Codon Position GC:  	1st:  54.95	 2nd:  39.02	 3rd:  44.88

 

Prophage Finder Output

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

Genome size:  34627
Host's GC content:  48.94
Predicted Codon Position GC:  	1st:  57.00	 2nd:  39.92	 3rd:  50.51

 

Prophage Finder Output

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

Genome size:  46643
Host's GC content:  47.78
Predicted Codon Position GC:  	1st:  56.28	 2nd:  39.60	 3rd:  48.54

 >PredictedProphage1 
 Length:   15819 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 47.27 	 48.51 	 50.36 	 43.30 	 51.88 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	8	0.0672268907563025
 Leu	TTA	4	0.0336134453781513
 Leu	CTG	29	0.243697478991597
 Leu	CTA	0	0
 Leu	CTT	54	0.453781512605042
 Leu	CTC	24	0.201680672268908
 Lys	AAG	25	0.378787878787879
 Lys	AAA	41	0.621212121212121
 Glu	GAG	16	0.372093023255814
 Glu	GAA	27	0.627906976744186
 Gln	CAG	20	0.769230769230769
 Gln	CAA	6	0.230769230769231
 End	TGA	2	1
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	6	0.5
 His	CAC	6	0.5
 Asn	AAT	14	0.388888888888889
 Asn	AAC	22	0.611111111111111
 Ser	AGT	9	0.101123595505618
 Ser	AGC	11	0.123595505617978
 Ser	TCG	15	0.168539325842697
 Ser	TCA	21	0.235955056179775
 Ser	TCT	12	0.134831460674157
 Ser	TCC	21	0.235955056179775
 Trp	TGG	34	1
 Arg	AGG	4	0.0909090909090909
 Arg	AGA	10	0.227272727272727
 Arg	CGG	6	0.136363636363636
 Arg	CGA	7	0.159090909090909
 Arg	CGT	6	0.136363636363636
 Arg	CGC	11	0.25
 Ala	GCG	22	0.2
 Ala	GCA	34	0.309090909090909
 Ala	GCT	17	0.154545454545455
 Ala	GCC	37	0.336363636363636
 Cys	TGT	4	0.5
 Cys	TGC	4	0.5
 Asp	GAT	14	0.466666666666667
 Asp	GAC	16	0.533333333333333
 Gly	GGG	10	0.105263157894737
 Gly	GGA	34	0.357894736842105
 Gly	GGT	24	0.252631578947368
 Gly	GGC	27	0.284210526315789
 Phe	TTT	48	0.607594936708861
 Phe	TTC	31	0.392405063291139
 Tyr	TAT	22	0.488888888888889
 Tyr	TAC	23	0.511111111111111
 Met	ATG	25	1
 Val	GTG	15	0.202702702702703
 Val	GTA	11	0.148648648648649
 Val	GTT	32	0.432432432432432
 Val	GTC	16	0.216216216216216
 Thr	ACG	14	0.212121212121212
 Thr	ACA	14	0.212121212121212
 Thr	ACT	7	0.106060606060606
 Thr	ACC	31	0.46969696969697
 Pro	CCG	9	0.243243243243243
 Pro	CCA	6	0.162162162162162
 Pro	CCT	10	0.27027027027027
 Pro	CCC	12	0.324324324324324
 Ile	ATA	9	0.1125
 Ile	ATT	34	0.425
 Ile	ATC	37	0.4625
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 7565	7897	-1	ref|NP_112716.1|LYS 	47.4bits(111)	1e-04
 8681	9019	-1	ref|NP_052116.1|internal virion protein D	67.0bits(162)	2e-10
 13611	14990	1	ref|NP_932589.1|hypothetical protein	84.3bits(207)	9e-16
 19460	19816	-1	ref|NP_943903.1|gp47 recombination endonuclease subunit	36.2bits(82)	0.29
 22433	23383	1	ref|NP_945090.1|gp59 	135bits(339)	5e-31
 
 DNA sequence:
 ATTGAGTTTCTGTCCTGGGCGTATAAGTTTTTTCTTTCCGAGATTGTTTTTTTTGCTCAGCTCCGAAACACTCAAAGCATACTTATCGGCTATCGATGAAAGAGTTTCCCCCTTTTTAACCTTGTGATATTTATGGCTTCGAGAAGATCCTGACTCTTTTTTTGCTGAAGATATGCGAGCTTCTGATTTTGCTGACGATGCCTTGCCGGTTATTTTCAGCACCTGTCCAGGCCGAATCTGTTTTCTGCCGCTCAAATTATTCAGCTCGGCAATACTTTCGGAACTCACTCCATATTGGCGGGAAATTGAGGCAACGGTCTCCCCTTTTTTAACCTTATGGTTTTGAATTTTTTCTTTTCGCAAAGCAACCTTCTGCTCCTGGGCTTTTGGTTCCTGAGCTCTCGGCTTCATAACAATTGGCGCTTGCCGCTGAACCTGTTCGGGAGGAAAAATCGGCGCAGGAAGCAATGGCGCAGATAATCCCCGGGCAGAGGCGGTCTGCTGTACCGATACCCCCTGGGCAGTGGAGCTTTCAGGCACCGCAAAAACAATGAGGCGCTGCCCTGGAGAAACCTCGGAGACTTTAAGGTCATTCCAGCGGATAAGCTGACTGACATCACATCGATACACACGAGCTATCGAGCCAAGTGTTTCGCCCTGTCGAACCTCATGCATTTTCATTCTCATCGTTCCGCCCGCACTCTGGGCTGAACTTACCGATCCTCCTCCATCCATACTCTGGACTCTTGCAAGAAGCTGAGCCCGCTCAATAACCTGCTCGGATTTATAAGCATAAATCTCTTCTTCGCGACGCTGAAACTGACCGACATATTTTCTCGGAAGCCTCAGCATATTGCCGCTATAGGAAGTGCCCGGTATAAGACCAAGCTTATACTGGGGATTGAGAAACTGGAGATCTTTCATCGGCACGCCGATCGTCTCGTTGATCTGTTCAAACGAAACAAGCCTTGTGATTTTCAGTGCGTCAATTTCATTGTAGAGAAAACCCGGCTCTATCGGCTGAATATTGTGCTCTTTATAGTAATTCATAATGTAATTGACGGCAATAAAAGCCGGCACATACCCGCGCGTTTCAGCAGGAAGATAGTTCCATATTGCCCAGTAGTTCTTGATACCTCCTGCCCGACGGATCGCCTTGTTTACGTTTCCCGGCCCTGAGTTATAGGCTGCAAGGGCGAGAAACCAGTCTCCATAAATATTGTAAAGATCCCGAAGGTGCTTGCTTGCCGCAGCAGTAGCCTTGTAGGGATCATAGCGATCTTCAATAAATGAAGAGGTCTCAAGACCATACATCTTGCCTGTCCCATACATGAACTGCCACAACCCTCTGGCACCTGCGGAAGAAACGGCTGTGGGATTTAATGCCGACTCAACGATAGCAAGGTATTTCATCTCAAGGGGAACATTGTACCGTTCAAGATTCTCTTCGAAAAGCGGAAAATAAATCTTGCTGAGCCCAAGAATCTTGGCAGTCATGTTTCGCTTGTCAACAGCATAAATCCTGATAAATCCCCTCACATGCTCGTTATAAACCAGATTAAACGCAGTTTTACGATCCAGGGCTGATATCCTTGCCGCATAGACCGAATCGCTGAACTGGGGAACAAAATGGCTGGGTAAACCGGGACGATAGGGCTCTTTTTTTGAAGGAGAAAAATGCTCATCCTTGAAATACGTGGTGTAAACAAGGCTGTCGAGAATCTCCGTTACGGATGTTTTTCCGGAATTGCCATCTCTATCGTCACGAGAATTCCTTGCAAGGAGAGACTCTGCGGAAAAAAGAATAGCCGATAGCGACAACCAGGCCGTCATCAATGTGTAATAAATCCGTCTCTTCACTATCAACCTAACGTTATCTGGGGGATTACTGAAACTCTCTGTTGCTGTTCCGCAGAACACTATCGGTCGGTTTAACATAAAAACAGTTCCTGACTAATACAAACAATAACCGATCTATCCTTTCTCAGAAGGAATGAGAATCACTTCCATAGGTGATCTTCCACAAAAAAAGACCGTTTGGTGCTGCCGGCACAAGTTGCCTTGTCAGGATGCCGGACTCAATCATCTCCCTGGCTTCTTCGGGAGAAAGAAGACCTTTGCCTGAATCAATCATCAAGGCCGCCAGATAACGCACCATTGACCGCAGAAATCGGTTAGCCGAGATCCTGAGCACAAAAAATTCCCGTTGACGAAACCATTTGCAGGAGATAACCCTGCACAGACACCCCGTCCTGTCTCGTGTTTCTTTTGAAAAAACGGAAAAGTCATGCTCACCAAGAACATAAGATGCTACCCGGTTCATGGACATGAGATCCAGCGAACCATAAGAACATCCGCTGAAACGCCCAAGCACCGCAGATGGCTCTTCACGAACAAAATACCTGTACTCTCTTTCTTTTGCGCTATGACGGGCATGAAACCCCTCCGGAACCACGAGGGGATCACTGATTCTTATGGTGTTTGGTAACAGCGCATTCATTGAGTGAACCATTCTGTCTGGCCCCAGGGATGAACGACTTTTGAACGTGGCGATCTGTGCCCGGGCATGAACGCCCTTATCAGTTCGTCCTGCCCCGGCAAGCCGTATATCTTCCTGTAATATCTGACTGAGAATACGCTCAATCTCTCCCTGCACCGTGCAAAAAGAGCCTGCCTGTCTCTGCCACCCGGCATATCCGGTTCCATCATATTCAATGGTAATCCTGATGTTCTTCATAAAAAGAAAATCTTTAGCTAACATGCTGTTTATGAATAAACAAAGGTGCCTATAAAAAGCTTCAGCCGGGTACCTATAAACTACTGACACAGAACTTTTTCAAGGCACAAAGCTATTTACTTCTTTCTTCGATGAAACAAAACAGCACACCACATCAAACAACAAACCTTAAGCTCGTTCTTCATGCATTGGAGCAACTGCCTGAACTGAAACCCGGCCAGCCATATTACATTCCCGGACTCTGGAATGGGGGTGATAGTGGTTTTGAACCGGTTCAGCCGGGAAAATACTTTGCCGATATCATTACGAACATGTTATCGGGCAACGCAAACGAAATCCGCAACCCTTTGCAATCTTCAGGGAACTGGACGCCGGATGCTGTCGTGTATAACCTGTTTATACGGCTCACCACTGCATATGATCACAATAATGATGGCATTGTCAATACCGAACCTCTTGAAAATGGCTTCAGGGAAACAGGAACGCTCCTCAAGGCAACAGGCCTGTTACCCTACATTAAAAAACTCGGTGTCAACACGCTTTACCTCCTTCCGGTTACGTTGACCGGATCCGATGATAAAAAAGGCTCCCTCGGCTCCCCTTACGCAGTAAAAGACCCTTTTGCCATAGACCCTATGCTCGACGAACCGGCTCTCGGGCTTTCGGCTGACATCCTCCTGAAAGCGTTTGTCGAAGCCGCTCATCTGCTCAACATGCGTGTTCTTTTTGAGTTCGTCTTTCGAACAGCATCAGTTGACAGCAACTGGATTCAGGATCATCCGGACTGGTTTTACTGGATTTCAGAGACTGGGTGCGCAACGAAGTATGGTCCGCCGCACTTCAGCGATGAAATCCTTCACACCATTTATGAAAAGGTCGACAAGCATGACCTGAACAATCTGCCGGCTCCGGAAGCCGATTACAAAAAAATGTTTACCTCCGTTCCTGTCGCCATCCACAAGAAGGATGAAAAACTCAGAGGAATCACAAAACAGGGAGAAGAGTGCAGAATTGCCAGCGCATTTTCAGACTGGCCGCCGGATGACAGGCAGCCGCCATGGACCGACGTAACCTATCTGAAAATGCACAACCATCCGGAATTCAACTATATCGCGTACAACACCATCCGGATGTATGACGTTGCTCTCGATAATCCCGAATACCGGAATAATCTCCTCTGGGAAACAATAGAAGCGATCATCCCCCATTTTCAGGAGAACTATTGCATTGACGGCGCAATGATCGACATGGGGCATGCGCTGCCATCAGCACTCAAACACTCCATCGTCAAACGTGCGCGACGCAACAATCCGAATTTCGCATTCTGGGATGAAAATTTTGACCCGACGCCATCCGTCAGGGATGAAGGGTTCAATGCCGTATTCGGCTCCCTTCCCTTTGTTATTCACGATCCTGTTTTTATACGAGGATTGCTCAATTATCTCAATAAAACCGGTGTAGCACTTCCTTTTTTTGGTACGGGAGAAAACCACAACACTCCGAGAGTATGTCACGGCTATCCCGGTATGGAAACTGGCAGAAACAGGTCTTCCTTCATTTTCACCCTCTGCTGTATTCTGCCGGCAATCCCGTTTCTACACTCAGGCATGGAGCTCTGTGAATGGCATCCGGTTAATCTCGGACTGAACTTCACCGCTGAAGACAGGGAACGCTTTCCGTCAGACAAGCTCCCGCTTTTCAGTGCGTTCAGTTACGATTGGAAAACAGCCAACGGCCTTAAGACTCTCAACAGCTACATCAGCAAGATCCTGTCCATAAGAGCCAACTATCGTGAACTTGTTCAGTGTATGGATAAGGGTTCAATGATTCTTCCCTACATCACCAATCCTGAACTTTTGGCCGTCATGAGAAAAAACGGCGACACAACGCTGCTCTTCATTGGAAACAGCAATGGATCTGAAGCGCAGAATGGCATCATTGAATTCGGCATCACTGACGCAATCCTCTTTGATCTTATCGAAGAAAAAGAGTACCCTGTTTCAAATCACTCCCTGAGCTTGCATTTCAAGCCGGGTCAAAGTATGCTTTTCGAACTTCCTGTAGAGGAAAAACCATCGTAGGGCGCATCCGGATTTGACCATCTGGCGCCAACGCCCGGATATCCTGCGTGTTTCGACATATCGCGGGACACGCAGGAACTGAAGTTTCTCTCGATAAAACAGGGCGTCGGAACGATAAAAAGAGGTATCCTATAACCAGTGAAATAGTTATCTTCGCTTTTTCATCAACACTGTAAACACGCTATCACTATGTCTATTCTCGTTGTCGGCTCACTTGCATTTGACGATATTGAAACCCCTTTCGGGCACTCGCCTGATACCCTGGGCGGTTCTTCTACCTATATTGCCCTTTCGGCAAGTTATTTTACTGACAAGGTAGAGATGGTTGGCGTTGTTGGTGCTGACTTTGAAGATAAACATTTTCAGGTGCTCCACTCCAGAGACATCGATACCAAAGGTATCAAGAAGGTGGAGGAAGGTAAAACGTTCCGCTGGGCCGGTCGCTACCACTATGACATGAATACACGGGACACACTTGATACCCAGTTGAATGTTTTTGCCGATTTCGATCCCCAGGTTCCACATGAATACCGGAAGGCTGATTTTGTCTGCCTGGGTAATATCGACCCCAAACTCCAGCTCAGGGTACTTGACCAGATCCTGCAGCCCAAACTTGTGATCTGCGACACCATGAATTTCTGGATCGAAGGCCAACCTGAAGAACTCAAAGAAACACTGGCACGGGTGGACATATTTATTATCAACGACAGTGAAGCCCGACTGTTAAGCGGTGACCCCAATCTGGTGAAATCCGCAAGAATTATCAGAGCAATGGGACCGAAAACACTGATCATCAAAAAAGGTGAACACGGTGCACTGCTCTTTACCGATAACGGTATTTTTGTTGCTCCGGCTTTCCCGCTTGAGTCGATCTATGATCCTACCGGTGCTGGCGATACCTTTGCCGGAGGATTTATCGGACATCTCGCCCGTTGCGAGTCCATTACCGAAGCAGAAATGCGCAAAGCGGTTCTTTATGGCAGCGCCATGGCAAGTTTCTGTGTTGAAAAATTCGGAACAGAAAAGCTCTGCGATCTTGACCTGCTTGAAATTGAAGATCGCTATGAAAGCTTCCGTGATCTGTCGAAAATCGAAGATTGACTCATTTGACTCTATCGGAACGTGCGATCTCGTCACAAAACGCTTTCTTAATAATTATGACCTGATCGCACATTTCGAACGATACCCCTGACGAAAAAATTTTATCCATCGCAAGGCCATGGAGACATTAACGCTTCTTGACTACTCGTTTATTGTCGGATACCTTCTCCTGACGCTGTTTATCGGCTTGTTGTTTTCAAAAAAAGCCTCTGAAAATGTTGGCGAATTTTTTCTTTCAGGCAGAAAACTTCCCTGGTGGATTGCCGGAACCGGTATGGTTGCAACAACCTTTGCCGCTGACACGCCGCTTGCCGTAACAGGATTGGTAGCAAAAAACGGCATTGCCGGAAACTGGGTCTGGTGGACGTTTGTCTCCGGAGGAATGCTGACTGTTTTCTTTTTCGCAAGACTCTGGCGCCGATCAAACATCCTTACCGACCTTGAATTTATCGAAATTCGATACAGCGGTACCGCCGCCAAATTTCTTCGCGGATTCAAGGCGCTCTATTTCGGACTTTTTATCAATTCGATCATTATCGGCTGGGTTAATCTTGCGATGTACAAGATAATAAGGATTATGGTTCCTGAACTCAACCCCGAAATCACGATCATAGCTCTTGTTGTTCTCACGACCGTCTACTCAGGACTTTCCGGGTTATGGGGCGTTTCTATTACTGACGCGGTGCAGTTCATTATCGCCATGACCGGCTGCATCATCCTTGCCGTTCTTGCACTGCAGGCACCTGAAGTTGGAGGCATCTCCGGTTTACAGCACGCACTTCCAGCCTGGATGTTTGACTTTTATCCCTCACTTTCCGGCTCCCGAGAAACGCCCGTTCAGGATAGCGGAGCGTTCTCGCTCCCCTTTGCATCGTTTGCCGCAATGGCATTTGTCCAATGGTGGGCGTCATGGTACCCTGGTTCCGAACCGGGAGGCGGCGGCTATATTGCCCAGCGAATGATGAGTGCCAAAGATGAAAAGCACTCTCTTCTTGCGACACTCTGGTTTACCGTTGCTCACTACTGTCTTCGTCCATGGCCATGGATCATTGTCGCTCTTGCGAGTCTTGTCATGTTCCCCGACCTCCCCCTTGATCAGAAAGAGGACGGATTTGTCTATGTGATGAAAACCGTTCTGCCTTCGGGACTGAAAGGACTGCTTGTGGCCGCATTTCTTGCCGCGTACATGTCAACCCTTTCAACCCATCTCAACTGGGGAACAAGCTACCTGATTAACGATTTCTATCAACGGTTTCTGAAGCCGGAGGCAGAAGCCGCGCATCTGGTAAAGGCGTCAAAAATCGTTACCGGTCTGATCGCAATTTTTTCGCTTTTTATCACGTTCTATGTACTTAAAACCATTACAGGGGCATGGGAATTCATTATTCAATGTGGTGCCGGCACAGGTTTTGTACTGATTTTCCGCTGGTTCTGGTGGCGACTGAACGCGTGGAGTGAAATCACCTCAATGCTTGCACCTTTTCTTGCCTATGCATGGATTTCCTTTTTCACCTCAATCACCTTCCCGGACTCATTGTTCATTATCGTCCTGTTTACAATATCGTCAACACTGATTGTAACATTTTTAACCCCTCCGACCGATACCGACCGCTTGCAGTCATTTTACAGAACCACAAGGGTTGGCGGCATTCTATGGAAAAAGATTTCCGTGACCATGCCGGAGGTTGAATCAGACAAGGGATTTATCATGCTTTTCATTGATTGGCTGCTCGGCATTATCCTTGTTTACGCCGCACTGTTCGGAACCGGAAAACTCATCTTTGGAGATCCAATGCAAGCCGTTATCTACTTTGCAACCGCCCTCGGTGCAGGAACGCTCATCTACAAAGACCTGAACCGGCGAGGATGGAACAATCTGAAATGAACCTCGCCATGGAAAAGCCGTTATTGATACTTGCGTCACAATCTCCCCGCAGAAAGGAAATACTTTCTCTCATGCGGCATACTTTCGAGATTATTCCTGTTGATACTCCGGAAAATCTCAACGCCCGGTTAACCGTAGAAGAAAACGTCGCCTTGATTGCTCTTGAAAAAGCTAAAGCAGCGGAACCGTACAGAACAAAAAAAGATGCCATCATTATAGGAGCAGACACTGTCGTTGCCCATGAAAACCGGATTCTCGGAAAACCATCGAGCTTCGATGAAGCATGGGCAATGCTCGCAAAACTGCAAAATGCGACCCACAAGGTACATACCGGATTTGCGCTGCTATCGGAGCTCAAACAGCACACGGAATGTGTCACAACAACGGTGACGATTGCACCAATGAGCAGCAGGGAGATCACGTATTACATTACTGAAATGAAACCGTTTGACAAAGCCGGCGCATATGGTATACAGGACCCGCTGATGGCCTGCTATATTCAACGAATCGAAGGCTGCTACTATAACGTAGCCGGATTGCCGCTTTCAAGGGTTCATTCCGTGCTGCACTCACACTTTTTCGCCGAAAAATAAAGGAAAGCCCATGCATGATTCCGACCGGCAAAAAACGATTCTCGCCATTCTGGGGCCTACCGCATCCGGAAAATCGGCACTCGCCTTCAGCATAGCAAAAGAGATAAACGCAGAGATCATCTCCGCCGACTCAAGGCAAATTTATCGTGAACTGAATATCGGTACCGCAAAACCATCTCAAGAAACACTGCGGCAGATAAAACACCACTTTGTTAATGAATTATCCATAGGCGACCCCTTTACAGCCGGAAATTTTGCCAGAGAGGCATCAGCAAGAATCCGGAACATTCTCCATTCAGGAAAAAATGTCCTTATTGCCGGAGGCTCAACCCTTTATCTTGAAGCTTTGCTCAATGGATTTGCCGATCTGCCGCCTGCTGATACAGAAAAAAGACAACAACTTGCCATTGAACTTGAAACCTTCGGAAGCAAGCACCTGTTTGAACGTCTCAGGCAACTTGACCCTCTGCAGGCGGCAACGCTTGATCACACCAAAACCCAACGACTGGTAAGAAGTCTTGAAATAATTGAACTGAGCGGGCATACCGTCACAGAGATGCAGAAAAAGCATATTCAGCCTCTTGCCGACATCAACGTCATCACCTGCGGACTCTCATTGCCGCGACCACTGCTTTATGAAAAAATAAACAGGAGAACCGACCAGATGCTTGCCTCGGGACTTCTGCAGGAAGCGGTAGCCCTCTTTACCAAATACTACCCATATTGCGATGTAATAACAACAAATGCGCTGCAAACGGTAGGGTATCAGGAACTCTTTGCATACCTTGATGAAAAAACTGATTTCAAGACCGCAATTACCCTGATTAAACAGCATACGCGTAATTATGCAAAACGCCAGTTGACTTTTTTTAAAAATAGGCTTAACGTTAACTGGATGGATGCTCCCGAAAATGAACATGAGCTCTCCATGTTAACCACCTCATGTTGCAGGATGATTACCGGAAACTGATTCGTTCTGTCAGCGGGGTGTTGCAAATCATCTGCACAAGCATTGATCAAAGGCTCTGAAATGTGTTTCTTCCTGTAAATTGATCAATACGTTCTTCATCATTAATGCCAGGCGCAACCAGCCTGCTCTGTCAGAGATAACCAGAAGTACCGCCATGAAAAACTCAGTCTCTTCACGAAAAGATTTAACCATTCTGAAAATTGAAGAGGAAGTCTTTGATTTCCGGCATGCTGCTTTTTTCAGGCAAACTATCGAAAACCTTGTCAGCAATGAAAACAGCAAAAATCTTATCATCGATTTTTCTCATGTTAAAGCTATCGATTCATCGGGCATAAGTTCAATGCTCCTTGCTCATCAGCTCTCCAACCAATGCCAGGGACTGGCAATTTTTGTCGCCTTGTGCCAACAGATAAAAGATCTTTTAAAACTCACCAACCTTGACAAACAGCTTTACATTTTCTCATCAATAAACGAAGTCATGACCCTTGTTGAACCCACCAAGAAAAACAAGGCTCCTCGCTATTTCAAGTGGGTAAGCCAAAATTAAGCTTCCCGCTGATCAGGTAGATCATATTGATGAGATTTTTGGTAGTACGGTAACCCCGTGCCCGTGCTTTGGCCGCCTGGATGAGGCTATTGATTCCCTCAAGTACCCCATTATTGATACGAGAAGTGAACCATCGCAGAATGCCAGACCAGTGTCGTTTGATGGTGTAAGCCGCCTCTTTCATTGGCTGCAGCTGGCTGTGGGTTGCCCAGAAATACCACTTCTTCAGAAATGCTTCCACCAATACCTGAGGTTGCTCGAAAAACTCCTGAAAAGTTAGTCGCATGCGGTATGCTCGAGTTGTTTTCAGATTCAGTCGGGGCAAGGATAACTCATCAAGGCGTTTGCGTTGTGAAGCCTTCAGGTTGTTCTGGTTTTTCAGCCAGATGTACCGGCTTCTCTGCAATTCAGGGCGCTCTTTTTGCTCCTGACGCCGCACTTCATCGACAGCATTATTAATGACCTGCATGATATGGAACTTGTCAAAGGTCAGTTGGGCATTGGTAAAGTTATCGGCGACCCCTTTGATGAATGCCGGTGACATGTCGCTGCAGAATTCGGTGATCAATGCCGGATCACCCTTATGGGCGGCAAGATCTTCACTGAATCGCTTGACCGTTGCTGCATCTTTCCCTTCAGTGGCAAACAACACTTTCGATACGGCAAGGTCAACGAACAGCGACACATAGTTATGACCGCGCTTGCTGGAGGTTTCATCAACACCTACCATGGTGACTGCGGAGTGATCCTCCTGCTCTCGGGCTTTTTCGACATAGTGGTTGATGATCCGCCAGATACGGGTGTCATGCTCGCCGACAATGGCGGCTATTGCCTTGACCGGCATTGACTTCGCCATGATCATGATCATCGCCTCAAACAGCAGAGTAAAGCCGCTCTCACGGCGAGACCAGGGAAATGATTGCAGCTTGAGAATGCCGCACTCAGGGCAGGATATACGAGGCACTCGAACTGTCAGGTAGGCCTCATGCTGAAAGAAGTTGAGATGGCGCCATGTTGCCTCGGAGGTATCATAGGCCTTCACGCCTTCTCGGCCGCATTGAGGACAACAGAAGGTGCTGCCCGGTTTAAAATCTATTCGTATGTCCAAGCGCTTTTGGTCGACATCAAATGATGAGGACGATACATACCATGGGGACTCAAGTCCCAAGGCCATCTGAAAAAGGGTAAGGTCGTTCATGAGCGTACTGGTTACTGGCTTAGTTGGTTACACCACAATATACGCTTCTGATATCATCACCCACTTGAAACAGCGAGGAGCCTTATTTTTTCAGTCCTGAATGTTTGCCCCTTCATGAAGCCTCCAGCGAAACTTGAAAACCCGAGATTTGATGAACCACTGTGCAGCCGTTGCGGTTTATGCATGGGCAATGCCTGGCCTACTGAAGAGAGCCTCCTGAGCTGTGTCTTCAATACCGGTTGGCTGGGAAAACATGAAGAAAAGCTTTTCGGCAGAAAAAGAAACATGCTCGACGCCGATGAACTCCGTTTCGGTATAGCAAAAGAACGGTTCAATGCGGTCATGAAAAAACCCGTTGAAGGAGCCCAGTGGAGCGGCATCATCACGGCCCTTTCCGCACAGGCACTGCGTACCGGCCTGGTAGACGGTGTTGTCACCCTGCACGGCACAACGTTTCAGCCCAAAGCGGTGCTTGCAACAACCCGGAATGAAGTTTTCGAGGCAAGAGGCAATAAACCCGTACTTTCACCGGTACTCCAGGCCCTGCATACCGCATGGATGGAAAAAAAGAAAAAGCTGCTGGTTGTCGGTGCGGCATGCCATGTTCATGTCCTGCGTGATTTTGCCGACTGACACCCCTATATCAACGATGTTGACCTCTACGTTGCAGGCATTCCATGTACCGACAATCTTGAACCTGCGCACCTTCGCCGGGTATTCAAAAACATCAGCCGTTCCCCTCAAACCGTTCTGAACTTCGAGTTCATGCAGGATTACAGGGTACACATCATGCACACCGACGGAAAAGTTGAAAAAATTCCTTTTTTCAGCCTGCCAGCAGCAGTCCTGAAAGTTGGCGTTTTTTCAAACAGTTGCATGAGCTGTTTTGATTACATCAACAGCCTTGCCGACATCACTATCGGATACTTTGGCGCTCCATTCTCATCTAAAGAAAAAACGCAATGGCTGCTGGTTCGAACTGAAAAGGGCAACCGCCTCCTCGATCTTGTTCGTTCCGAGATCACCATAACGCCAGAAACGGGTAGCGGAGAGAGTTTCGGAGCAGTCAAGGCCTCTATACGACATACAATAGGGCCGATTCTTGAACCACACCTTCTTGGAGAACGTCGATCCATGCCCCTCTTTTTCGGCAAACTTCTCAGCGCCATCAAGGCAAAAAAAGGAGCGAGAGGAATCGAGTTTGCACGATACTCAATCGATATCCATGCACTGAGAAACTATTATTTTGTTCGACACTACACCCCTGAACGGCTTGATGTTCTTGTCCCTGATCACATCCGACATCTGGTTGAACTATACCATGTTATAGATTTCGACAATATTGAGCCATTTGCAGGCAGCCAAAATGAGCCCTTATCTTGCAAAACAATTTCCTGAAAACTATATTATTGCATAGTCATATAATCAAGGAAACAAACAAACAAGCCATGTAAACGATTGTTATTATTTTGTTTTATTTAAGTTATTTGCTATAATCAGCGTTGATATTTTGCATTACCTGTTCTTTCACACACACTTACACCCTTTCAGGACACCAAAGGGCAAGATTTTACACAGAAAAAAACACACACAACCTAACGGAGAACACACATGAAAAAAATGCTGTCTCTTGCAGCGATGTTTGCTGTACTTTCGTACGCATCACCTGCATCCGCAGAAGTTAAATTCGGAGGTGACGCTTCAGTCCGCCTCAGAGGCCAGTTTGAAGATGATGAGCAACGGGTTTTTGGCAGTTATGAGAACAGCGAAGACGATCTTAACTTCGCATACCGTCTACGCCTGAAAGCCTCAGCCGACCTTGGCAGCGGTTACTTTTTCAAAGCCTTGTTAACCAGCGACAACGCCGCCGCCGGTTGGAACACGGTAAATGACAACAATAGAGAGGATGCGGAAATCGATATTTCCAATCTCTATTTCGGTCGCATGATGGAGAACAGCCACTACATGATGGGACGCCTTCCTCTCAACAGCATGAACAACCCGATCTTTGACCTCGCAATGTATCCGATTCCTACCTATGTAGGCATCTCAGGCACAACGATTGGTGTTGGCGATATTCCAGTTGCAACCTACAATATGGATCGCATCTTCGGCCTCAATTACGGAGCAAAAGTCGGGCCGGGTGAACTTAATGCCACCCTCATCGCTCTTGACAACGACATCAAGGATGACACTGATGCAGAAGGCAATGGATTGTTCAACGACGGCTATGCACTGCACCTGAGCTACAAGGCAAATCTCGGCAATGTCACCGTCGAACCTCAGGCAATCATCGCTCTCACCAATCTTGACGGCCTGGTTTATGAGAACGTGACCCCTTATATCTTCGGCGCGAACGTCACCATTCCTGCAGGCAAAGCCAAAATCGGCCTGAGCGCATTCTATACCGCTGCTGATGACGGCGGCAACTACACCGTTGGTGGTGCTGCTGCTGATGTCGACTACAGCGGCTACCTTCTCAGACTGAAAGGCGAGTACGGCCCGTTCATGGCATGGGTTGACTACAACAACACCAACGACAAGACAAATGGTGATGATATTGATTATAACAACCTGTTCGTCTGGGCGCAGTACAACTTCAAGGTCTACGAATCAGCGATGGGCACCTTCAGCCTGACCCCGACCGTACGTTACTGGGCAGCCGGTAAAGACTATAATGACGGCGGAGAAAATGATGAGTACAGCAGGCTTCGCACCGAGCTCGTTGCTACGATGTCCTTCTGAGATCCGTTTGATTCTCAAAAAAAAGCCGCAGAGCTCTGCGGCTTTTTTTTGAATCATCCATAACAATTGTTACCAAAAAAAACACCGAAACAAATCTCTCTTTCGATCATCTTTTACCTTATCAGATATGTATAGGTAAAGATTATTTTTCGTAGATTTATCGTATACTTTTTTCTGTAATAATCAAGGGCCTCCTGAACACTGTCCATACCCGCTTTCAGACTGACAAAAAAGGTTGTGATACTTCGTGTGGCCTTGTTCTTTCAGAAAGAGAGAAAAAAAGATAACTGTTCTTATTTATGCCGGTTCCGGTATATCCGATAACGGATTGAGGTTTCTCCGGTATAACGTTAGCCCCTGACAGAGAAAATAACAGCTTTTCCTGCATGACACTGTCCGGCATGGGTTGTTATATGTTTTCATTAACCAAAACACAACGACTGAGCTATGATTACCATCAAAAAAATCATCTGTCCGGTTGATTTTTCGGGTTTATCGCGCAAGGCGCTGAGCTATGCCAATGAGTTTGCGAAACTTTCCGGTGGGGAGGTTTTTCTTGTCGGCGTCGTGGAAAATGATCCGACGATCAACTACTCTCACGGACTGGAAACGGAGCGTGCGGAAGAAGAGAAAAAACTTGCAGCCCTGATCGAGGAAGAACAGATGCACGGCATCGTTGCCGATTATGTCATTTACGAAGGATTTGCCGAAGAGTGCATTCTCGATTATGCAAAGCGCAAGGAGGCAGACATTATCATCATGGGATCTCACGGTCGTCGCGGCTTGAAAAGAATGATCCTTGGCAGTGTAGCCGAACATGTCATCAGACGAGCTCCCTGCCCTGTTCTTGTGATAAAGGAAAACGAGCACGAGTTCATTAAGTAAATCCGCTTGCTGCAGAGAGCAGCTTCACACAGTTTTTTCAACACTATTTCCGTTTAACAATCAAGGAGAAGATGTATGGCAAAAAATGTCTCAAACGTCTCCCAAAACGAAGAGGTAACCAGCATCAGGAGGGTTATTACCGCATCCTCCGTTGGTACGCTCATCGAATGGTATGACTTTTACATTTTCGGAAGTCTTGCAAAGATTATTTCCGAGCAATTCTTTCCAAAGGACAACCCGACAGCCGCGCTGCTTGCCACCCTCGCTACCTTTGCGGCAGGTTTTGTGGTGCGACCTTTCGGCGCGCTGTTTTTCGGTCGCCTCGGTGACCTGATCGGAAGAAAATACACCTTTCTGGTAACACTCATCATCATGGGTGGATCAACCTTTGCCATAGGCCTGGTTCCCGGTTACAAAACGATCGGGTTTGTAGCTCCGGCAATCGTCTTTGTTTTGAGACTGCTCCAGGGTCTTGCCCTCGGAGGCGAATACGGCGGTGCGGCAACCTATGTTGCTGAACACTCTCCGTCTGATAAACGTGGCTTCTGGACAAGCTTCATTCAGACAACTGCCACCATCGGTCTGTTTGTCTCTCTTGGCGTTATTCTCATTGTCCGCCAAACGCTTGGTGTCGAAACCTTTACCGACTGGGGCTGGAGAATTCCGTTCCTTCTCTCGATTTTTCTTGTTGCCATTTCAGTGTACATCCGCATGAAAATGTCGGAATCCCCTGCATTTGCAAAACTGAAAAAAGAGGGAAAAACCTCAACCAACCCTCTTGCCGAGAGCTTCAAGAAAAAAGACAACCTGAAAATGGTTCTGCTTGCACTGCTTGGCGCGACGGCTGGTCAGGGTGTGGTCTGGTACACCGGACAGTTCTATGCGCTCTCTTTTCTTCAGAACGCCTGTAATGTGGAGTTTGTGCAGAGCAACTACATCATCTCCATAGCGCTGCTCATCGGAACACCGTTCTTTATCATTTTCGGAGCACTTTCCGACAAGATCGGGCGCAAGTACATCATGATGACCGGCATGCTGATTGCCGTGGTAGCGTACAGACCTATCTATACCGTCATG 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 GTTAAAAAAGGGGAGACCGTTGCCTCAATTTCCCGCCAATATGGAGTGAGTTCCGAAAGTATTGCCGAGCTGAATAATTTGAGCGGCAGAAAACAGATTCGGCCTGGACAGGTGCTGAAAATAACCGGCAAGGCATCGTCAGCAAAATCAGAAGCTCGCATATCTTCAGCAAAAAAAGAGTCAGGATCTTCTCGAAGCCATAAATATCACAAGGTTAAAAAGGGGGAAACTCTTTCATCGATAGCCGATAAGTATGCTTTGAGTGTTTCGGAGCTGAGCAAAAAAAACAATCTCGGAAAGAAAAAACTTATACGCCCAGGACAGAAACTCAAT 
 >PredictedProphage1 -Hit 2 
 CTTTTCGAAGAGAATCTTGAACGGTACAATGTTCCCCTTGAGATGAAATACCTTGCTATCGTTGAGTCGGCATTAAATCCCACAGCCGTTTCTTCCGCAGGTGCCAGAGGGTTGTGGCAGTTCATGTATGGGACAGGCAAGATGTATGGTCTTGAGACCTCTTCATTTATTGAAGATCGCTATGATCCCTACAAGGCTACTGCTGCGGCAAGCAAGCACCTTCGGGATCTTTACAATATTTATGGAGACTGGTTTCTCGCCCTTGCAGCCTATAACTCAGGGCCGGGAAACGTAAACAAGGCGATCCGTCGGGCAGGAGGTATCAAGAACTACTGGGCA 
 >PredictedProphage1 -Hit 3 
 TTAACGCTTCTTGACTACTCGTTTATTGTCGGATACCTTCTCCTGACGCTGTTTATCGGCTTGTTGTTTTCAAAAAAAGCCTCTGAAAATGTTGGCGAATTTTTTCTTTCAGGCAGAAAACTTCCCTGGTGGATTGCCGGAACCGGTATGGTTGCAACAACCTTTGCCGCTGACACGCCGCTTGCCGTAACAGGATTGGTAGCAAAAAACGGCATTGCCGGAAACTGGGTCTGGTGGACGTTTGTCTCCGGAGGAATGCTGACTGTTTTCTTTTTCGCAAGACTCTGGCGCCGATCAAACATCCTTACCGACCTTGAATTTATCGAAATTCGATACAGCGGTACCGCCGCCAAATTTCTTCGCGGATTCAAGGCGCTCTATTTCGGACTTTTTATCAATTCGATCATTATCGGCTGGGTTAATCTTGCGATGTACAAGATAATAAGGATTATGGTTCCTGAACTCAACCCCGAAATCACGATCATAGCTCTTGTTGTTCTCACGACCGTCTACTCAGGACTTTCCGGGTTATGGGGCGTTTCTATTACTGACGCGGTGCAGTTCATTATCGCCATGACCGGCTGCATCATCCTTGCCGTTCTTGCACTGCAGGCACCTGAAGTTGGAGGCATCTCCGGTTTACAGCACGCACTTCCAGCCTGGATGTTTGACTTTTATCCCTCACTTTCCGGCTCCCGAGAAACGCCCGTTCAGGATAGCGGAGCGTTCTCGCTCCCCTTTGCATCGTTTGCCGCAATGGCATTTGTCCAATGGTGGGCGTCATGGTACCCTGGTTCCGAACCGGGAGGCGGCGGCTATATTGCCCAGCGAATGATGAGTGCCAAAGATGAAAAGCACTCTCTTCTTGCGACACTCTGGTTTACCGTTGCTCACTACTGTCTTCGTCCATGGCCATGGATCATTGTCGCTCTTGCGAGTCTTGTCATGTTCCCCGACCTCCCCCTTGATCAGAAAGAGGACGGATTTGTCTATGTGATGAAAACCGTTCTGCCTTCGGGACTGAAAGGACTGCTTGTGGCCGCATTTCTTGCCGCGTACATGTCAACCCTTTCAACCCATCTCAACTGGGGAACAAGCTACCTGATTAACGATTTCTATCAACGGTTTCTGAAGCCGGAGGCAGAAGCCGCGCATCTGGTAAAGGCGTCAAAAATCGTTACCGGTCTGATCGCAATTTTTTCGCTTTTTATCACGTTCTATGTACTTAAAACCATTACAGGGGCATGGGAATTCATTATTCAATGTGGTGCCGGCACAGGTTTTGTACTGATTTTCCGCTGGTTCTGGTGGCGACTGAACGCGTGGAGTGAAATCACCTCAATGCTTGCACCTTTTCTTGCCTATGCATGGATTTCCTTT 
 >PredictedProphage1 -Hit 4 
 GGGCATGGATCGACGTTCTCCAAGAAGGTGTGGTTCAAGAATCGGCCCTATTGTATGTCGTATAGAGGCCTTGACTGCTCCGAAACTCTCTCCGCTACCCGTTTCTGGCGTTATGGTGATCTCGGAACGAACAAGATCGAGGAGGCGGTTGCCCTTTTCAGTTCGAACCAGCAGCCATTGCGTTTTTTCTTTAGATGAGAATGGAGCGCCAAAGTATCCGATAGTGATGTCGGCAAGGCTGTTGATGTAATCAAAACAGCTCATGCAACTGTTTGAAAAAACGCCAACTTTCAGGACTGCTGCTGGCAGGCTGAAAAAAGGAATTTTTTCAACTTTTCCGTCGGTGTGCATGATGTG 
 >PredictedProphage1 -Hit 5 
 AGGAGGGTTATTACCGCATCCTCCGTTGGTACGCTCATCGAATGGTATGACTTTTACATTTTCGGAAGTCTTGCAAAGATTATTTCCGAGCAATTCTTTCCAAAGGACAACCCGACAGCCGCGCTGCTTGCCACCCTCGCTACCTTTGCGGCAGGTTTTGTGGTGCGACCTTTCGGCGCGCTGTTTTTCGGTCGCCTCGGTGACCTGATCGGAAGAAAATACACCTTTCTGGTAACACTCATCATCATGGGTGGATCAACCTTTGCCATAGGCCTGGTTCCCGGTTACAAAACGATCGGGTTTGTAGCTCCGGCAATCGTCTTTGTTTTGAGACTGCTCCAGGGTCTTGCCCTCGGAGGCGAATACGGCGGTGCGGCAACCTATGTTGCTGAACACTCTCCGTCTGATAAACGTGGCTTCTGGACAAGCTTCATTCAGACAACTGCCACCATCGGTCTGTTTGTCTCTCTTGGCGTTATTCTCATTGTCCGCCAAACGCTTGGTGTCGAAACCTTTACCGACTGGGGCTGGAGAATTCCGTTCCTTCTCTCGATTTTTCTTGTTGCCATTTCAGTGTACATCCGCATGAAAATGTCGGAATCCCCTGCATTTGCAAAACTGAAAAAAGAGGGAAAAACCTCAACCAACCCTCTTGCCGAGAGCTTCAAGAAAAAAGACAACCTGAAAATGGTTCTGCTTGCACTGCTTGGCGCGACGGCTGGTCAGGGTGTGGTCTGGTACACCGGACAGTTCTATGCGCTCTCTTTTCTTCAGAACGCCTGTAATGTGGAGTTTGTGCAGAGCAACTACATCATCTCCATAGCGCTGCTCATCGGAACACCGTTCTTTATCATTTTCGGAGCACTTTCCGACAAGATCGGGCGCAAGTACATCATGATGACCGGCATGCTGATTGCCGTGGTAGCGTACAGACCTATCTATACCGTCATG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 VKKGETVASISRQYGVSSESIAELNNLSGRKQIRPGQVLKITGKASSAKSEARISSAKKESGSSRSHKYHKVKKGETLSSIADKYALSVSELSKKNNLGKKKLIRPGQKLN 
 >PredictedProphage1 -Hit 2 
 LFEENLERYNVPLEMKYLAIVESALNPTAVSSAGARGLWQFMYGTGKMYGLETSSFIEDRYDPYKATAAASKHLRDLYNIYGDWFLALAAYNSGPGNVNKAIRRAGGIKNYWA 
 >PredictedProphage1 -Hit 3 
 LTLLDYSFIVGYLLLTLFIGLLFSKKASENVGEFFLSGRKLPWWIAGTGMVATTFAADTPLAVTGLVAKNGIAGNWVWWTFVSGGMLTVFFFARLWRRSNILTDLEFIEIRYSGTAAKFLRGFKALYFGLFINSIIIGWVNLAMYKIIRIMVPELNPEITIIALVVLTTVYSGLSGLWGVSITDAVQFIIAMTGCIILAVLALQAPEVGGISGLQHALPAWMFDFYPSLSGSRETPVQDSGAFSLPFASFAAMAFVQWWASWYPGSEPGGGGYIAQRMMSAKDEKHSLLATLWFTVAHYCLRPWPWIIVALASLVMFPDLPLDQKEDGFVYVMKTVLPSGLKGLLVAAFLAAYMSTLSTHLNWGTSYLINDFYQRFLKPEAEAAHLVKASKIVTGLIAIFSLFITFYVLKTITGAWEFIIQCGAGTGFVLIFRWFWWRLNAWSEITSMLAPFLAYAWISF 
 >PredictedProphage1 -Hit 4 
 GHGSTFSKKVWFKNRPYCMSYRGLDCSETLSATRFWRYGDLGTNKIEEAVALFSSNQQPLRFFFR_EWSAKVSDSDVGKAVDVIKTAHATV_KNANFQDCCWQAEKRNFFNFSVGVHDV 
 >PredictedProphage1 -Hit 5 
 RRVITASSVGTLIEWYDFYIFGSLAKIISEQFFPKDNPTAALLATLATFAAGFVVRPFGALFFGRLGDLIGRKYTFLVTLIIMGGSTFAIGLVPGYKTIGFVAPAIVFVLRLLQGLALGGEYGGAATYVAEHSPSDKRGFWTSFIQTTATIGLFVSLGVILIVRQTLGVETFTDWGWRIPFLLSIFLVAISVYIRMKMSESPAFAKLKKEGKTSTNPLAESFKKKDNLKMVLLALLGATAGQGVVWYTGQFYALSFLQNACNVEFVQSNYIISIALLIGTPFFIIFGALSDKIGRKYIMMTGMLIAVVAYRPIYTVM 
 



Prophage Finder Output

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

Genome size:  37874
Host's GC content:  48.15
Predicted Codon Position GC:  	1st:  56.51	 2nd:  39.70	 3rd:  49.18

 

Prophage Finder Output

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

Genome size:  40641
Host's GC content:  49.43
Predicted Codon Position GC:  	1st:  57.30	 2nd:  40.05	 3rd:  51.34

 

Prophage Finder Output

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

Genome size:  37073
Host's GC content:  51.15
Predicted Codon Position GC:  	1st:  58.35	 2nd:  40.51	 3rd:  54.24

 

Prophage Finder Output

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

Genome size:  13776
Host's GC content:  44.63
Predicted Codon Position GC:  	1st:  54.35	 2nd:  38.75	 3rd:  43.21

 

Prophage Finder Output

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

Genome size:  46554
Host's GC content:  49.29
Predicted Codon Position GC:  	1st:  57.22	 2nd:  40.01	 3rd:  51.10

 

Prophage Finder Output

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

Genome size:  40028
Host's GC content:  49.40
Predicted Codon Position GC:  	1st:  57.28	 2nd:  40.04	 3rd:  51.28

 

Prophage Finder Output

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

Genome size:  46981
Host's GC content:  48.20
Predicted Codon Position GC:  	1st:  56.54	 2nd:  39.71	 3rd:  49.26

 

Prophage Finder Output

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

Genome size:  46317
Host's GC content:  48.22
Predicted Codon Position GC:  	1st:  56.56	 2nd:  39.72	 3rd:  49.30

 

Prophage Finder Output

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

Genome size:  38606
Host's GC content:  48.42
Predicted Codon Position GC:  	1st:  56.68	 2nd:  39.77	 3rd:  49.63

 

Prophage Finder Output

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

Genome size:  38995
Host's GC content:  43.06
Predicted Codon Position GC:  	1st:  53.38	 2nd:  38.33	 3rd:  40.55

 

Prophage Finder Output

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

Genome size:  49823
Host's GC content:  49.29
Predicted Codon Position GC:  	1st:  57.21	 2nd:  40.01	 3rd:  51.10

 

Prophage Finder Output

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

Genome size:  55222
Host's GC content:  49.93
Predicted Codon Position GC:  	1st:  57.61	 2nd:  40.18	 3rd:  52.19

 >PredictedProphage1 
 Length:   13133 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 51.56 	 53.36 	 58.23 	 47.98 	 53.87 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	8	0.114285714285714
 Leu	TTA	3	0.0428571428571429
 Leu	CTG	21	0.3
 Leu	CTA	1	0.0142857142857143
 Leu	CTT	19	0.271428571428571
 Leu	CTC	18	0.257142857142857
 Lys	AAG	5	0.555555555555556
 Lys	AAA	4	0.444444444444444
 Glu	GAG	18	0.375
 Glu	GAA	30	0.625
 Gln	CAG	11	0.6875
 Gln	CAA	5	0.3125
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	3	0.428571428571429
 His	CAC	4	0.571428571428571
 Asn	AAT	28	0.474576271186441
 Asn	AAC	31	0.525423728813559
 Ser	AGT	17	0.204819277108434
 Ser	AGC	25	0.301204819277108
 Ser	TCG	14	0.168674698795181
 Ser	TCA	12	0.144578313253012
 Ser	TCT	7	0.0843373493975904
 Ser	TCC	8	0.0963855421686747
 Trp	TGG	11	1
 Arg	AGG	0	0
 Arg	AGA	1	0.0526315789473684
 Arg	CGG	3	0.157894736842105
 Arg	CGA	5	0.263157894736842
 Arg	CGT	6	0.315789473684211
 Arg	CGC	4	0.210526315789474
 Ala	GCG	20	0.224719101123595
 Ala	GCA	32	0.359550561797753
 Ala	GCT	18	0.202247191011236
 Ala	GCC	19	0.213483146067416
 Cys	TGT	4	0.8
 Cys	TGC	1	0.2
 Asp	GAT	50	0.561797752808989
 Asp	GAC	39	0.438202247191011
 Gly	GGG	15	0.103448275862069
 Gly	GGA	27	0.186206896551724
 Gly	GGT	40	0.275862068965517
 Gly	GGC	63	0.43448275862069
 Phe	TTT	18	0.620689655172414
 Phe	TTC	11	0.379310344827586
 Tyr	TAT	9	0.428571428571429
 Tyr	TAC	12	0.571428571428571
 Met	ATG	13	1
 Val	GTG	22	0.4
 Val	GTA	6	0.109090909090909
 Val	GTT	16	0.290909090909091
 Val	GTC	11	0.2
 Thr	ACG	37	0.4625
 Thr	ACA	16	0.2
 Thr	ACT	10	0.125
 Thr	ACC	17	0.2125
 Pro	CCG	0	0
 Pro	CCA	1	0.125
 Pro	CCT	3	0.375
 Pro	CCC	4	0.5
 Ile	ATA	15	0.245901639344262
 Ile	ATT	17	0.278688524590164
 Ile	ATC	29	0.475409836065574
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 17648	17941	-1	ref|NP_835519.1|probable ss-1,3-N-acetylglucosaminyltransferase	50.4bits(119)	2e-05
 20131	20820	-1	ref|YP_195210.1|virion structural protein	45.1bits(105)	7e-04
 25189	25632	-1	ref|YP_003754.1|hypothetical protein	37.0bits(84)	0.20
 26380	27069	-1	ref|YP_195210.1|virion structural protein	44.7bits(104)	0.001
 30148	30780	-1	ref|NP_064745.1|gp7 	36.6bits(83)	0.26
 
 DNA sequence:
 TTCGATCTTCAGGGGATGCGACCAGTCGTCAGAATCATGACATGTCACAAAATCTCCGGACGCAAAGCGCAACCCGATATTTTTAGCTATAAAAGTGCCGACATTGCAAGGCAGCCGGATAGACCGAATACGATTATCTATCGCACACCAGGAACGCACGATATCCGCAGTCGTATCGGAGCTTGCATCGTCAATAACGATCAGTTCGATGTTTCGCCAGGTCTGCTGCATAATCGATCGTATTGCTGTATCGATGTACTGACCGCTCTGATAAGCCGTCATCAGCACGCTTACAAGCGGCCCATCTATGCCGGGAAGCTCAACTGCAGGCTGAAGGTTCATAGGGGAGGGTGATTCAAGCGAATCACAAAGTCTCACCGGAGGCAACGACGCCGCTTCGAGATAAGCGTTCAAACGAACAAGTTTTTTTCCGGGGTCGCCTTGCTCTGCATTACTTAAAAACAGATACAGCTCGGGATTTTGCCTGGCCTCCCCCCTTTCAATCGCTTTCTCAAGCATATACCTGCTTTCGTCCATACGTCCGTTCCCCATCAGCAACGCAGCCATCAACCCGGCAGGCGCATCGAGGCCTTCGATCAGCTCAAGCGAGAGAGCCGGTTGAAAAGGCGCAAGAGCATCGGCATGCATGATACGAATTCTGCCATACCCGCGTTTTTTATGCAAACTGCGGGCAAGAGAGGCTGACTCCCGACAAAAACCGCATGCCGCCAACGAAATCGAAGAGGCAAACATGCCTTTCCATCGATTGTCGGCACGTCTGCTTTCCGCGACAGTAGCATATAAACCAAGTCGATAGCAAGCCCAAAGCTCTTCGGAATACCGAACAGCTTTACCGTTATTCAAACAGGCAAGAGCCTCTGCAAATCTGTTTTTTCGATAATAACGGTAAAAGGAGAGCGGAAAAATCATAAAAAGCGCATATCAGAATTAAGCTTCGTAACGGTTACCAGGGAATAGCGGGTTCATGCCTGTAATTAAATGGGCAAATCAGAACAATGTCATGAGCGGTCCGAGGGCGAGGCGGTTGGTACGTCGAAACCGGAAGGTATAGCATCCGACGGAAGCAACCGGCGCATTACATGTAACAATTTCTGTGAACTGCTTGCCATATCATGCAGCGATTTTCCTGCCGCACCTGCCCGTTCGATGTACCCGTTATAGGTGGATTCGCTGTCATAGAGCTCTATAATGGACCCGACAACATGATCGAGCAGTGCCTGATCGAGCAACTGCATATAGGGTTTCTGATAAAAACGTTCAGGAAGCGCTATTGTTACGCCTCCTCCCCCGATCATTTCGACGTTTCCACCCCGGTCTGTCACAATTGCCGGAACTGCATTCAGCATGGCTTCCGCCAATACTCTCGATCCGCTTTCCCACCAGAGACTCGGAGCCAGAACGATCCGCGCTCTCGCATAAACCGGACGCATATCGGTCGCATGCCGTGTCAACAGTACATTTTCGAGAGCATCCCGCGGCGTTCCCATAAGAGCGCTTATGCTCCGGACCAGTTCAGACCAGTTCCCCCTCGACGAAACCACTTCGAACCGGATATCAGGACGTTGCTTTTCAAGTCGCATGGCTATCTGTACAACCAGTGCCGCACCTTTTTCAAGCGAAGGATTGACAAAAAGCGTATTACGACGCACGTGCTCTTGAGCCACTACCGCATCCGGATCGATAAATTTTCCTACAGGTAACGGCGATATGCCGTTCCTTGCCCGGTAGTACCCGGCGGTTGCCTGACTGTCGCACACGATAAGATCGACGTCCCTGCACCAGCGCGTTTTCGTGTAGTTGCCATTGGCGAGATATGCGGCAACCGGAATACCCCGATGTTTCGCTTCATCGGCGATAAGGTAATCGAAAGGTCGTCCGCCATAGAACCAGACAATATCCGGACTGAAGGAATCGAGCGTATGAAGATACAACTCATACCATTTCGCCTCCTCGAAAACCATCATGCGATCGCGGATATGACTGTTGGTCATCAACAGCTTATGCACGAGAGGAGGATCGGACAGTACCAGTATATCGACCGTTTCGAGCCGCTTCTTCCAGTTTGCCGGTAAAACGGACATCCCTGTTTCCGAGTCGAAAATCGTAGCACCGATAATTGCCACCTCAAAACCCATCCGTGCCAATTGGCGAAGCATCTCCCTTACCGAAATGGACGCTCCGCTTGAGGTATCAAGAAGGCAGTAGCAATTGGCCCACAGAAGTCTCGGTTTTCTCACTGACCTCACTGGCGGATGAACCGTTTACGGAGATTATCGGGGTCGCAGAATTAGATGCCAAACCAGGACAGAACGTTTGCCTGGATGAAAAAACATAATCGCTTTTCAAACGGATAGCTCCCTGTCACAACCGGCATGAAGATCTCATGCCGTTTTTTTTCAGAATGGACTGCCCGATCAGAGCACGATATCGGATGAACTCATGCTGCCGATGCCTGTGAACTTGATCGCAAATTCCGCATCTGCGTCTCCGTCCGTATTGCCGTACAGAACCCCTGAGCCACTGTCAAAGCGCAACTGGCCCGCTTCCGAAAATGCATCTCCACTGCCAAGTATATCGCTGCTGAATGACTGGTTTCCGGCTATGCCCGTATTCGCATCGATACCGCTCAGATCGAGACGGTCAAAACCTGCGGTAAAGTCGGTTATCACGTCCCAGGCTCCTTCCGTGATGCCGCTCTCGCTGCTGTTGTTGTAGAGGAAGACGTCACGACCTGTACCGCCTGTCAACTCGTCTGCCCCCATGCCGCCATAGAGCGTATCGGCACCTGCACCGCCAAGCAGGATGTCTTCCCCTTCTTCGCCAGCCAGATAATTCTTTCCGCTGTTGCCCGTTATCACGTTGTCAAGGTCATTGCCCGTGCCTCGCGTGTTGGCCGTGCCGGTCAGCTCAAGGTGCTCCACATTGGCTCCAAGCGTCCAACCGGTGCTCGATTGCACAAGGTCGATGCCTTCATCGGCATTCTCCGTCACCACATCGAGACTGTAGTTCACAACGTAGGTGTCATCACCGATACCGCCGACCATGCTGTCCGCTCCACTGCCGCCATCCAGCGTGTCGTTGCCCGCCCCGCCGATGAGAGTATTTTTACCACTGTTGCCCGTAATCCGGTTATCGAGGTCGTTGCCCGTGCCGCGCGTGTTGGCCGTGCCGGTCAGCTCAAGGTTCTCCACATTGGCTCCAAGCGTCCAACCGGTGCTCGATTGCACAAGGTCGATGCCTTCATCGGCATTCTCCGTCACCACATCGAGACTGTAGTTCACCACATACACATCATCTCCCTCTCCTCCTGCCATGCTGTCCGCTCCACTGCCGCCATCCAGCGTGTCGTTGCCAGCCCCGCCGACGAGAGTATTTTTACCACTGTTGCCCGTAATCCGGTTATCGAGTTCGTTACCCGTGCCTCGCGTGTTGGCCGTGCCGGTCAGCTCAAGGTGCTCCACATTGGCTCCAAGCGTCCAGCCTGTGCTCGACTGTACAAGGTCGATGCCTTCATCGGCATTCTCCGTCACCACATCGAGACTGTAGTTCACAACATAGGTGTCGTCGCCGATGCCGCCGACCATGCTGTCCGCTCCACTGCCGCCATCCAGCGCGTCATTGCCCGCCCCACCAAGTAGCGTATCTTTCCCGGCATCACCGGCCAGCATATTCGAACCGATATTTCCCGTTATCCGGTTATCGAGTTCGTTACCCGTGCCGCGCGTGTTGGCCGTGCCGCTCAGCTCAAGGTGCTCCACATGATCCCCCAACGTCCAGCTTGTGCTTGACTTTACAAGATCGGTACCTTCACCCGCATACTCCGTCACCACATCAAGGATGTCGTCTACAACATAGGTGTCATCACCGATGCCGCCGGCCATGCTGTCCGCTCCGGTACCTCCATCCAGCGTGTCATTGCCCGCCCCACCAAGTAGCGTATCTTTCCCGGCATCACCGGCCAGCATATTCGAACCGATATTTCCCGTTATCCGGTTATCGAGTTCGTTACCCGTGCCTCGCGTGTTGGCCGTGCCGGTCAGCTCAAGGTGCTCCACATGATCCCCCAACGTCCAGCTTGTGCTTGACTTTACAAGATCGGTACCTTCATCGGCATTTTCTGTCACCACGTCGAGGCTGTAGTTCACCACGTAGGTGTCATCGCCGATACCGCCAGCCATGCTGTCCGCTCCACTGCCGCCATCCAATATGTCGTTGCCGGCTCCACCAAGTAGCGCATCATCACCCGCTCCTGTACGAACATCGTCATTGGTACTGAACGCTGTGTTATCAATCACGTCTGCTCCGCTGCCCGTTTGCAGCAGCAGACGCTCTACGTTGCTCACGGTGACCCCTTCATAGATATATGCCTCGCCGGTGTTGATCCAGTTCACCGCAACACTCTTGCCGCTCCAGTCCGCATAAAAGGTGTCTGTACCCCCTTGACCATCGTAGCTGCCGACCATCTGGAAGATCAGCAGGTTGTCGGTTTGCGATCCTTTGAGGTTCAGAATCTCGAAGTTGCTGACACTCACATCCGTGTTTTGACCGTCAAACACCGTCTTAACCGCTGTGGACAGCGCTGTCTGAATATCGTTCAGGCTCGAACCGCTGGCCAGCGTTGTTCTCGTATCCTCCGCATCATAGATACCATAGTCAAAACCTCCATCGTAGTACGACCAATAGTCATACGAGTACCATTCCGATGTATAATCCAGATTCAGCGTATCGGTTCCACTCCCGCCGTCGAGCACATCCGATTGGGTATATTGATACACCGCAACCATGTTCACCGTGTCGTCGCCTGATCCCGCATCAACAGTGTCGTTGCCTCCGCCTGGATTGAGCACGTCGTTACCTGCACCGCCGTCAATGTAGTCATTGCCCCAACCAACACTGATCGTATCGTTACCCGCTCCTGTACGAACATCGTCATTGGTACTGAACGCTGTGTTATCAATCACGTCTGCTCCGCTGCCCGTTTGCAGCAGCAGACGCTCTACGTTGCTCACGGTGACCCCTTCATAGATATATGCCTCGCCGGTGTTGATCCAGTTCACCGCAACACTCTTGCCGCTCCAGTCCGCATAAAAGGTGTCTGTACCCCCTTGACCATCGTAGCTGCCGACCATCTGGAAGATCAGCAGGTTGTCGGTTTGCGATCCTTTGAGGTTCAGAATCTCGAAGTTGCTGACACTCACATCCGTGTTTTGACCGTCAAACACCGTCTTAACCGCTGTGGACAGCGCTGTCTGAATATCGTTCAGGCTCGAACCGCTGGCCAGCGTTGTTCTCGTATCCTCCGCATCATAGATACCATAGTCAAAACCTCCATCATAGTACGACCAATAGTCATACGAGTACCATTCCGATGTATAATCCAGATTCAGCGTATCGGTTCCACTCCCGCCGTCGAGCACATCCGATTGGGTATATTGATACACCGCAACCATGTTCACCGTGTCGTCGCCTGATCCCGCATCAACAGTGTCGTTGCCTCCGCCTGGATTGAGCACGTCGTTACCTGCACCGCCGTCAATGTAGTCATTGCCCCAACCAACACTGATCGTATCGTTACCCGCTCCTGTACGAACATCGTCATTGGTACTGAACGCTGTGTTATCAATCACGTCTGCTCCGCTGCCCGTTTGCAGCAGCAGACGCTCTACGTTGCTCACGGTGACCCCTTCATAGATATATGCCTCGCCGGTGTTGATCCAGTTCACCGCAACACTCTTGCCGCTCCAGTCCGCATAAAAGGTGTCTGTACCCCCTTGACCATCGTAGCTGCCGACCATCTGGAAGATCAGCAGGTTGTCGGTTTGCGATCCTTTGAGGTTCAGAATCTCGAAGTTGCTGACACTCACATCCGTGTTTTGACCGTCAAACACCGTCTTAACCGCTGTGGACAGCGCTGTCTGAATATCGTTCAGGCTCGAACCGCTGGCCAGCGTTGTTCTCGTATCCTCCGCATCATAGATACCATAGTCAAAACCTCCATCGTAGTACGACCAATAGTCATACGAGTACCATTCCGATGTATAATCCAGATTCAGCGTATCGGTTCCACTCCCGCCGTCGAGCACATCCGATTGGGTATATTGATACACCGCAACCATGTTCACCGTGTCGTCGCCTGATCCCGCATCAACAGTGTCGTTGCCTCCGCCTGGATTGATCTCATCGTCGCCACCACGTCCTTCCATGGTATCGTTTCCGCCATAGCCATTCATTATATCGTCTTCGGCGTAGAGACCAACAATAACGTCATCGCTGTAGTCCAGACCTTCTCTGAACAACGGTATGTTCAGACTTTCCAACGAAATGTTCTGGAAACTCCAGTAATAGTCATCTGACGGCTGGATTACTCCTATTTGTCCAATTCGATAGGTTTCCTCAGATGAATACCAGCCAACAATCTCTACTCTGCTGGATTCATCATAATTGGTGATAAGCACAACAAGATTATCCTCATTGACATACGTGGATATCTGGCCTATCTGATTGAAGTATAGATTATCAATATGCTCGCCCGAAGGTCCGCTGATTTTTATATCGACTCCCGAATCATGTACGATATACGTATCGTGCCCGTCGCCGCCAATAATCAAAGCTGATTGAGGAGTTGTTGAGTTTGTTATAAGAATATCGTTACCGGCAAAAGCATTAAGTCTGTCATTAAGAGGCTGGGCATTGAACTTGGCCTGTGTAAGAACTATACGGTCATTACCTTCACTTGGATTAGTCGAGAGTGAATCAATGAGTTCGCCATAATCGAGGCTGCCGGAAGAAATCAACGGGCTGCCAGTTAAAGCACGAAGCATGGATTCGTTATAGGCGTCCATTGAATGCAGAAAAGCGATCGGATTCAGTCCCCAATAGCGATCTTTTATATCTTCAGATAAATCAATCGCGACGAACTGACCAATCTCACCTCCCAATGCAGCAACGGGATCTCCATCAAGCCCTGTACTTTTATGTTCAAACTGGTACAAGTGTGTCTTGAACCAACTCTCATCGTACACATTGTCATTTAAAATCCCAAATCCATAAATTGCACTATATTTTGATGGGTCGATTCTCACATCGGGTGCACCAAATGTTGCACCGCTGATATGTGACCTGACATAGCTCAACTCCTCGGATGTCAATCCGGCATCGGTGATACGATCATTTGTATTCAGGGGTACCGTTGAAAGAGTCCAGATTGACTGGTTCTGGTTTCCCATTATATCGAGCAAAGCAATTTGCGCTGCAGCGCCGCCCAGACTGTGACCCGTTATATAGATAGCATCATATTTTTCTGCCACAGCTTCTTTAAGCCAGGCAACAACTTCAGCCCGAACAGATCTGTAATACAACGAAAAACCATATCCCACAATATCTGTTGTAACAAAATCTATTAAATCGCTTCCCTGAAATGCTATTGTCATCTCTTTTCTGCCATCCTCGTTGCGGACTGCACAGATGGCATGAGCATCAATGTATATCGCACCTACATCGAAAGCATGATAACGAGCCTCGCCATGAAGACTCCAGCCAATCCACTGTAATTGATTATTTAGTTCTCCACCTGTTTCATACGAAAGGCGACTTAACTTTGCCAGTTGAGCGAAAGTGGCTAAATCGTAGTTTTCATCGTCGGAGAATGTGGACAGCGTCCCGGAGATTGCGGGTTCGCTTGACCATGCTGGAGCAGTCTCGATTACCCCTGTCTGTCGTTCGAGTTTCCAGTCGCCTCCCGATGAAGCTGATCCCGTCACATCATCCGATGCTGCGACATCCGCTCCCGTCATGTGCGAAAGTGACTCTATGAACTGCTTGCCTTCTGCTCCGGCTGCGACGTTACAACCAAAAAGCAGAAGATCACCGTTTTCGCTCAAAGAGTTGCCGATGGCATTGAGTTGCTCGGCATAAGCCGTCAATGAGCTGTTATCGAGTACTGTACTGCCAATTGTAATAGAACCCGGAGAACCGTGAGAGAACATCTGTATGGAGTCGTAGCCTGATTTGCTGAACAGCGATTCAGCAATCTGTTGCAAACCGTCCCGGTCAGCTTCGAGAATGACATATTCCGTATTTTCACTCAAGCAACTTATCAGAACTTCTTTATCTGGTATACGACTATCAATGAAAACAATACTTTTCGCCATAACGGGTACACATTCAATTATCAAGAAAACTTATCGGTTTTGTCAGGCCTGTCGGATGAGTGTTGAAAACCGAAAAGCTACATCAAAAGGCATATCAAATAGCTGTTAAAGTGACATTTTACGGACTTCTCGTGATCGCCAACATTACCCGGCATGATCAGCCGTTCCGTATCGGGTATTTCCGGATACTATGAAAAGCCTCCTAAACATACATTCCAAAAGGTCTACATCTTTCTGGTATTGCAGAGATTGTCTGCGATGATTGGATAGAACAATCTGATCTTCTTTCCTCTCTGATAAACGAAAAAGTCATCTACAGTTTATGCCCGGAAAGTTCCAGTATATCTCCTGTTTCGGGCCTCTTTTTCCTGTTTTACGATAATCCGGACGCTCCGGTTATCAAGTCGAAAATCGTTGCGCCAAAGCAAATAAATCTCGTTTTCAAACGGATAGCTCCCTGTCACAACCGGCATGAAGATCTCATGCCGGTTTTTTTCAGAATGGACTGCCCGATCAGAGCACGATATCGGATGAACTCATGCTGCCGATGCCTGTGAACTTGATCGCAAATTCCGCATCTGCGTCTCCGTCCGTATTGCCGTACAGAACCCCTGAGCCACTGTCAAAGCGCAACTGGCCCGCTTCCGAAAATGCATCTCCACTGCCAAGTATATCGCTGCTGAATGACTGGTTTCCGGCTATGCCCGTATTCGCATCGATACCGCTCAGATCGAGACGGTCAAAACCTGCGGTAAAGTCGGTTATCACGTCCCAGGCTCCTTCCGTGATGCCGCTCTCGCTGCTGTTGTTGTAGAGGAAGACGTCACGACCTGTACCGCCTGTCAACTCGTCTGCCCCCATGCCGCCATAGAGCGTATCGGCACCTGCACCGCCAAGCAGGATGTCTTCCCCTTCTTCGCCAGCCAGATAATTCTTTCCGCTGTTGCCCGTTATCACGTTGTCAAGGTCATTGCCCGTGCCTCGCGTGTTAGCCGTGCCGGTCAGCTCAAGGTGCTCCACATTGGCTCCAAGCGTCCAACCGGTGCTCGATTGCACAAGGTCGATGCCTTCATCGGCATTCTCCGTCACCACATCGAGACTGTAGTTCACAACGTAGGTGTCATCACCGATACCGCCGACCATGCTGTCCGCTCCACTGCCGCCATCCAGCGTGTCGTTGCCCGCCCCGCCGATGAGAGTATTTTTACCACTGTTGCCGGTTATACAGTTATCGAGGTCATTGCCCGTACCTCTCGCATTCGCCGTGCCGGTCAGTTCCAAGTGCTCCACATTTGCCCCCAGCGTCCAACCGGTGCTCGATTGCACAAGGTCGATGCCTTCATCGGCATTCTCCGTCACCACGTCAAGGCTGTAGTTCACAACATAGGTGTCGTCACCGATGCCGCCGGCCATGCTGTCCGCTCCGGTACCACCATCAAGCGTATCGTTGCCATCTCCTCCCGTCAGAGTGTTCCTGCCGCTGTTGCCGGTTATACGGTTATCGAGGTCATTGCCCGTACCTCTCGCATTCGCCGTGCCGGTCAGTTCCAGGTGCTCCACATTTGCCCCCAGCGTCCAACCGGTGCTCGATTGCACAAGGTCGATACCTTCATCGGCATGTTCCGTCACCACGTCAAGGCTGTAGTTCACAACATAGGTGTCGTCGCCGATTCCGCCGGCCATGCTGTCCGCTCCGGTACCGCCATCCAGCGTGTCGTTGCCGTCTCCTCCCGTCAGGGTGTTCCTGCCGCTGTTGCCGGTTATGCGGTTATCAAGTTCGTTGCCCGTGCCTCTCGTGTTTGCCGTGCCAGTCAGTTCAAGATTCTCGACATTGGCGCCCAGCGTCCAACCGGTGCTTGACTGCACAAGGTCGATGCCTTCATCGGCATGTTCCGTCACCACGTCAAGGCTGTAGTTCACAACATAGGTGTCGTCACCGATGCCGCCCGTCATTTCGTCAGCTCCCGTTCCTCCATCCAGCGTATCGTTGCCCGCTCCGCCTATAAGCGTATCATTGCCTCCAAATCCGAGCAGCAGATCATCACCTTCAAAACCGTTCAATGAATCATTTCCATCTGTACCATTAAGCGTATCGTTAAACGTGCCGTCTGCGTTGTAGCGAATCAGAAGAAAATCCTGCTCTCCATCGCCGCTGTTTTCAGCGCTGCCTGCTACAAGAATCATCCCGTCAGCTTGCACGACAACACCGTTTCCGGACGATTCCGCCCCAACCTTCGTCGTAACAAAGCCATCATCCGAAAATGTCATATCCGGACTGCCATCCGCATTATAGCGCACAACAATAACATCACCATCTCCGCTGCCACCAGAAGGGGCACTGTATCCGGTTACAACAATTTTTCCATCCGTCTGCAGCGTAACATTCTCGGGGTATTCGGCGCCTCCGAAATCAGCTATGCTGAAGCCATCGCCATCAAACGTCGTATCCAGACTGCCATCCGCATTATAGCGCACCAGCATAATATCTTCGCCGCCGCTTTCCCCACCTTCCGAATAATGCCGTCCGGCAACAACGATCCTGTCGTCAGACTGAACGATGGCACTACTGGCAAAATCGCCGTAACCGATATCGGTAATAACCTTGCCGTCAACGCCGAAACTCGTATCGATACTTCCATCGATATTATATCTGACCATTACGATATCGCTCCCCCCGCTGGCATCAGTAACCATATCGCCTATCACGACTATCTTTCCATCAGACTGCAATACCACGCTATTGGCGATCGCTTTTTCTCCTGAATCTGTGATCACCATGCCATCTGTATCGAATGATGTATCAAGCGTGCCGTCCGCATTATAGCGCACTACAGCAAAATCTCCTCCTCCGCTTCCATCCAAGCCAGTATATCCGGCAACCAGAATCTTATCGTTCGACTGCACCGCAACGCTCCTTGCTGCCTCATACGCACCAAAATCCGTTGTTACCCTGCCATCGCTATCGAACGTCGTATCCAGACTGCCGTCCGCATTGTAGCGCACCACGGCGAAATCTCCTCCTCCACTGACAAGTACCTTGCCTGCCACCACGATCTTTCCGTCCGACTGCAAGGCAACGCTGTCGGCGCTTTCCATACCGCCAAAATCCGTAGTTACCCTGCCATCGCCATCGAACGTCGTATCCAGACTGCCGTCCGCATTGTAGCGCACCACGCCAAACCCACCATCGCCGCCACCGCTTGTTTCTCCGGCAACAACGATCTTGCCGTCACTCTGTAAAACGATACTGCTCCCGGAATCCGATCCGCCTAAATCGGTGCTGATAATACCGCCACCCGAAAGAAATGTTGATGATTCATCGGCTTTTTCTGTAACATCGAGACCAGTCTGAACATATACATCCACGGTAGCACTCGCACTGTTGATATAACGATTGTAATCAATACTATCGATCGTAACGGATTCAGAACAAGACCATTCGCCGCTCGTATTCGAAAATTCAACCTCATCGCCAGCGTCACCAAGAACAAACAGATCATGATCGGCATCCGTCACAGCTATGACATTGCTGCAACGGACATTTGTCATGGACGTAGCTTGCCCATCGGTCATATCGATCACTTCGAAATTCCTGTAGATTGCTGAGCCAACACTCGCATCAATAGTAGTGTAGCCGGTAAACACCAGCTTATCAGTACCCTCACCGCCATCCAGCAAAGGAACGCCGGACAAATCAGAGCCATTCTGAAGCGTCATGATGTCGTCTCCGCCACCAAGAATAACCTTGCCGACAAGTATGCCTGTATCGGTAACGGTTATCTGATCGGATACGTCAGGGAAGCTGAACGAAGTGCCGCCGTCATAATGCCATGAAAGAATGGCTATCGCGTTACCGTTCTGTTCGGTTGTTGTTCCGGATACCGTGCCGCTGATTTCAAGATTCATGGCTCCACCAGCCGAAATAGCTGCTGCCGTAGCGAAACCTTCCGCACTTACCGTTCCGGAAATCTCAAGCGCATCGCCGTCACTGCCGCCAGTGATCGATCCATTGGAGCGCAAGCCGACAGCATTATTACTCACAGAAGATGCCGAAACCTCCCCCGACAAACTGCCGAGTGCAATATGATTGCCCCCTCTGAGGCCATAAGCCACTCCTTCTGCACTCACGCTTACCGTTCCCGACAGATCGCCGCCTATCGTCACGTCGCCGGACTGGGCATCGATACCATACGCTTCATTATCCGATGCATTGACGGTAATATTTCCTGACAGATCTCCGACAATCTCTATCGATTGCCCCTTCATACCATCAGCCAGTTCGCCGCCGTTAACGGAAATCGAACCTGACATCGCACCAAGCGTCATCGACCCCATGCCCGCTATTCCTCCAGCCTCGTAAGCTGTTGTTGTAACCGTGCCGGCCATATCACCGACAATCACCAGATTATTCATTGCACCGATAGCAACGCCATCATCGGGCGATTCGGAATTGGTAACGGTAACCGTAATCGCTGCAGAATCGGTCACGTCACCTTCGATCGTCAGAGTCTCTGCCGCAATAATACCGAATGCAAACCCGTTTGCTGAAGTAACGGTCACATCCCCTGAGAAATTGCCTCCGATTGTGAGATCGCCGAAACCTGCGGGAGAAACAGGAGGTACTTCATCAATGTGTTCCACGTAATCAATACCTGCACCAATACCGACAGCCGTATTTTCGGCATTAACAGTAAGATTACCGGAATAGCTTGCGAGATCGACATCACCCATGCCACTGCCAAACCCCAAAGCTTCACTTTCGAGCGAAGTAACACTGACGGCACCTGCCATAGCGCCCTCGATATCAACACTTCCGTTATATGCTCCGAAACCTACAGCAAAATCTCTTCCCGTTACATCGATAAAAGCTGCATCGGTAATCTCGCCTATCGAAAGGTTGTTCTCTGCCGCCATACCAACAGCAATTCCGTCCGAAGATGTTGCCGTAATGGCACCTGAAAC 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 GTAAGCGTGCTGATGACGGCTTATCAGAGCGGTCAGTACATCGATACAGCAATACGATCGATTATGCAGCAGACCTGGCGAAACATCGAACTGATCGTTATTGACGATGCAAGCTCCGATACGACTGCGGATATCGTGCGTTCCTGGTGTGCGATAGATAATCGTATTCGGTCTATCCGGCTGCCTTGCAATGTCGGCACTTTTATAGCTAAAAATATCGGGTTGCGCTTTGCGTCCGGAGATTTTGTGACATGTCATGATTCTGACGACTGGTCGCATCCCCTGAAGATCGAA 
 >PredictedProphage1 -Hit 2 
 GGCACGGGCAACGACCTCGATAACCGGATTACGGGCAACAGTGGTAAAAATACTCTCATCGGCGGGGCGGGCAACGACACGCTGGATGGCGGCAGTGGAGCGGACAGCATGGTCGGCGGTATCGGTGATGACACCTACGTTGTGAACTACAGTCTCGATGTGGTGACGGAGAATGCCGATGAAGGCATCGACCTTGTGCAATCGAGCACCGGTTGGACGCTTGGAGCCAATGTGGAGCACCTTGAGCTGACCGGCACGGCCAACACGCGAGGCACGGGCAATGACCTTGACAACGTGATAACGGGCAACAGCGGAAAGAATTATCTGGCTGGCGAAGAAGGGGAAGACATCCTGCTTGGCGGTGCAGGTGCCGATACGCTCTATGGCGGCATGGGGGCAGACGAGTTGACAGGCGGTACAGGTCGTGACGTCTTCCTCTACAACAACAGCAGCGAGAGCGGCATCACGGAAGGAGCCTGGGACGTGATAACCGACTTTACCGCAGGTTTTGACCGTCTCGATCTGAGCGGTATCGATGCGAATACGGGCATAGCCGGAAACCAGTCATTCAGCAGCGATATACTTGGCAGTGGAGATGCATTTTCGGAAGCGGGCCAGTTGCGCTTTGACAGTGGCTCAGGGGTTCTGTACGGCAATACGGACGGAGACGCAGATGCGGAATTTGCGATC 
 >PredictedProphage1 -Hit 3 
 GGTTCTATTACAATTGGCAGTACAGTACTCGATAACAGCTCATTGACGGCTTATGCCGAGCAACTCAATGCCATCGGCAACTCTTTGAGCGAAAACGGTGATCTTCTGCTTTTTGGTTGTAACGTCGCAGCCGGAGCAGAAGGCAAGCAGTTCATAGAGTCACTTTCGCACATGACGGGAGCGGATGTCGCAGCATCGGATGATGTGACGGGATCAGCTTCATCGGGAGGCGACTGGAAACTCGAACGACAGACAGGGGTAATCGAGACTGCTCCAGCATGGTCAAGCGAACCCGCAATCTCCGGGACGCTGTCCACATTCTCCGACGATGAAAACTACGATTTAGCCACTTTCGCTCAACTGGCAAAGTTAAGTCGCCTTTCGTATGAAACAGGTGGAGAACTAAATAATCAATTACAGTGGATTGGCTGGAGTCTTCATGGC 
 >PredictedProphage1 -Hit 4 
 GGTACGGGCAATGACCTCGATAACTGTATAACCGGCAACAGTGGTAAAAATACTCTCATCGGCGGGGCGGGCAACGACACGCTGGATGGCGGCAGTGGAGCGGACAGCATGGTCGGCGGTATCGGTGATGACACCTACGTTGTGAACTACAGTCTCGATGTGGTGACGGAGAATGCCGATGAAGGCATCGACCTTGTGCAATCGAGCACCGGTTGGACGCTTGGAGCCAATGTGGAGCACCTTGAGCTGACCGGCACGGCTAACACGCGAGGCACGGGCAATGACCTTGACAACGTGATAACGGGCAACAGCGGAAAGAATTATCTGGCTGGCGAAGAAGGGGAAGACATCCTGCTTGGCGGTGCAGGTGCCGATACGCTCTATGGCGGCATGGGGGCAGACGAGTTGACAGGCGGTACAGGTCGTGACGTCTTCCTCTACAACAACAGCAGCGAGAGCGGCATCACGGAAGGAGCCTGGGACGTGATAACCGACTTTACCGCAGGTTTTGACCGTCTCGATCTGAGCGGTATCGATGCGAATACGGGCATAGCCGGAAACCAGTCATTCAGCAGCGATATACTTGGCAGTGGAGATGCATTTTCGGAAGCGGGCCAGTTGCGCTTTGACAGTGGCTCAGGGGTTCTGTACGGCAATACGGACGGAGACGCAGATGCGGAATTTGCGATC 
 >PredictedProphage1 -Hit 5 
 GTTTCAGGTGCCATTACGGCAACATCTTCGGACGGAATTGCTGTTGGTATGGCGGCAGAGAACAACCTTTCGATAGGCGAGATTACCGATGCAGCTTTTATCGATGTAACGGGAAGAGATTTTGCTGTAGGTTTCGGAGCATATAACGGAAGTGTTGATATCGAGGGCGCTATGGCAGGTGCCGTCAGTGTTACTTCGCTCGAAAGTGAAGCTTTGGGGTTTGGCAGTGGCATGGGTGATGTCGATCTCGCAAGCTATTCCGGTAATCTTACTGTTAATGCCGAAAATACGGCTGTCGGTATTGGTGCAGGTATTGATTACGTGGAACACATTGATGAAGTACCTCCTGTTTCTCCCGCAGGTTTCGGCGATCTCACAATCGGAGGCAATTTCTCAGGGGATGTGACCGTTACTTCAGCAAACGGGTTTGCATTCGGTATTATTGCGGCAGAGACTCTGACGATCGAAGGTGACGTGACCGATTCTGCAGCGATTACGGTTACCGTTACCAATTCCGAATCGCCCGATGATGGCGTTGCTATCGGTGCAATGAATAATCTGGTGATTGTCGGTGATATGGCCGGCACGGTTACAACAACAGCTTACGAGGCTGGAGGAATAGCGGGCATGGGG 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 VSVLMTAYQSGQYIDTAIRSIMQQTWRNIELIVIDDASSDTTADIVRSWCAIDNRIRSIRLPCNVGTFIAKNIGLRFASGDFVTCHDSDDWSHPLKIE 
 >PredictedProphage1 -Hit 2 
 GTGNDLDNRITGNSGKNTLIGGAGNDTLDGGSGADSMVGGIGDDTYVVNYSLDVVTENADEGIDLVQSSTGWTLGANVEHLELTGTANTRGTGNDLDNVITGNSGKNYLAGEEGEDILLGGAGADTLYGGMGADELTGGTGRDVFLYNNSSESGITEGAWDVITDFTAGFDRLDLSGIDANTGIAGNQSFSSDILGSGDAFSEAGQLRFDSGSGVLYGNTDGDADAEFAI 
 >PredictedProphage1 -Hit 3 
 GSITIGSTVLDNSSLTAYAEQLNAIGNSLSENGDLLLFGCNVAAGAEGKQFIESLSHMTGADVAASDDVTGSASSGGDWKLERQTGVIETAPAWSSEPAISGTLSTFSDDENYDLATFAQLAKLSRLSYETGGELNNQLQWIGWSLHG 
 >PredictedProphage1 -Hit 4 
 GTGNDLDNCITGNSGKNTLIGGAGNDTLDGGSGADSMVGGIGDDTYVVNYSLDVVTENADEGIDLVQSSTGWTLGANVEHLELTGTANTRGTGNDLDNVITGNSGKNYLAGEEGEDILLGGAGADTLYGGMGADELTGGTGRDVFLYNNSSESGITEGAWDVITDFTAGFDRLDLSGIDANTGIAGNQSFSSDILGSGDAFSEAGQLRFDSGSGVLYGNTDGDADAEFAI 
 >PredictedProphage1 -Hit 5 
 VSGAITATSSDGIAVGMAAENNLSIGEITDAAFIDVTGRDFAVGFGAYNGSVDIEGAMAGAVSVTSLESEALGFGSGMGDVDLASYSGNLTVNAENTAVGIGAGIDYVEHIDEVPPVSPAGFGDLTIGGNFSGDVTVTSANGFAFGIIAAETLTIEGDVTDSAAITVTVTNSESPDDGVAIGAMNNLVIVGDMAGTVTTTAYEAGGIAGMG 
 



Prophage Finder Output

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

Genome size:  65274
Host's GC content:  50.59
Predicted Codon Position GC:  	1st:  58.01	 2nd:  40.36	 3rd:  53.29

 

Prophage Finder Output

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

Genome size:  85957
Host's GC content:  48.06
Predicted Codon Position GC:  	1st:  56.46	 2nd:  39.68	 3rd:  49.03

 

Prophage Finder Output

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

Genome size:  81674
Host's GC content:  46.89
Predicted Codon Position GC:  	1st:  55.74	 2nd:  39.36	 3rd:  47.04

 

Prophage Finder Output

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

Genome size:  93210
Host's GC content:  48.05
Predicted Codon Position GC:  	1st:  56.45	 2nd:  39.67	 3rd:  49.01

 

Prophage Finder Output

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

Genome size:  81337
Host's GC content:  47.89
Predicted Codon Position GC:  	1st:  56.35	 2nd:  39.63	 3rd:  48.73

 

Prophage Finder Output

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

Genome size:  71159
Host's GC content:  48.75
Predicted Codon Position GC:  	1st:  56.88	 2nd:  39.86	 3rd:  50.18

 

Prophage Finder Output

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

Genome size:  82417
Host's GC content:  49.28
Predicted Codon Position GC:  	1st:  57.21	 2nd:  40.01	 3rd:  51.09

 

Prophage Finder Output

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

Genome size:  108243
Host's GC content:  49.83
Predicted Codon Position GC:  	1st:  57.54	 2nd:  40.15	 3rd:  52.01

 

Prophage Finder Output

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

Genome size:  116513
Host's GC content:  48.72
Predicted Codon Position GC:  	1st:  56.86	 2nd:  39.85	 3rd:  50.13

 

Prophage Finder Output

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

Genome size:  125309
Host's GC content:  47.84
Predicted Codon Position GC:  	1st:  56.32	 2nd:  39.62	 3rd:  48.64

 

Prophage Finder Output

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

Genome size:  129380
Host's GC content:  47.74
Predicted Codon Position GC:  	1st:  56.26	 2nd:  39.59	 3rd:  48.47

 

Prophage Finder Output

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

Genome size:  135147
Host's GC content:  47.35
Predicted Codon Position GC:  	1st:  56.02	 2nd:  39.49	 3rd:  47.82

 

Prophage Finder Output

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

Genome size:  156132
Host's GC content:  49.27
Predicted Codon Position GC:  	1st:  57.20	 2nd:  40.00	 3rd:  51.07

 >PredictedProphage1 
 Length:   17848 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 51.60 	 53.57 	 62.21 	 41.94 	 56.57 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	7	0.0707070707070707
 Leu	TTA	4	0.0404040404040404
 Leu	CTG	18	0.181818181818182
 Leu	CTA	1	0.0101010101010101
 Leu	CTT	46	0.464646464646465
 Leu	CTC	23	0.232323232323232
 Lys	AAG	23	0.396551724137931
 Lys	AAA	35	0.603448275862069
 Glu	GAG	33	0.485294117647059
 Glu	GAA	35	0.514705882352941
 Gln	CAG	39	0.906976744186046
 Gln	CAA	4	0.0930232558139535
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	5	0.333333333333333
 His	CAC	10	0.666666666666667
 Asn	AAT	6	0.3
 Asn	AAC	14	0.7
 Ser	AGT	4	0.0677966101694915
 Ser	AGC	19	0.322033898305085
 Ser	TCG	11	0.186440677966102
 Ser	TCA	7	0.11864406779661
 Ser	TCT	2	0.0338983050847458
 Ser	TCC	16	0.271186440677966
 Trp	TGG	7	1
 Arg	AGG	9	0.142857142857143
 Arg	AGA	6	0.0952380952380952
 Arg	CGG	11	0.174603174603175
 Arg	CGA	10	0.158730158730159
 Arg	CGT	13	0.206349206349206
 Arg	CGC	14	0.222222222222222
 Ala	GCG	32	0.329896907216495
 Ala	GCA	21	0.216494845360825
 Ala	GCT	14	0.144329896907216
 Ala	GCC	30	0.309278350515464
 Cys	TGT	1	0.166666666666667
 Cys	TGC	5	0.833333333333333
 Asp	GAT	29	0.644444444444444
 Asp	GAC	16	0.355555555555556
 Gly	GGG	6	0.125
 Gly	GGA	17	0.354166666666667
 Gly	GGT	13	0.270833333333333
 Gly	GGC	12	0.25
 Phe	TTT	19	0.678571428571429
 Phe	TTC	9	0.321428571428571
 Tyr	TAT	13	0.8125
 Tyr	TAC	3	0.1875
 Met	ATG	15	1
 Val	GTG	15	0.254237288135593
 Val	GTA	4	0.0677966101694915
 Val	GTT	22	0.372881355932203
 Val	GTC	18	0.305084745762712
 Thr	ACG	16	0.290909090909091
 Thr	ACA	11	0.2
 Thr	ACT	2	0.0363636363636364
 Thr	ACC	26	0.472727272727273
 Pro	CCG	13	0.448275862068966
 Pro	CCA	3	0.103448275862069
 Pro	CCT	4	0.137931034482759
 Pro	CCC	9	0.310344827586207
 Ile	ATA	9	0.236842105263158
 Ile	ATT	17	0.447368421052632
 Ile	ATC	12	0.315789473684211
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 19828	20304	1	ref|NP_817947.1|gp96 	47.8bits(112)	3e-04
 25044	25346	1	ref|NP_818251.1|gp200 	61.6bits(148)	2e-08
 30799	31605	-1	ref|NP_536371.1|putative tail length tape measure protein	39.3bits(90)	0.11
 36269	36979	-1	ref|NP_046877.1|putative non-heme haloperoxidase	40.0bits(92)	0.063
 37370	37675	1	ref|YP_195193.1|hypothetical protein	66.6bits(161)	6e-10
 
 DNA sequence:
 ACCTTGCTCGCAAAGGCTGTGGCGGGCGAGGCGGATGTTCCGTTTTTCAGTCTCAGCGGTTCCGATTTCGTCGAGATGTTTGTAGGGGTCGGCGCTGCTCGTGTGCGCGACCTGTTCAAGCAGGCAAAGGAGAAGGCGCCCTGCATTATCTTTATCGACGAGATTGACGCGGTGGGTCGCAGCAGGGGAAAGGGTGCGATGATGGGTGCCAACGATGAACGCGAAAACACGCTGAACCAGCTTCTTGTGGAAATGGACGGATTTGCAACCGACAAGGGTGTTATTTTAATGGCGGCAACGAACCGTCCGGACGTTCTTGATTCGGCTCTTCTTCGTCCGGGACGTTTTGATCGTCAGATTATGGTGGACAAGCCCGATCTTAAAGGCCGTATCGATATTTTCACGGTTCATACCAAGAAGCTTTCGCTCTCCCCCGACGTGAATCTCAAGGCGCTTGCGTCGCAAACTCCGGGGTTTGCCGGAGCGGAAATCGCCAATGCCGCCAATGAGGCGGCCCTGCTCGCTTCGCGGCAAAACAAGCTGACTATCGAGATGAAGGATTTCGAGGATGCCATCGAGCGGGTTATCGCCGGTCTTGAAAAAAGAAACAAGGTGATTAATCCGCGCGAAAAGCAGATTGTGGCCTATCATGAGGCTGGCCATGCGATTGTCAGCTGGATGATGCCCGAAAACGACCCTGTTCAGAAAATTTCGATTGTGCCGAGAGGGATGAGCGCGCTGGGCTATACGATGAATATCCCGCTTGAAGATCGCTATCTGATGACAAAAAAAGAGCTGATCGCGCGGATCTGCGGTCTGCTCGGCGGTCGTATTGCCGAGGAGATCGTTTTCGGTGAGATTTCGACAGGAGCGCAGAACGACCTTGAAAAAATCACCGGGATCGCATACAACATGGTGATGGTTTACGGAATGAGCGAAAAACTGGGCAATCTGTCGTTCTACGAGAGCAATAATCCCTATTACGGCAGTCCGGGCGTCGACAAGAAGTATGGCGAGGAGACCGCCCGCCTTATCGACGACGAGGTGTCGGCTATCGTGGCAGATGCCCGCCGGATGGTTTTCGAGATGCTGACGGCTAATCGGGAAAAACTTGAACGGCTTGCTACCGAACTGCTTGCAAGAGAGATGCTGCAGTACTGCCAGATCGAGGAAATTCTCGGCAAACGACCGCCGGGGCTCTACCAGGAGCACCTTGAAGACCCCTGTTCGCCCGTCAAAAGCGCATTGAACGACGCAGGCAATATCCCGGCGGCACCCATAGAGGGCGCGCTAGGCGAGAAGGAACGGATGGATCTCGAGGCTGCCGTTGCGAGGCTTCGCCAGGAAAGGGAAAAACAGGAAAACTGATACCGTCGGCCATGCCTATGGAAAGAAATGTGCGGTTGATGGTTTCCGGGTCCGTTCAGAGCGTCGGGTACAGGATGTTTATCCATAAGGCTGCCGGGGAGCTCAATCTCTCCGGGTGGGTACGAAACCTCATGGACGGCTCTGTTGAAATCGAGGTTCAGGGCTCTTCCGGGATGATTGACGAACTGGTGAAAAGGGCGGAAAGAGGACCTGGCCGATCGAGCGTAACGAAGGTGATGGTTGAGGAGCTATCTTTGGATCCTCTTAAGAAGGGATTTTCTATCCGCTGAGAATTTTGGCGAAAAACAATAAAGGCAGGAAATTCCTGCCTTTATCTTCTGTGGGTCTCGAGGGATTCGAACCCCCGACCTACTGGGTGTAAACCAGCCGCTCTAACCAGCTGAGCTAGAGACCCGTTGAGGGGCCACTATTATACCATTATTTCCGTTTATTGCAAAAAAAAAATCACCCCGAAAGGAAGAGAAGCGGCGGGCGGAATTTGTAACCCTTTGCGAAAAAGCATAAATTCATGCCGGTAGATTCAATACGAAACCCCGGCAACTTTTTTTACTATACGTTATGAGATCACTATCCATCCTCGGCAGTACCGGTTCGATCGGGCTCAGCACTCTCGATGTTGTTCGTCAGCACCCTGAGCAGTTCACCATTACCGGCCTTGCTGAAGGCCATGATGTGGGAATGCTTGTAAAACAGATCCGGGAGTTCAACCCTCGCCTTGTTTCGGTACGAAATGCCGATGCCGCAGCCGAACTTGCTTCGCTCCTCGGCAATGAGAAGCCGGAGATTTTTTACGGTATCGAGGGAGCCGCCACCGTCGCCGCGGCGGATGGAGCTGATATGGTCGTTTCCGCTATTGTGGGAGCTGCCGGACTTGTGCCGACCATCAGCGCCATCAAAGCCGGTAAAAACATCGCGCTTGCCAACAAGGAGACCATGGTCGTAGCGGGCAGGCTTGTTACCGATCTTGCCCGGCAGCACAAGGTGACCATCATTCCCGTCGACAGCGAACATTCCGCTATTTATCAGTCGCTTCTCGGCCATCGGCACGAGGATGTTCTGCGCCTTATTCTGACCGCATCGGGAGGACCGTTCCTGAACACCTCTGCTGAAGAGCTTCGCGAGGTTACTCTCGAGCAGGCTCTGAAACATCCGAAATGGACGATGGGGGCAAAAATCACGATCGATTCGGCGACGCTGATGAACAAGGGGCTTGAGGTCATCGAGGCTCACTGGCTGTTCGACATGCCCGCACATAAAATAGGCGTTGTGGTGCATCCGCAAAGCATCATTCACTCCATGGTGGAGTATATCGACGGTTGCGTCATGGCGCAGCTCGGCATGCCGGACATGAGGGCTCCCATCGCTTACGCCATCGCCTATCCGGAACGTTGCCCGAGCGGCATCGAGCGGCTTGATCTGCCGAAAATCGGTTCCCTGAGCTTCCAGGAACCTGATCCGGGCAGATTCCCCTGTCTGCGACTGGCCTATGAATCGCTTGAGGCGGGAAGAACCTGTCCGGCCGTGCTGAATGCCGCCAATGAAATCGCCGTTGCCGCGTTTCTCGACAAACGGATCGGGTTTACCGATATTGCCGATACCGTCGACAAGACCATGCAGGCTCATGAGGCGTATACTCCGGTATCGCTCGAGGAGTACCTGGAGGCAGACCGGTGGGCGCGAGAGATGGCAAAAGGTCTCGTTGAACGGGCATAAAATAGCGTATCCGCTGCTGTAACCTATATCCCGGGCTCTGTAACAGGATGTCCGGGCAGTTTTTTTTCTGAAACGAACGAGGAATCCATGGATTTTCTGAATACGACTTTTTTCTTTATCGTCGCCATCTTCGTGCTGGTCACCGCTCACGAACTCGGCCACTTTCTTACGGCAAAGCTTTTCGGCATGCGCGTGGACAAGTTTTATATCGGTTTTGACTTTTTCGATCTTCGCATCTGGAAAAAAAAGATCGGCGAAACCGAGTACGGCATCGGGGTGTTTCCTCTTGGCGGCTATGTCAAGATTGCCGGGATGGTTGACGAAAGCATGGACACCTCCTATTCGGCTTCGGCGCCTTCGCCCTGGGAGTTTCGGGCAAAACCGGTCTGGCAGCGGCTTATCGTGCTTGCCGGCGGCGTGATCATGAATATGGTGCTTGCCACAGCGATTTTTATCGGCGTTACCTTTACCCTTGGGGAATCGAGAACAACGGTTGAAAATCCGGCTTTTATTGAACAGGGTTCCGTGTTTTCTTCAATGGGGATGAAAACAGGCGACCGGTTTGTGGCCGTTAACGGCAAACCGCTCTCCAACTGGGAGGAGGCTCTGGATCCGTCGCTGTTTACAGCCGGGTCGCTCAATTATACCATCCTTCGCGATTCCGGCAGGATCTCGATTACTGCGCCCTCAAATATCGTTTCACGAATCAACGAGGAACAGGCGCTCGGCATCCGTCCGATCATGCCGCCGGTTATCGACGAGGTGCTTGCCAATCAACCCGCAGCTCTTGCGGGAATAAAAGCCGGCGCAGTGATAACGGCAATCAACGGCGTTTCGGTATGGGACTGGACGGAAGTCGTTTCAATCATCTCGAGGCATGCCGGAAAACCTCTCGATATTACGTGGAAGCTCTTTGATCCGGCCGCAGCAGCGGGGGGATCCGAAAAAATCTTCGTGACAAGGGTCGTGCCCTCTTCTACCGGGAAAATCGGCATCGCGTTGAAACAAACGCTTGTTTCAGAACGACTCAAATCAGGATTTTTCGATTCCGTCATCAGCGGAAGCCGGCAGACCTGGAAAATGACCGTCATGACGGTTGACGGGTTTGCAAAAATCTTTTCGGGAAAAGAGGATTTCAGAAAATCGCTCGGAGGACCGGTCAAAATCGCGAAAATCGCCAGCAGAAGCGCCGAACAGGGCATTGTCAGCTTTTTGTATTTTCTTGCCGTGCTTTCGATCTCTCTTGCCGTGATCAACATGCTGCCGGTTCCGGCTCTTGACGGGGGACAGTTCGTTCTGAATGCTGTTGAAGGGATAATCAGAAGGGAGATCCCTCTTGCCATAAAGCTTCGTATCCAGCAGATCGGCATGCTCCTCCTGTTGTCGCTCTTTGCGTTCATTCTTTTTAACGACATAGTGAATCCGTAAGGACTCGGGAGCATATTCATTGCAGAACCATGTTTGATAAACTGCAGGCTATAAAGGAAAAACACGAGGATCTTGAGCAGCAGCTTCTTGATCCTCATGCGGCGGAGGATCAGAACCGCTTCAGAAAACTGAACAAGGAGTACCGTGATCTCTGTTCCATTGTCGAGGCCTATGACCGGTACGCTCTGGCTAAAAAACAGCTTGAGGAGTCGCGCCTTCTTTTGAAGAATGAGAAGGAGCAGGATATGCGCGCAATGGTGCAGGATGAAATCAGCTCGCTGCAGGAGAGCATCCTTGAACGGGAAAAACAGCTCAAGCTCCTTCTTCTTCCAAAAGATGAAGTGGATTCCCGCAACGTCATTATCGAGATCAGGGCTGGGACCGGAGGCGAAGAGGCCGCGCTCTTTGCCGCGGATCTGGTGCGAATGTATCAGCGGTTCGCCGAACAGCAGGGCTGGAAGTATGAGGTTCTTGATTTTAACGAGAGTTCCGTTCCCGGCGGGTTCAGGGAGATTGTGCTCGGCGTGAGCGGCCATGACGTCTATGGCACCATGAAATACGAAAGCGGCGTGCACCGGGTTCAGCGCGTTCCGGATACGGAAACGCAGGGACGTATCCACACCTCTGCCGCAAGCGTGGCCGTGTTGCCGGAAGCGGAAGAGGTCGATGTTGAGATCCGCAAGGACGATCTTCGGTTTGATACCTACCGAAGCGGTGGAAAGGGTGGCCAGAATGTCAATAAGGTCGAAACGGCGGTTCGCATTACCCACCAGCCGAGCGGTATTGTTGTTGCCTGTCAGGAAGAGCGATCCCAGTTGCAGAACAAGGAGCGGGCAATGAAGATGCTCAGGGCAAAACTCTATGATCGTCAACTTGCCGAGCAGCAGGAGAAACGGGCCGGGCTGCGCCGATCGATGGTGACGACGGGAGACCGAAGTGCCAAAATCAGAACCTACAACTATCCGCAGTCACGCGTTACCGATCACCGGATCGGGTTTACCAGCCATGCTCTTCCGCAAATCATGCAGGGCGACATCAAGGATATCATCGAGGCGCTGAAAATGCACGATCAGGCCGAGCGACTGCAGGCCGAACTGGTGTGATGGGTCAGACCGGGATCAAGAGAATTGAGTGTCGCTCTTTTATTGTCTGTTTGTCTGTATATTTTATACGGTAACGAATTATGAACGGCAGCCCGAAAGAGCCGCTGAAGAAACGGAGTATCGCTCATGGAGATGGAGGCTACTGGAAAAAGCCGGGGTGAATGGATTTTTCACGATGAGTTTGATCGGACGGTGAGTTACCTTTCCGACCATGCTAAAATTCTCGGGTTCAATCCGTTCTGTTACAAGGTTGAACGCGTTGACCTTGAAAACGTTTTCAAGTGGCATTTTCGCGTTACCGATCCACAGAACAACCCGTTCGATGTTATTTTTTATGTCAAACAGTTCGACGAAATCCTCGTAGAGCTGCCACCTGACCTTCAGTGCGATAATCCTGACGAGCTGAGCGACGAGATGATCAAGGCCTATACGGTGGGGAAAAAAATCTGTTGGCGACACCATCCTCTCATGAACCCCGTTGATGATCCGAAAAATTATCTGTTCGAGGGAAAAGCGTTTGCCGAAATGTATGTTCACCCGGTCATGACCGGAAAAACAAGGGTTCATTTCGATCTTAAAATCAATGTGAAGTTTGTGCTCTACCCTGCGTTTCGCATCATTCCCGAGCAGATCATTCGAGCCATGACCAATGCGGGCATGTCGATAATCATGCAGACGGCTACAAACAAGATGTTTCAAGGCATATCGAAAGACTTCGGGTTTACTGAACATGCATGAAAAACTGACCTCGATGAATTTTCACGACCTTGTGAAAAATCGCTGCAGCATTCGCAGCTTCGTGAGCGATCGAAAAATTCCGCAGGAGATCCTCGAAAAAATTCTTGCGGCAGGAAGGCTCGCTCCTTCGGCAAAAAACCTGCAACCCTGGAAATTCAGGGTGGTGAGCTCTCCCGACCGGCTTTTGCAACTCTGTGCCTGTTACCCGCGAGACTGGCTGCGTTCCGCTCCACACATCCTTGTGGTAACCGGCCTGCGCAAACAGGCCTGGGTAAGAGCTGCAGACGGCTATAACTCGCTTGAGACGGATCTGACTATCGCCATGGATCACCTGATTCTTGCCGCTGCCTCGGAAGGGGTTGGCACCTGCTGGATCGCGGCTTTCGATCCGGATCGTTTACGCGCAGCCCTCGGCATGGATGAGGATGAGATGGTTTTTGCCATGACGCCGCTTGGCTATGCAGCCCCCGATGCCATCGTTCAGCAAAAAACACGCAAACCGCTCGCTGAAATCGTTGAGTTTCTCTGAAGCCTGAAGATCTCCCGCCGGTAAAAAAAACGGCAGAGGGTCGAAATCTACCACTCTGCCGTGCATTGCGAAAAAGAAAAGCATCCCTCTCTCTTGTCAGAACGATCGTATCGGACGAACGTTTATACCGATCGACTTCATATGAAAATGAGGCTTGCCGTCATATATCTGCGCCCATACGTCGCCCGCACCCACCTCTGACGAACTCCAGTGCCCGTCTTCTATGGTACATTTGAATGCCGAATTGGTGCATAGCTTGTTCAGTTCGTCCTTGCTGGGCAGATACCAGTCGGTGAATCCGCCGGAGACGTAATCGTCACAGATTTTAGCCGCGCTTCTCGTATGACCCGGTTGCCGGACAATCAACGCCGTATTGGCGCTTCCGCTGCCAATGGCTGTTTTTGTACCTTCCACGGCACCGCTTGTGATGTTGCTCCACTCCACCCCTCGTCCCTGATCTTCGACTGCGGCAATCAGCCCTTTTTGACGCCCTGCGTCGTATCCCGGGTCTCCGGGCTGCAGAATATAGAAAACAATTCCTCCCCCATATCGGTCGCCGATGGTTATCGTAGCGGCAATGCCGGATTTACCCGGAAACGAAAAACACAGCATACCGGTGAACAGCAGAGCTATCCGGATAGCGGCGGCTTTTATTGTTATTCTGTTTCTCATGGTTAATCTCCTGGTTGCGTTATTCAGAGAGGTCGTGCTGAAGAGGAAATGAGTCGCTCTGTGGCAAAACAGCCCGGCCTTTTCTTTCTTATACAATGTATACCGGTTATGCCTGCCATAAAATACGTATGACTACGATATATTTATACGTATATATACGGATGAAACACAGGCAACGGCGCATCGTGCTGAAGAGGTGGTACTGCCCCGTGTCAGCATTGGATGCCATCGGGGATGAGAGCTGGTTGCAGGGATTTTTTTATCGTTGGGGAAACGGTATGACGTCGAGGAGCGGGGGTGACGGGGATGGTTTATATCAAACCGTGTTCGCGGGCGTACCCTGCCAGTCCTGTTGCGGTACGGATGTTCAGTTTTTCCATGATGTGCTGCCTGTGCGTTTCAACCGTGCGGTGGCTGATAAACAGTTCGCTGGCTATCTGCCGACTGGTAAGACCTCGCACAACGCAGCGGAGCACTTCGACCTCCCTGTTCGTTAACTGCCCTTCGCAGCAACTCGCATAGAGGTTCGGATTGTCCTGAAATCTGCCGAGATAGAGTTTGTTGTCGGCAACTTTGACGATTGCCTCGGCGATCTCTTCGTATGCAGCCTCTTTGAGCACGTAGCCGTATACCCCGCTTTCAAGAGCGCGCCGAACGGTTTCGATGTCGTCCTTCATGGTGAGAATAATGCATCGGGTGTTGCTGTGGGCTGCCCGAATACTTGATACGACTTCAAGGCCATCGGGTCTCGGCATGGAAAGATCCAGCACCGCTACCTGCGGCTTCTCTTTCCAGATAAGATTAAGCGCCTCTTTGCCGTTACTTGCCTCGCCAAGAAGCTTGAACCTGTCGTCATCGGCAAGAAGCCTCGATAATCCCTGTCGGAATATTTTGTGGTCGTCGGCTATGATAATGGTAATCATGGCAACTCCAGCGTCACGGTAATTGTGGTGCCCGAAGCGGTGGATGCCATGTCGAGCTTTCCGCCTATGAGCGAAACCCGTTCCTCTATGATTCGCAGTCCAACACCTTTATTTGTCGAAACGTCTTTTATTCCGCAACCATTATCGGCTATGAGCAGTGTTAACGCATTATCAACACGGGTTAAGCGTACCGTGATCAGGGTTGCCGCCGCGTGGCGGTCGGCATTTGCTATCGCCTCCTGGGAAATACGGTAGAGGTTTTCGCTGACCTGACAGGAGAGGGAACTGAAATCGCCGACACAACTGATGCTGATTGGAACCCCTCGTCTTCCGAGCATCTCGCAGCGCTTGATAATGGCTCGATCAAGGGTGATTTCCTGAAGATAGGCAGGACGGAGGTGATGGGCAATATCACGGATTTCAGCAGAGATATCGGCAATTTCACCAGCAAGTTCAGATGCGAGCGACTTGAGGTCTCCATATCCTCCGCGACCATCCGCAATCATTTTAAGATGCAGACATACCGCGTGCAGCGACTGGCCTGCTCCGTCGTGCAGGTCACGGTAGAGCAGGGAGCGCTCCTCGACTTCCGACATGACCTTGATTTTGCTGTTGAGCTCCTGCAGTTGAGCCTGGTATTGATCGGTGGTTCTGAGCGTATCAAGAAGCTGCTGCTTTTCGGTTTGCAGCTTCTCCTCAAGGACTTTTCGCTCGGTGATGTCTATCAAAACGTATAGCATTGCGGGCTTGCCGTTCCATTCGGTTTTTAACCCGCCCATTTCGATCCAGAGGATCCTTCCGTTTTTTTTGATGATCCGTAACTCAATTCTCAGGTCGGGCAGGTCGCTCTTGAGACATTTGAGGTGGTGGTGTTTTACCCGCTCCCTGTCATCAGGATGCATCATATCGGTAAACGAAAAGGAGAGCAGCTCCGCTTCAGTGTAACCGGTCATTTCCGATACGATCGGATTCACAAAACGCAAATGGTCGCCGTGAATAACAAGAACGCCTTCGCTGACCGTTTCAATCAGGCATCGATAGAGGCGGTCGCTTTCCCATAACGAGTCCTCAAGCTGTTTTTGAATGGTGATGTCCGTCAGAAAGGCCCAGCACTCCTGTTTTTCGCTGTTAACTATGGCATCGATACGAACCATGCGTCGTTGACGCGGGCCGGAGGTTGCGATCTCCTGTTTATCTCTGGCATGGTCAAGCAGCATCACCTCGCAATATCCGCTCTCCCGAGTGGCGAAGACTCTCTTTATGAGGGCATTGAAAACCGGAAGATCTTCATAGACAATAAACCGTCCCAACCGGTCGCCTTTCAAAAGAGAGCGATCGAGACCAAGCATTGTTGCGGCCGTCAGGTTCAGCTTGCGTATTGTGCTGTCCGCGGCGATGGTCAGGTATCCAAGGGGCGCAAAATCGTAGAGCTCGTTATATCTCTTTAACCCCGCTTCGAGAACTGCTCTCGACTGCAGCAGTTCGTCCTGCTGCATTTCAAGCTCAATCTGGTTGACCGATAGCTCATGGATAATGCGAAGACGATCTTCGACTGATTCAAGGCTATCAACTTTTTTTTTTCGCTCATGCAGCAGGATCGCTTCTGCCTGGAGACGCTTTTCGGAGAAGTCGTCGGCATCTGCTGTTCTGTTTTTTTTCATGAAGTGAGTTCTCCTGATTAAGCGAAAGCACCCTGTTCCGATAGTACTGCCAAAACGTGCGCTACGTCCCTCAACCTGATAAACAGGCCCGGGAGGCCTCTTTTTCTGTTCGGTTTTGTTCAGGATGAATGAAGCACCGTTTCAGTCGCGCGCGATTATCCCCCATCCTGCCGTTTCTTCGGTGGAAATCCGCACGCTCATTGAGGACCCAAAACCCTGCATCCCGCTATAATATACGGTTTTCCATTTTTTTCCCGGCAACGCAATACTCAAATCTTTTTTTGTTCACCGATTTCGGGCACATCTTTTCAGATGTGCCCGGGTCAAGGCGTCCCGATAAGTCGCAGGGAGATATGACGTGAGTACCCTGTTTGTTCTGCTGAAACTCAGCGATCTTTTTTTCCAAGCCGAAGTACAACCTCTCCAAGACTGTCCTTAATCTCTGCGGTGTTCCCTGCGGTTGGAATAACAAAACCTGTATGACCGGAGGATAACGAGCCAAACCCGACTTTCAGACGAACCTCGCTGTCCTGAACATCAAGCCCTTTGAGGTTGGTACGAATGTTGGCATAGAATTCGTCAAGCAGGGCGGAAACTCTTTCCGGCGGAACAAAGGCAACTTTATGCGTACTGTCCATCTGCTGAAGAAGCGATACGTTTTCAGCTTCGAGCTTCGATACTTTTCTGTCGAGATCGATCCTCTGTTTTTCTGTTTCTGCCGATGCCGACGCTTTCGCATTGGCAACGGCGGTTTCAAGCGTTGCTGTGGCCTCTTTTGCCTTTTCGGCAAAGAGTTTGCTGTCGGTGCTCAATCCGTCAAGCTGCTCCTGCAACAACCTGTTCTCTTCGACAAGACTTCCGATTCTGCTGTCAAGTTTATCTGAGGCCGCATTTTTAGCCTGCTCTTCCTTTAACTGCGCTTCGAGCGCGCTCACTCGTCCAAGCTGCTGGCGAGCTTCGAGAAGCTCCTGAAAGAGGGCCTTCATAACGGAAACCGGTTTTGGCTCTACTCCGGCAAGTGAGGGAACGGCTGGGTGCAAGGCGGCAAGCGATGCGGTAAAAAGCTCTTCCGATTTACGATACTCCGTCAGGGTTCTCTCTGTCGCCTGAAAACGGGTCTCGCTTTTTTTGAGCGCATCTTTAAGCGCATCCTGCTCCCGGGTCCAGCCGGCTTCTTTAACCGCAGCCTGCTGCGCGAATGCCACGTGTTCGCGCTCTGCTGTTTTCAGGGATTTCTGCAGTTCCGTAATCTGCGCAAGCGCTTTGATCTGACCGCTCTGCTCCCTTTTAAGAACCAGATCGAGCTCCGAGCGCAACGTTGTTGTTCCGGCCTGATATTCGGACTCTTTTTTTTCTGCAATCTGAAGCTGCTCTTTCAGGGCAGCATCCTTTTTGGAGATCTCGGTTATGGCGCTTCTCAATCCTGTCCATAACCCTTCCGAATCGGCTGTGACCGTATCAAGAAGCCGGGATGCGGGCTTGAGCCTGAGAAGTTCGGCTTCGATTTTGCTGCGCGCTCTCTCTTGCGTCTGCATTTTCACCGTTGCGCTTTTCAGCTCTTCCTGAGCTTTTCCAAGTTCTTCCTGTATGCGCTTGTTATCCTGCTGGAGTTTTGCAACAAGCTGCGCATCTCCAGGCAGTATGACCGGCTTGATTGGTTTTTTTCGTTCAGGAGGCATGGATTCTCTTGTTTATTTCTTGTCTTCAATGGTAATGGTGCGAACGGTCCGGGCTTTGCCGTCGGTCACCTTGACTGTCCAGAGGTTCATCTCGCCCGCATAGGTAGCGCTATAGTCGAGTTTACCCAGAATATCGGTCAGTCTTGCAACATCTTTTCGACCTGCGACGGCACCGATAACCTCCTCTTTTGTGTGTGATGGAGCCGAGGCTTCGGCTGCTTCCTGACGGGATGCTACATACCGGATGGTGATGGTCGAAAGGGCTTCGGGAACGATGTTCCCTTGCGTTGAAGATGCTGCCGAAACCGGTTCGATGAGAATGGTTTTCCCTTCATAGCGCATTCCCACTTTAAGGGCGAGTTCGGCGTTGGCAATAAGCATACCGGCTTTCATACCTTCCGGCACTCCTATCTCTTTTTGCGCATCGCCGAATGACTTTCCGGCAGCCTCAAGAAAAGCGTTAAAATTAATTTCCTCTGCGCTCATTGGTTCTCCTGTAAAAAAATGAAAAAGAAGGTCGCCGCAGCAGTTCAGCAACCTTCTTTTTACGGTTATGCGTTTTCAGTCGAGCGAACAGGCTCAATGCGCAGCGGCATCGGTACCGGAACAAGGGTTGCCGTTATTTTCGAGACGATTTTCATATCCCGGTCAAGCTTGCGCTCAAAGCGGATTGCCGAAGTGTCGGCAAGCAAAACAAGCCCTTTTCTCGTCCCTGACTCGGTTGTCGCTTCGGTGATTTTCAGATCCATCTGTATTTCAATCACGGTCTGCGAAAACTGATAAAAAGTAGGCATTACCCCCAAATCAAGCAGCGATACCGTTCGAGGTTTTCCGTGCTTATAGGTTACCTCGCCTCCTTGTGAAATCGTTTCGGTGATGCTTGGAATTATTTCAACCGGCGTCTCGGCAAGCTCCCTGAGCAGGCTTGCCGAAGAACGGTCAAGTGCCGCTTGCGCATCGGCCACACTTTCTGCTACAAGCCGGATAAGATCGGCAAACGACGCCTGCTCGGTCTCTTTAACCTTGAGTGCAGGCGAAAAGAGCGGTTCTCGAATAGTTGGTGACAATGATTATCTCCTCCATTGCATGGTTATGGGGTTGGGGTTGGGGCCGGTGTCCTCTTGTCCGTAACGATGATTTCTGGCGCGATACGTGCAGGGGGAGGAACCGGAACCATTTTTGTCATCAGTCGGCTCGTGCCGTGAACCTCTTTGCCGAATTTACGATTATGGGAGACATCCGTATTGACCGTTGCGCTCCAGCAGGCAAAACCGACCTTGGCGCTTGCGCTTACTTTTATATTGGTCTCGGTCGACATGGTTGTCTTGATATCCATGGTAACCTCAATCGTCGCTTCGGAAAACTGATAAAAGGTCGGCAAAAGACCTATCTGCAGAAGCGATACTTTAACGGGAGGCGTCGATTTAAACGTCACGCCGTTATCCGTTATCTCCTGACTCATGCCGAGAATCAGATCAACCTCTGTTTCCGCCAGCATTTTTGCTGTTTCAACCGAGTTCTGGTCAAGAGCCCTCTGAGCCTCCGCAATGCCGAGGCCAAGCTTCATTACCATTTCCGGTAATGGGACATCGAGTAATTCACGACCGACACTTGCCATAGGATTATCTCCTTTTTTGTGTTGCCCTTGAGATGTGACAACGGGTTCAGGAATATGAGCACGTGAAAAATAAATTACAAAAGCGTATTGATAACCGGATGAACACCGTCAAGGGGTTTTTCACCCTGTTCCTGCAAGAATATCGTCAATATCGGAGCCATCCGTCGCGCCAAGGGTTTGCAAGAGACGTTGATAGCGTTCGATATCCATATGAATGCCTCCAACCATAGCTATCGAAGGTTCTTTCTGCATCGCCAGCGCGTCGGTAAGGGTGAGTCGGGCAACAAGGGCTTTGCTTTGATTCATCCGCAATACCACCTCTCCTCCATAGGCGCCGACCATGCGTGACGGGTCTCCGCTGTGAGAAACAACAAGAAAAAGAGCGGCTCCCCCTTCTTCGAAATGAACCGTAGCTCCAAAACGGGTGTAAATATCTGACGTCACAGACTCTCTTTTTTCTTTTTATATCTTTCCTGAAGTTAACGATTTCTAAAAGAAGAAAAGAGTATAATTCTTTTTTCTCGCTCCCCAACAGCATCTTTTTTACATTTTTTGGCGTACTATCAGGGCCTGTTTGCAATATTTTTACTTCTCTTCTGCTTTTCGATGAAGGGCTTGAGTTGTGAAGCGGCGATGATTTTAGCTGCTATATCGGTATTGTCGTAAAACCCGGTAAATACGGAAGCTCCGACCCCAAGAGCCATAACCTGTACCGGAAGGGCTGTATGAACCGGACTTGTCCACCCGATTCCGGCCCTCCTGTTGAGCATTCCTGTCGCGACTGTCGCCAATGCATCCGGTGCGCTGTAGCGATTTTTGTCCGATACCTCTCTTGCCATGCTCGACGAGTAGGCATCGTTGAGCGACTGGCGATCAGCAGAGGAGAGGGCAAGGGCGGAGTCGGCTGCGGCATTGCCAAGCCCATAGTAGACTTTTATACTGTCAAGCGCCATGGGAAAGGATATGTTGCGGTTTTTTTTCCATGTCGCGACTTTTTCGGCAAAGCGCTCTCCGGAGATTTTCTGGTAACCCAGCAACTCAAACCGCGATGCATAACCGCGTGCCGCATTGCCAAGCGTCAACCCTCCGCATTCGTGGTCGGCGGTTACGATAATGAGGGTTTGATGCGGGCGCTTTCGATAAAACAGAACGGCTTCGGCTATTGCCCGATCAAAGTCACGCACGTCGCCAGCGACAGCAGCAGCATCATTGGCATGACAGGCCCAGTCGATTTTTCCCCCTTCAACCATCATGAAAAAGCCTCTCGGGTTGTCGAGCAGACGAATACCTTCGCGGGTAAATTCGGCAAGGGAGATCTCTTTCTGCTTGCGATCCAGAGCATAGCTCATGGCTCCTTGTTCATCATATGCCGTATAGGCCCAGCATCTGGTTCCGGGCTGAACGCTTCCGAGCTGCTCTCTTTCGGTTACAACAGCATAGTTACGGGATTTCATGAGATCGACAATATCGCCGCGAAAGGAGGTTCCGCTTTTGCGGTTTTGCGGAAGGTTTCCGTTGGCGTAGCCTCCGCCGAAATAGTCAACCCCGCTTGAGGGCATCTGCAAGGCGATGTTGTATACATTTTTCCGGTTGGCGTTATGAGCATAGAAACAGGCGGGCGTTGCATCGTTAATGCCGACAGTGCTGACAATGCCGACTTTCATGCCTTTCGCTTTCACCATTTCGGCAATGGTTCTGAGCGTATCGTTATGATTTGCGGCCATGGAAATAGTCCCGATGCTCGTCTTGCTTCCGGTAGCAAGCGCTGTTCCGGCCGCTCCGGAATCGGTAATGAAACGGTTTTCGGCATGGGTGGTTGCGATGCCGATTGAAGGGAATGTGTTCATCACCAGCCCAGGGGTGCCCCTTTCTCGCATCGCATCGGAGAGTGCCGCCTGTGCGAGCCCCATCCCGTCGCCGATAAAGAGAAAGATATAGCGAGGAGCGCCTGCGGGTTTCGTTGTCCTCCGCGATGCGGCATCGAGCGGAGCCGACAGCAATATGAGAACGAACAGCGCTGATGAAAACAGCGCGATTCTTTTTGTTCTGTTCGTCAGAAAATGTCGCATGAATGGTTGCCGTTGGAGCGTTGATCAGATTTTCTGAAAATGTAGGGAATCCTTCGGTTCCATACTATTACAGTATCGTTAACTCCTCGCATCAACCACCCGACCCGGCCATGATCGCATCGTGACGATATCGCTCTTTTTTCGCTTGGCGATTCTTTCGCCGTGTTGTTCCCGTCAAGAGGCAGAGATCCCCCTGTCAGATCAGTATAACCAGGAAACTCCAAGAACAAGCGCATGGGAGTTGATGCCGTCGTTGGATCGATCCATCGTGCCCGCATGAGAGATATGCCGAAAGCGGTATCCCCCGAAAAGAGCATTGGTTTTCGTTATTCTGTACTGAAGTCCCGCTCCTGCCTGGTCAAGAAAATTAAATCCGCCTGCGCCTTGCTCTCCGGTATCGATTCCGAGGTACATTGGCGCGATGCTTCCTTCTATATAAATATCGAGAGGAAGGGATAGTTTATGCCTGTAGCGCAAACCGATGCCGATGCCGGCTTCCACTCCGTCTGTTTCTGAAGATACCGGATTTAAAAATGGTTCGAGTGCCAGCTGAAGGGATGCGCGTTCACTCCTGATGCCAAAGAGAGGGTTGAGCGTGAATCCAATGCGCACAAATGCAGGATAAACGGCATGATCTCTGGAGCCATGGTCAAGAGTTCCCCGGATATACCCTGTACCAAACGCAAGTTCGTTAAGGGAGATCCTCCGCTTGCCTGTGTCGGTATCCGCATGGGGATTGTCGGTTTGCGCGATTGCTGCGGGCCTGCTATCGAGTGCGGCGAGGAGGAAAAATGAAATAAAAAAGCAGAATAGCCGGGGTTTTATGATAGTCATATTCTGTTGTAAAGGTTAAAGGGAACAGAATATAACCGTCGTAAAACGATAACAAAACGATCTGTCAGGATCGGTTATGATGCACCCGACGATCGACGAAATCCACTATCGCTCGAACGGCAAGTTCCCTCTCGCTGTCGCAGAACATCTGATGTTCCGAGTGCTCAAGCCATACAATTGATTTGTTCGAGACGCCTGTCGCTATCGCATTGCATAGTATGGTCGCGCTTTCAGGCATCACGGTGGTTTCCCTTCGGTTGTGCAGGATAAAGAGCGGGACAGTGACGGATCCGAGCTCGGATATTGTTTTTTCTATCAGGAGGAAAAAAGAGAGAATGGTATCGGTGGGGACCCAGGCATAACGGCCCGTGCCCAGGGCATAACGCCGATCGGCAATTGCGGTTTTCATCTCCCATTTTTTTTTCACTCTTGCAAGAAGCGGCGCAAAACGATAAAGCGGTCGACCGGGAGAAAATATGGAATACAGCTTTATTGCCGGGGCGGCGAGGACAAGGGAATCAACCCTGCTTTCATGTCGCACGGCAAGGTTAAGAGCAAGAAGAGCGCCCATGCTGTGACCGACAAGAATAATCTTTTCGCATGAAGCGGAGAGTTGACTGAAGGCTTTTTCGGCGTCGGTCAGCCAATCGGTGCAGGTGATTCCGCGAAGCGCTTCGGGCGATGACGCTCCGTGTCCGGCAAGAAGCGGTGCTCGTACCAGCACTCCGGTGCGATGTAATGCGTCGACAAGCAGGGAGACGCTGTCGGTCGTTGCCGTAAAACCGTGAAAAACAAGAATACCGAGTTGGGTTTTCTGTTGTTGCTTTTCAGTCATGAATCACGTTTATCTTTCAGCGGCAGATAAGGAGGAACGGATACGTTGCGCTGTATTGTGTAAATTTGTTGCTTAAATATATTTCCGCTCAGTGATAATTCCCTGCATTTTGCTATTTTTTTCTGCGTACCTTGACAAGAACACTTCCAAGCCTTTGTTATGCGCAGATTTTTTTTAGCGGCCTCTGCCGTGCTTTTGATCGGCCTTGGCTCATGCAAATCATCCCTGCCTCCCTATAAGGGAACGGATACTCCCAGGCTCTCGCCTGCTGAAGCTTTTCGGCTCGGAAAAATCAAGAACACGCCTTATGTGATCAATGGAAAGTTATATATTCCAATGAGTTATGAACAGGCGACAGCCTATGAGGAAACCGGCATCGCTTCATGGTACGGCCAGGAAACCCTTCTTCAGCATAACGGGCAGGCGACAGCGTATGGCGAGCCTTTTTATCCGGATAAACCAAGCGCCGCTCACAAGTATCTGCCTCTCCCCTCCATTGTCCGCGTTACCAATCTCGATACAAGCGCGTCCATTGAGGTTCGGGTCAACGATCGGGGACCTTTTGTCGACAACCGGGTTATCGATCTGAGCGCCGAAGCGGCAAAACAGCTCGGGTTTTATGAAAAGGGTACGGCAAGGGTTAAACTTGAAGTTATT 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 ACCTTGCTCGCAAAGGCTGTGGCGGGCGAGGCGGATGTTCCGTTTTTCAGTCTCAGCGGTTCCGATTTCGTCGAGATGTTTGTAGGGGTCGGCGCTGCTCGTGTGCGCGACCTGTTCAAGCAGGCAAAGGAGAAGGCGCCCTGCATTATCTTTATCGACGAGATTGACGCGGTGGGTCGCAGCAGGGGAAAGGGTGCGATGATGGGTGCCAACGATGAACGCGAAAACACGCTGAACCAGCTTCTTGTGGAAATGGACGGATTTGCAACCGACAAGGGTGTTATTTTAATGGCGGCAACGAACCGTCCGGACGTTCTTGATTCGGCTCTTCTTCGTCCGGGACGTTTTGATCGTCAGATTATGGTGGACAAGCCCGATCTTAAAGGCCGTATCGATATTTTCACGGTTCATACCAAGAAGCTTTCGCTCTCCCCCGACGTGAATCTCAAGGCGCTTGCGTCGCAAACTCCGGGGTTT 
 >PredictedProphage1 -Hit 2 
 GATCTTCGGTTTGATACCTACCGAAGCGGTGGAAAGGGTGGCCAGAATGTCAATAAGGTCGAAACGGCGGTTCGCATTACCCACCAGCCGAGCGGTATTGTTGTTGCCTGTCAGGAAGAGCGATCCCAGTTGCAGAACAAGGAGCGGGCAATGAAGATGCTCAGGGCAAAACTCTATGATCGTCAACTTGCCGAGCAGCAGGAGAAACGGGCCGGGCTGCGCCGATCGATGGTGACGACGGGAGACCGAAGTGCCAAAATCAGAACCTACAACTATCCGCAGTCACGCGTTACCGATCACCGG 
 >PredictedProphage1 -Hit 3 
 CTTGTTGCAAAACTCCAGCAGGATAACAAGCGCATACAGGAAGAACTTGGAAAAGCTCAGGAAGAGCTGAAAAGCGCAACGGTGAAAATGCAGACGCAAGAGAGAGCGCGCAGCAAAATCGAAGCCGAACTTCTCAGGCTCAAGCCCGCATCCCGGCTTCTTGATACGGTCACAGCCGATTCGGAAGGGTTATGGACAGGATTGAGAAGCGCCATAACCGAGATCTCCAAAAAGGATGCTGCCCTGAAAGAGCAGCTTCAGATTGCAGAAAAAAAAGAGTCCGAATATCAGGCCGGAACAACAACGTTGCGCTCGGAGCTCGATCTGGTTCTTAAAAGGGAGCAGAGCGGTCAGATCAAAGCGCTTGCGCAGATTACGGAACTGCAGAAATCCCTGAAAACAGCAGAGCGCGAACACGTGGCATTCGCGCAGCAGGCTGCGGTTAAAGAAGCCGGCTGGACCCGGGAGCAGGATGCGCTTAAAGATGCGCTCAAAAAAAGCGAGACCCGTTTTCAGGCGACAGAGAGAACCCTGACGGAGTATCGTAAATCGGAAGAGCTTTTTACCGCATCGCTTGCCGCCTTGCACCCAGCCGTTCCCTCACTTGCCGGAGTAGAGCCAAAACCGGTTTCCGTTATGAAGGCCCTCTTTCAGGAGCTTCTCGAAGCTCGCCAGCAGCTTGGACGAGTGAGCGCGCTCGAAGCGCAGTTAAAGGAAGAGCAGGCTAAAAATGCGGCCTCAGATAAACTTGACAGCAGAATCGGAAGTCTTGTCGAAGAGAACAGGTTGTTGCAGGAGCAGCTTGAC 
 >PredictedProphage1 -Hit 4 
 CTTGTTTTTCACGGTTTTACGGCAACGACCGACAGCGTCTCCCTGCTTGTCGACGCATTACATCGCACCGGAGTGCTGGTACGAGCACCGCTTCTTGCCGGACACGGAGCGTCATCGCCCGAAGCGCTTCGCGGAATCACCTGCACCGATTGGCTGACCGACGCCGAAAAAGCCTTCAGTCAACTCTCCGCTTCATGCGAAAAGATTATTCTTGTCGGTCACAGCATGGGCGCTCTTCTTGCTCTTAACCTTGCCGTGCGACATGAAAGCAGGGTTGATTCCCTTGTCCTCGCCGCCCCGGCAATAAAGCTGTATTCCATATTTTCTCCCGGTCGACCGCTTTATCGTTTTGCGCCGCTTCTTGCAAGAGTGAAAAAAAAATGGGAGATGAAAACCGCAATTGCCGATCGGCGTTATGCCCTGGGCACGGGCCGTTATGCCTGGGTCCCCACCGATACCATTCTCTCTTTTTTCCTCCTGATAGAAAAAACAATATCCGAGCTCGGATCCGTCACTGTCCCGCTCTTTATCCTGCACAACCGAAGGGAAACCACCGTGATGCCTGAAAGCGCGACCATACTATGCAATGCGATAGCGACAGGCGTCTCGAACAAATCAATTGTATGGCTTGAGCACTCGGAACATCAGATGTTCTGCGACAGCGAGAGGGAACTTGCCGTTCGAGCGATAGTGGATTTCGTCGATCGTCGG 
 >PredictedProphage1 -Hit 5 
 GCGACAGCCTATGAGGAAACCGGCATCGCTTCATGGTACGGCCAGGAAACCCTTCTTCAGCATAACGGGCAGGCGACAGCGTATGGCGAGCCTTTTTATCCGGATAAACCAAGCGCCGCTCACAAGTATCTGCCTCTCCCCTCCATTGTCCGCGTTACCAATCTCGATACAAGCGCGTCCATTGAGGTTCGGGTCAACGATCGGGGACCTTTTGTCGACAACCGGGTTATCGATCTGAGCGCCGAAGCGGCAAAACAGCTCGGGTTTTATGAAAAGGGTACGGCAAGGGTTAAACTTGAAGTTATT 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 TLLAKAVAGEADVPFFSLSGSDFVEMFVGVGAARVRDLFKQAKEKAPCIIFIDEIDAVGRSRGKGAMMGANDERENTLNQLLVEMDGFATDKGVILMAATNRPDVLDSALLRPGRFDRQIMVDKPDLKGRIDIFTVHTKKLSLSPDVNLKALASQTPGF 
 >PredictedProphage1 -Hit 2 
 DLRFDTYRSGGKGGQNVNKVETAVRITHQPSGIVVACQEERSQLQNKERAMKMLRAKLYDRQLAEQQEKRAGLRRSMVTTGDRSAKIRTYNYPQSRVTDHR 
 >PredictedProphage1 -Hit 3 
 LVAKLQQDNKRIQEELGKAQEELKSATVKMQTQERARSKIEAELLRLKPASRLLDTVTADSEGLWTGLRSAITEISKKDAALKEQLQIAEKKESEYQAGTTTLRSELDLVLKREQSGQIKALAQITELQKSLKTAEREHVAFAQQAAVKEAGWTREQDALKDALKKSETRFQATERTLTEYRKSEELFTASLAALHPAVPSLAGVEPKPVSVMKALFQELLEARQQLGRVSALEAQLKEEQAKNAASDKLDSRIGSLVEENRLLQEQLD 
 >PredictedProphage1 -Hit 4 
 LVFHGFTATTDSVSLLVDALHRTGVLVRAPLLAGHGASSPEALRGITCTDWLTDAEKAFSQLSASCEKIILVGHSMGALLALNLAVRHESRVDSLVLAAPAIKLYSIFSPGRPLYRFAPLLARVKKKWEMKTAIADRRYALGTGRYAWVPTDTILSFFLLIEKTISELGSVTVPLFILHNRRETTVMPESATILCNAIATGVSNKSIVWLEHSEHQMFCDSERELAVRAIVDFVDRR 
 >PredictedProphage1 -Hit 5 
 ATAYEETGIASWYGQETLLQHNGQATAYGEPFYPDKPSAAHKYLPLPSIVRVTNLDTSASIEVRVNDRGPFVDNRVIDLSAEAAKQLGFYEKGTARVKLEVI 
 



Prophage Finder Output

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

Genome size:  139799
Host's GC content:  48.44
Predicted Codon Position GC:  	1st:  56.69	 2nd:  39.78	 3rd:  49.65

 >PredictedProphage1 
 Length:   10360 
 Number of hits =   5 
 GC	Coding	First	Second	Third
 47.29 	 49.93 	 55.66 	 41.68 	 52.46 
 Codon Usage:
 AA	Codon	Total	Percent
 Leu	TTG	3	0.029126213592233
 Leu	TTA	2	0.0194174757281553
 Leu	CTG	28	0.271844660194175
 Leu	CTA	4	0.0388349514563107
 Leu	CTT	39	0.378640776699029
 Leu	CTC	27	0.262135922330097
 Lys	AAG	11	0.305555555555556
 Lys	AAA	25	0.694444444444444
 Glu	GAG	8	0.4
 Glu	GAA	12	0.6
 Gln	CAG	16	0.888888888888889
 Gln	CAA	2	0.111111111111111
 End	TGA	0	0
 End	TAG	0	0
 End	TAA	0	0
 His	CAT	4	0.5
 His	CAC	4	0.5
 Asn	AAT	26	0.604651162790698
 Asn	AAC	17	0.395348837209302
 Ser	AGT	5	0.0862068965517241
 Ser	AGC	15	0.258620689655172
 Ser	TCG	14	0.241379310344828
 Ser	TCA	8	0.137931034482759
 Ser	TCT	6	0.103448275862069
 Ser	TCC	10	0.172413793103448
 Trp	TGG	8	1
 Arg	AGG	6	0.193548387096774
 Arg	AGA	7	0.225806451612903
 Arg	CGG	2	0.0645161290322581
 Arg	CGA	4	0.129032258064516
 Arg	CGT	6	0.193548387096774
 Arg	CGC	6	0.193548387096774
 Ala	GCG	19	0.234567901234568
 Ala	GCA	23	0.283950617283951
 Ala	GCT	14	0.172839506172839
 Ala	GCC	25	0.308641975308642
 Cys	TGT	0	0
 Cys	TGC	2	1
 Asp	GAT	23	0.71875
 Asp	GAC	9	0.28125
 Gly	GGG	14	0.189189189189189
 Gly	GGA	27	0.364864864864865
 Gly	GGT	14	0.189189189189189
 Gly	GGC	19	0.256756756756757
 Phe	TTT	23	0.511111111111111
 Phe	TTC	22	0.488888888888889
 Tyr	TAT	9	0.5625
 Tyr	TAC	7	0.4375
 Met	ATG	19	1
 Val	GTG	6	0.122448979591837
 Val	GTA	11	0.224489795918367
 Val	GTT	15	0.306122448979592
 Val	GTC	17	0.346938775510204
 Thr	ACG	5	0.128205128205128
 Thr	ACA	11	0.282051282051282
 Thr	ACT	3	0.0769230769230769
 Thr	ACC	20	0.512820512820513
 Pro	CCG	5	0.25
 Pro	CCA	5	0.25
 Pro	CCT	7	0.35
 Pro	CCC	3	0.15
 Ile	ATA	9	0.183673469387755
 Ile	ATT	13	0.26530612244898
 Ile	ATC	27	0.551020408163265
 
 Left	Right	Strand	Best Blast Hit	Score	Evalue
 54564	54815	-1	ref|YP_195193.1|hypothetical protein	80.9bits(198)	3e-14
 58642	58980	-1	ref|YP_006374.1|ORF19 	94.0bits(232)	3e-18
 59275	59727	-1	ref|NP_817508.1|gp59 	75.5bits(184)	1e-12
 61731	62780	-1	ref|NP_932589.1|hypothetical protein	116bits(290)	6e-25
 64765	64923	-1	ref|NP_861743.1|RB69ORF053c hypothetical protein	41.6bits(96)	0.019
 
 DNA sequence:
 CACATTGGCTGTACCGGACTTAAAAAGCCCGATTCGCTTTGCCGCACCGGCGGAAAGGTCAATGATACGACCCCTGACAAATGGGCCCCGATCGTTGATGCGTACAACAACATCTTTACCGTTTCTGAGATTGATAACCCTGACCCAGGTACCAAAAGGCAGCGAAGGATGAGCAGCCGTCAGTTCATTCATATCAAAGGTTTCGCCATTGGCAGTCCTTCGCCCGTGAAACTGATTCGAATAATATGATGCCTTGCCTTCGGCAACACGCAGGAAAGTCCTGGATTTCGGTTGATCCGACAACATGCCGGAAGAACTTGCTGATGGTTGATTAGTTATGGATTGAATGGAGAATTCCGGTGGTTGTGCGCTACTGAAAGCCGGAAAAGTAATCTGGAGTGCGGTGTACCAGGCCCCTATCAAAAGGGCATAAAATGGGATGGTGAAATTTCGTTTTTCATCTCTCATTGTGCTAAGGTTTAATTATCTGTCCCTTAAACAGCATGCAAAAGAACAGGAAAATGAATAAATATCAAAATTATTATTCAACAGACAAACTTATGGCCTATCATTTAATATAAGATATTTTCTCGGAATATTGCAACCGGATGATAAAAAATCCCTGTAAACCGGCTTGCAGCGCATTAATCAGCGTACTTTAAAGAAATATCGGCATCTTATTTGCAGCGCTTTGCTACTTTAGTCAGAGAAACAATAAAATATTGATCAGGCATCGCAACCAGACTAATGCATAGTATTCATCGCACATTCATAACCGCAACAGTATTCATACTGGTTTTTACGCTTTCTGCACGTGGAGAATCACCTGAAGATTTCATAGAACTCGGGATCGTCAAGGGCCGTTCGGGAGATACCTCCGGTGCTCTTGACGATTTCAACAGGGCGCTTATCCTGGATCCAAAAAACTCGGGAGCATACTACAACAGAGGGTTGGTAAATGGCCAGCTTGGCAATTTCAGTGCTGCCATTGCTGATTATACCAGCGCTATCAAACTCAACCCTCATTTCCCGGGCACATATAATAACAGAGGCTTTGCTCATGCAGCAACGGGCAATTACAGGGCCGCAATTATTGATATATCCAAAGCCATTGCACTTGATCCGTTAATCCCGGAGCTTTACAATAACCGGGGGACGGTGAAAATGTCGTTGAAAGACTACATCGGAGCCATTGAAGATTTCACAAAAGCTGCCAGACTTAATCCGAAACTTGCCGGCCCCTTTAACAACAGGGGTCTTGCAAAAAGCCTTGCCGGAAATATTATGGGCGCTATTGAGGATTTCACGCTTGCGCTCGTCCGGGATCAGACCTATGACGCGGCATGGTACAACCGGGGTAATGCCCGTCTCTCTTCAGGAGATTTCAATGGCGCGATCGAGGATTACAAAAAAGCCCTTGTCCTTCAACCGGATCTTATTGAAGCATACAATAACAGAGCCTTTGCGAAAGCCTCACTTGGCGATTATCGAGGTGCTGTTGACGATATGAACATATTGATAGAAAAAGGAACGGAAAATGCCATGACTTATTATAATCGGGGATTGGCAAAAAAAATGCTGGGTGATCTGAACGGAGCTATTGCTGATTTTCTAAAGGCATCAAACCTTGGCGATACGCTTTCTGTTTCAGCGCTGCGCGAGATGGTCAAATAACAATACTCCTGCTTGAAAGGGCCGCTCTGATTATTGTCGCAACCAATCTCTATGGGAGTCGGATGTAATCCCGAATTTTCCAAACCAACCGAACTACAAAATGGCCGAATAAAGAGAGCTGCCCAATAATTTTAATGCGTATAAATCCTTTGGAACTGCCCGCTCTCACGCCATCCCTTCACAAAAATTTTCAGAGCTGCCGAAAACTTATAGCGGAAAAAAAATCGTTGTACTAAAGGAGATCCATACCCTTCAACTCTTGTATTCTTCTTTATGCGACTAATTCTTATGACCGGAAAAGGTGGTGTTGGAAAAACATCCATGGCTGCAGCTACCGGACTTCGGTGTGCCGAACTTGGCTATAAAACTCTCGTTCTCAGTACTGATCCTGCACATTCGCTGGCCGACAGTTTTGATATGGCGCTCGGTCACAACCCCAACAGAGTCTCGAATAATCTTTGGGGCGCAGAGCTCGATGTTCTCAAGGAACTCGAACAGAACTGGGGCACCGTGAAACGATATATAACCGGAGTTCTTCAGGCAAGGGGTCTTGAAGGTATTCAGGCAGAAGAACTTGCCATCCTTCCGGGAATGGATGAAATTTTCGGACTGGTGAGAGTATTCCGCCACCACAAGGAGGGCGACTACGATGTGCTTATCATCGACTCAGCTCCTACCGGAACAGCATTGCGACTTTTAAGCATTCCTGAGGTAGCCGGCTGGTATATGAGAAGACTTTACAAACCTTTTGAAAAAGTCGCGCTCTATCTCAGACCTCTTGTCGAACCGATCTTCAGACCTCTTGCCGGCTTTTCCTTACCAGACAAAGAGATGATGGATGTGCCATACGAATTTTATGAACAAATCGACGCTCTCGGCAAAATCCTTACCGACCACGCCGTCACATCCGTCAGACTTGTCACCAACCCAGAAAAGATGGTTATCAAGGAGTCCCTTCGCGCTCACGCCTATCTTGGTCTTTATAACATCGCTGTTGATCTGGTCATTGCCAATCGGATCATACCGCCAGAGGTCACCGATCCCTATTTCACATTCTGGAAAGAGAATCAAACGCTCTATCGACAAGAAATCCAGGATAACTTCGCGCCCCTTCCCGTCAAGGAAGTCCCACTCTATTCTCGTGAGATATGCGGCATGCAGACCCTCGAAAAACTCAAGGAGATGCTTTACGGTAACGAAGACCCTGCACAAGTCTATTATAAAGAGCAAACATTTCAGATAAAACAGACAACCCAAGGATTTACTCTGGAGCTCTATATCCCCGGAATTCCAAAGGATCAGATTCAGTTGGGAAAAAATGGTGACGAACTGCACGTCCGCATAGGTAATCACCGCCGCAATATGGTGCTTCCTCAGGCACTCGCCTCACTGAAAACTACCGGAGCGGAAATGGATGGAGATCACCTCATCATCCATTTTGTTGAACCATAAACCATGCGCTCATTTTTTATTTTTAAATAACCGTCAAAAAAAAAGTAAGTTAAAAGTTTTAACACATAAAAGCATCTCTCATAATTGCCGGGAGCGCTTCGAGGGGCAAACGGACTGAGTTCCTTTAATCGCCATAAACCAAAAAAAACCGGACCCCCGACAAATCGAAACACAACCAGCGTTCGATTCGCGGAAAAAAATAACGAGAGATGCCTGAATACCCAGTTAAACAGTCCGATAACCAACAAAAAAGGAGGTCGAGATGATACAGTTCAGGGTTGGTGATCCCATTGTTTACCATAAGCCAAAAACATCCTTTAGTCCAGGCCCGAGAGCAAAACAGGTATACCCTCTCCAGCATGGTGAAGATTATCACTATGTGGTAGACAAGTTCTGGACAGTTTCACAGGTTAACCGTGACGGAACACTTGAGGTAACAACCAGAACCGGTAAAAAGCATTTGCTTGATGCTGGCGATCCGAATATTTGCAAAGCACACCTCATCCAGCACATCCTCTTTCGAAAGCGCTTTCCGTCTTTAGCTGACTTGCTGTAACGGGAGTTCCGAGGCAGCGGCGAAAACCCGTTTCCGTTTTATTTGACCGTCATTCTTACATCGGCGGTTCAACCATGTAACAGGCATCAAAACAGAAGAGGACAGAACTCTTACTGGCCATTACTCAACGTAATGAACGTCAGGGTTACAGAAAAGGTGTTCACGCCTTACCTGAGAACAACGGACAAGCTAAAAAACCGTTTTCCACGGGCTATCCTCAGACAATGGAAATCGCCAGAAAAAGCACAACAACAGATTTTCATCCTGCACGTACTACGCATAAAAAAAGCAGCCTTATAATCTGACTTATTCGGCTGCTTTATGATAGTAAATGGTAACGGCCTAAGGCTTAACAAATGTCGCTCCCTTTATAACCGCCCAACTCTGCGTCGCATTCTTGCCGGATGGAAGAATGGTGTCCGGTGAGATGATCGCATTTTTCAGGTTAGGCTCCACGAGATTTGCTCCCTTAAGATTCGCTCCGGAAAGATTTGCTCCCTCAAGATCTGTCTCAAACAGGGATGCTCCGCTGAGATTAGCGCCGCTGAGATTGGCATCCTTAAGCATAGCTCCGAACAGGTTCGCTCCGCTGAGATTGGCATTGCGCAGATCTGCCCCTTCCATGAATGAACGGTCAAGATTCGCTCCGGAAAGATTTGCCCCCTGAAGTTTAACTTTTTTCATATCCGCTTTCTGGAAATCGGCTTTACTCAGATCGGCCCCCTCCATCATGGCCTCGTCAAGATTTGCATCCTCGAAATCGGCACCAGGCATCGAAGCTTTCTGCAAATTCACTCCCTTCAGCCTTGCATTTTCAAGTTTTTCCTCTTTCAACTCTATTTTCAGCTCAGGATTGGCGGCACGCATGGTATTCCAGGTTTCGACATCATCAACCATCAGCGCTTGCTGCTGTTTGCTGCCCATCACTGCCTGACCGGAGGAAGCGGATGCGGACTTCAGGCCTGCCGATGGGGATGCAAATACCATAACCGGAAGGGAAGCATAAACCGGCATTGCCGCATCCGCTTCTTTGATATATTCAGCATCGCGTATCGCAGCCCAAGACGCTGTTGCTTTTTCACCAGAAGGCGTAATGGTGTTACTGGATATTTTTGCTCCGCTGAAATTGGCATTTCCAACATAGAGCGCACCCTTGAGATTGGCGCCCCGAAGATCAGCATCAACAAAGCTGGTTTCAAACAGAACGGCATCCTGAAGGTTCGATCCTGCAAGATCTGCCCTGTGAAATCTTGTCCATCTGAGATTAGCGCTTTGAAGATTCGCTTTTTGAAGCATGGACTTCTCCATGAATGCTTCTTTAAGATTCACCTTGACAAGGTAAGCCTCACGCAAGTCGGCCCCTTTAAGATCCGCTTTTTTAATAAACGCCTGCTGAAGGTTTGATCCTCGTAAATCGGCATTGTTCAGATTAGCCCCGCTCAACTCGGCTCTGACAAGCGAACTGTTGCTGAGGTTCGCCCCCTCAAGATCGGCATCTTCAAGTTTTGCCTTGTCAAGATCAACAGGCTGCATGGAATGCTGCTGGCGAAAGGCGTTCCACTCTTTCGGACTTTTCACCAGCAGCTTAACGGCATCAGGATCAAACCCGATGGCTGATGAAACTGGAAGAAAACCCGAAACGGTTAAAAGAACGATACCTGCAAGGTGCCAAATCTGTTTCATAATGAATGGTTTTGATTGTTTTCACTGAGCTTTCTTTTTATTGGACTTAAGCCTGTCAGCACCAGTGCGTTCTTAAAAGCACAACGGACAATATTCATGAAAAGTAATGAAATAGAAAAAGAGTAAAGAAACTTAATTGCATGGGCCCCCGTTATCACTTGTATTGACCATGCAATGAATACTATCAACTATCTTACTATTACATAATGAATAATACTTGCGACTATAGAGGAACCGTACTGGTAGCAGGATCGACCGGCAAAACAGGACTCTGGGTAGTCAAGCGTCTTCAGCACTATGGAATCCCGGTACGGGTACTTGTCCGATCCGCCCGGAAGGCTGCGGTATTTGGCAACACCGTTGAAGTGGCTGTAGGTCTTGTGCAAAATTCTGCCGATCTGACCGAAGCGGTAAAAGGCTGTGATGCTGTTATTTCTGCGCTTGGCTCAAGCCAGTTTTTCGGTGAAGCTTCCCCTGCCGAGGTCGATCGCAACGGAGCTATACGGCTTGCCGACGAAGCATCTAGGATGGGAGTAAGGCATTTTGCGATGGTCAGTTCCATTGCAGTAACCAGATGGTACCATCCGCTGAATCTCTTTGCTGGAGTGCTCTCCATGAAGTATGCTGCCGAAGAGCATGTCAGATCGTTGTTTTCCCGTGAGAACCGGAGTTACACGATTGTACGACCGGGAGGGTTGAAGGATGGAGACCCGCTGCAATTCAGGCTTCACGTTGACCAAGGCGACAGGATATGGAACGGATGGATAAATCGTTCAGATGTTGCGGAACTGCTTGTTGAGTCCTTATGGCTCGAGAGTGCAAAAAATAAAACGTTTGAAGTTATAAATGAGGCAGAAGAGGTGCAGGAGTCTTTGGAGCAATATTACGGCAAGCTGTCCAATTGATACGTTAATTTCTAAAAGTCATATTATACGCCGCTTGGGGTGTGAATGCGCATTAAAAGCGGCAAAACCTTTAATAATTTCAAGTGCACCAAGCTTATCCTTGAAATTATTAAAGGTTTTACTGCTAAAGCTTTAAACGAAATGCCATAGGATAAAACAGGCTCTTTATGTCACTCGAATCGTCTTTTGATTTCTTTTGTCGGTGTTGCATAACCTCCCTTATCTGGAGATGATCCCTTGATATCAACAGAAGATCCCCCGCCATAAATATATGGATATGCATTCCGCAGGAGGCGTTTTGTTGTTTTACCCACATTTTCCATACAATCACCGGTTACCCACCAGTGTCCGTCAGTAAATATTTCAACAAAGCGTCCATAGGCTTCAGCCCATTGTGTAAAAGCGCCTGATATCTTACTCATTTTTCTCTGTTTCTTTTTGCATTAAAAGAAATTCATAGATAAATGTAGTAAAATATGGCTTGACTGCAAAAGCATTTTTCATGTGATTAGAACAAACCTGAGAGTGTTTCTTTTACGATTGTTCACCTTTCGACATTATACTCCTGAGCATAGTGTTGACCAGGATAGTTATCATGATATTTACAGAAACGGAAACGAGAATATACCATGTCCAGGCAATGCCATAGAGCTTGAGCACGAATACAATCCCCATGCTCGCAAGCAGGCCTATGGCAAGGCTTGCGGGATGATATTTTTGTGTTGTTTTTGACAGCAGGAAGAGCCCAAGCAGTCCGCCATAGGTGAATGATGCTATTTCAAGGCCAACCATGATGATTGCTTTGTCGCTTTCATCGAAAATAAGCGCGATGCCAATGAGTACCACTGCCCATCCAGCGCTGATGAGTTTCGAGAAATTGAGCGATACCCGTCCTCCGAGCAGATCGGTAACGGTGGACGCAGCAAGAGAATTGATCGACGATGCTATGGTTGACATGGCGGCGGAGAGAATTCCGGCAAGCAGTAACCCCTTCAATCCCGAAGGGAGGTAGTTGACGATGAACGATGCGAACTCACGGTCTTTTTCCGTTACCGAGCCCTGCATGAATAGGTACATGAGCGAACCGGCGAGCAGAAAGATCATGAACTGAAAAAAAACGAAAAATCCGCTCCCGATAAGGGCTTTGCGCGCTGACCCGAGATCTCTGCAGCCAAGAACGCGCTGAACCATCATGTAATCGATGCCGTGAGATGCAAGCGAAAGGAATATTCCGCCGGTAAAGGCGCTGCCAAAGGTCATGGGATTAAAGAGAATGTTTCCTCCGGTGTTCAGCACTGCAAGTTTTCCTGCGTCGGCAAGCGCTGCGAACGTTTCCTGTGGGCTGCTTTCCAGATGCAGCAGGATAAAGGCAATAGTGATAATTCCACCGAGGAGATAAAGACCGAACTGGATACTGTCGAGCCATACGACTGTTTTCAGCCCTCCGGTTATGGTATAGACCAGTGTGACGACACCTATTATCATGACCGAGACAGGGAGAGACCAACCGGTTACGACCTGAACGACTACTCCCGTTGCGAGGAAGCGCACTCCATCGCCAAGAATTCTGGTGACCAGAAATACGATCGACGCAAGTTTCTGCATGCCGGTGCCAAATCGTGAGCCGATCACTTCATAGATTGAAGTTACGCCGTTTTTGAAATAAACCGGCAGTAGAAGGATACTGACAAGTATTCTTCCCAGAATGTAGCCTAGCGGAAGCTGCAGGAATGTCCAGTCCCCACGGTAGGCAAGCCCCGGAACGCTGACGAAGGTCAGTACCGATGTTTCTGTCGCGACGATAGAGAGCATCGCTACGATCCATGGAAACTTGTGGCCTCCGAGGAAGTAATCTCCTGTGTTTTTGTTGCTTTTGCCCTGCCATAGACCGAGCAGGATGCTTCCTGCAAGAAAGAATACGATGATAGCAATGTCAAGTGCCTGCATGGATAATTTCAGTTATATCCGTTATCGATAAAGATGGTACTGTTCTTTCGTCACAAGAAAAGCGGTTTCATCCTGTTGCCAGGAGCTGATGATTGATGGCGTGTCATTGCCATCGAGCAGCGCATGTCTGACACTGTCGGTTCCTGCAAGAAGATCGAACGCCGGAATGGTGTCGTTGAATTCATAGACGCCATCGAGAAATCGCAGATCGACAGGGTAAAGCTTATGGAGCGCAGCAGTGAGAGCGACAGCTGTAGCAAAGGGACGGAAGCGGTTCTGATCACATACATGTATCCAGAGACCGCCGATCGCCTCTCCCTGGAATTTATGAAATGTAGGTTTGAACCATGTTGGACGGAGATAGATGCCTTCGAATCCCGTACCCTTGCACTGTTCCAGGAGATGGTTCGGGTTGATGAACGGTGCTCCAAGGAGCTGGAATGGCGTAGTCGTTCCTCTTCCTTCCGATGCGTTCAGTCCTTCGAAAAGGCACATACCGGGGTATACTGCCGCAGATTCGACTGTCGGCATGTTTGGCGACGGTGGTACCCAGGGGAGGCCTGTTTCATGAAAAAGCATCGTGCGGCTCCATCCCCGCATGGAGAGTACGGAGAGCCTGATATCGAGTTTTTTCCAGTCGCGGTAGAGAAGTGCGAGCTCTCCGGGTGTCATTCCGTGACGCACAGGAACGGGAAAGATGCCGACGAAAGAACGGTAAGCCATGTCGAGCAGCGGTCCTTCAACGACAGCACCCCCAAGCGGGTTCGGACGATCAAGCACCATAATTTCCAGATCCCTGCCTGTCGCTGCCTCCATGAACAGGGCTAACGTGTTGACATAGGTGTAATAACGGGCGCCGACGTCCTGAATGTCGAAAAGTATAAGGTCTAGATCGTCAAGTGTGGTGCAATCGGGAATAAGGGTATCGGAGGAACTTCCGTAGAGGCTTACCAGTTCGATATCCGGCACAGGCTGTGACCCTACAGCGATCTGGTCCTGTTCGGTTGCGAAAAGGCCGTGTTCCGGCGAGAATATCTTTCTGATGTCCAATCCTTTTTCACGAAGTACGTTCCATGAGTAACGAAGGTCTGATGTGACCGATGTCTGGTTTACAATCATGCCGATAGTCCTGTTCCGGTAACCGTCGATGTTTTCGAGAAATATATCAAGACCTGTTTTTACCATGGCGGTGGCTGGGTTATTGGTTGGTTCACGGGATCGTTTGCAGAGTGTTCTCTCTGTCGCGGATACTGTTGAGGAGACATTCCCCTTCAGCGACTACGGCGCCGGGCAGAAGTACCGAGTTTTCAACAACAGCGTTCCTGCTGACCATGCAGCGGGAGCCGATAACCGAGCGTATGACTCTTGCCCCGGAGGCTATCCATGCGTCCGCTGCAATACGGTGCGGTTCGATGCCGATGGCATCGCGAACTCTGCGGGTAAGTCGTTCAGGAAGCATGCCCTTGCCGTTGTTTGCATCGAGGTAATCTTCCGGAGTGCCGATATCCATCCATGAACCGGAATGTCTGAAAGCGCCGAGTCCGCCGTGATCGATCAGTCCGGTAAATCCTGTATCGACAATGCTTGAAAAATCTTCGTTCAGATAGCGGAATATTTTGGGACTCAAAAGGGCTGTTCCAGTATAGATCAACGATGATTTCAGGCCGGTATTCCGCATGTTGCGGAAATCCTTCACCTGACCGTTTTCGATGCCTATGCAGCCGATAGCCATGGCCTCAGGCGTTTCATAGAGTGCAAGTGTGCCGGGCAGACCCGATAGCTTATGGTGTCGAATGAAGGCCGAAAAATCTATATCGGTTATGATATCGCTGTTAATGAGAAGAAAATCTTCGTCGTCGAACAGTTGTTCGCATTTCTTGAGACCTCCCCCCGTACCAAGGATTGTTGTCTCTTCAGAAAACGAAATCGCAAGCCCTTCAATGCCAAAAGATGCCACGCTCTCGCGGACATCATCTGCATGATGATGGATGTTGCAGATGATATCGGTAATACCGGCATCCTTAAGCAGAGCGAAGGTATAGAGCAGAGCGGGCAGATTCAGTACCGGTATGAGAGGTTTGGGAATACGATGGGTAAATGGCCTGAGCCTTGTTCCGAAGCCTGCGGCAAGAACGAATGCTTT 

 Predicted Gene Sequences:
 >PredictedProphage1 -Hit 1 
 GCATCATATTATTCGAATCAGTTTCACGGGCGAAGGACTGCCAATGGCGAAACCTTTGATATGAATGAACTGACGGCTGCTCATCCTTCGCTGCCTTTTGGTACCTGGGTCAGGGTTATCAATCTCAGAAACGGTAAAGATGTTGTTGTACGCATCAACGATCGGGGCCCATTTGTCAGGGGTCGTATCATTGACCTTTCCGCCGGTGCGGCAAAGCGAATCGGGCTTTTTAAGTCCGGTACAGCCAATGTG 
 >PredictedProphage1 -Hit 2 
 GCCATGATGGAGGGGGCCGATCTGAGTAAAGCCGATTTCCAGAAAGCGGATATGAAAAAAGTTAAACTTCAGGGGGCAAATCTTTCCGGAGCGAATCTTGACCGTTCATTCATGGAAGGGGCAGATCTGCGCAATGCCAATCTCAGCGGAGCGAACCTGTTCGGAGCTATGCTTAAGGATGCCAATCTCAGCGGCGCTAATCTCAGCGGAGCATCCCTGTTTGAGACAGATCTTGAGGGAGCAAATCTTTCCGGAGCGAATCTTAAGGGAGCAAATCTCGTGGAGCCTAACCTGAAAAATGCGATCATCTCACCGGACACCATTCTTCCATCCGGCAAG 
 >PredictedProphage1 -Hit 3 
 GGGGCGAACCTCAGCAACAGTTCGCTTGTCAGAGCCGAGTTGAGCGGGGCTAATCTGAACAATGCCGATTTACGAGGATCAAACCTTCAGCAGGCGTTTATTAAAAAAGCGGATCTTAAAGGGGCCGACTTGCGTGAGGCTTACCTTGTCAAGGTGAATCTTAAAGAAGCATTCATGGAGAAGTCCATGCTTCAAAAAGCGAATCTTCAAAGCGCTAATCTCAGATGGACAAGATTTCACAGGGCAGATCTTGCAGGATCGAACCTTCAGGATGCCGTTCTGTTTGAAACCAGCTTTGTTGATGCTGATCTTCGGGGCGCCAATCTCAAGGGTGCGCTCTATGTTGGAAATGCCAATTTCAGCGGAGCAAAAATATCCAGTAACACCATTACGCCTTCTGGTGAAAAAGCAACAGCGTCTTGGGCTGCGATACGCGATGCTGAATATATCAAA 
 >PredictedProphage1 -Hit 4 
 ATGCAGGCACTTGACATTGCTATCATCGTATTCTTTCTTGCAGGAAGCATCCTGCTCGGTCTATGGCAGGGCAAAAGCAACAAAAACACAGGAGATTACTTCCTCGGAGGCCACAAGTTTCCATGGATCGTAGCGATGCTCTCTATCGTCGCGACAGAAACATCGGTACTGACCTTCGTCAGCGTTCCGGGGCTTGCCTACCGTGGGGACTGGACATTCCTGCAGCTTCCGCTAGGCTACATTCTGGGAAGAATACTTGTCAGTATCCTTCTACTGCCGGTTTATTTCAAAAACGGCGTAACTTCAATCTATGAAGTGATCGGCTCACGATTTGGCACCGGCATGCAGAAACTTGCGTCGATCGTATTTCTGGTCACCAGAATTCTTGGCGATGGAGTGCGCTTCCTCGCAACGGGAGTAGTCGTTCAGGTCGTAACCGGTTGGTCTCTCCCTGTCTCGGTCATGATAATAGGTGTCGTCACACTGGTCTATACCATAACCGGAGGGCTGAAAACAGTCGTATGGCTCGACAGTATCCAGTTCGGTCTTTATCTCCTCGGTGGAATTATCACTATTGCCTTTATCCTGCTGCATCTGGAAAGCAGCCCACAGGAAACGTTCGCAGCGCTTGCCGACGCAGGAAAACTTGCAGTGCTGAACACCGGAGGAAACATTCTCTTTAATCCCATGACCTTTGGCAGCGCCTTTACCGGCGGAATATTCCTTTCGCTTGCATCTCACGGCATCGATTACATGATGGTTCAGCGCGTTCTTGGCTGCAGAGATCTCGGGTCAGCGCGCAAAGCCCTTATCGGGAGCGGATTTTTCGTTTTTTTTCAGTTCATGATCTTTCTGCTCGCCGGTTCGCTCATGTACCTATTCATGCAGGGCTCGGTAACGGAAAAAGACCGTGAGTTCGCATCGTTCATCGTCAACTACCTCCCTTCGGGATTGAAGGGGTTACTGCTTGCCGGAATTCTCTCCGCCGCCATGTCAACCATAGCATCGTCGATCAATTCTCTTGCTGCGTCCACCGTTACCGATCTGCTC 
 >PredictedProphage1 -Hit 5 
 AAAGCATTCGTTCTTGCCGCAGGCTTCGGAACAAGGCTCAGGCCATTTACCCATCGTATTCCCAAACCTCTCATACCGGTACTGAATCTGCCCGCTCTGCTCTATACCTTCGCTCTGCTTAAGGATGCCGGTATTACCGATATCATCTGCAACATCCAT 
 

 Predicted Protein Sequences:
 >PredictedProphage1 -Hit 1 
 ASYYSNQFHGRRTANGETFDMNELTAAHPSLPFGTWVRVINLRNGKDVVVRINDRGPFVRGRIIDLSAGAAKRIGLFKSGTANV 
 >PredictedProphage1 -Hit 2 
 AMMEGADLSKADFQKADMKKVKLQGANLSGANLDRSFMEGADLRNANLSGANLFGAMLKDANLSGANLSGASLFETDLEGANLSGANLKGANLVEPNLKNAIISPDTILPSGK 
 >PredictedProphage1 -Hit 3 
 GANLSNSSLVRAELSGANLNNADLRGSNLQQAFIKKADLKGADLREAYLVKVNLKEAFMEKSMLQKANLQSANLRWTRFHRADLAGSNLQDAVLFETSFVDADLRGANLKGALYVGNANFSGAKISSNTITPSGEKATASWAAIRDAEYIK 
 >PredictedProphage1 -Hit 4 
 MQALDIAIIVFFLAGSILLGLWQGKSNKNTGDYFLGGHKFPWIVAMLSIVATETSVLTFVSVPGLAYRGDWTFLQLPLGYILGRILVSILLLPVYFKNGVTSIYEVIGSRFGTGMQKLASIVFLVTRILGDGVRFLATGVVVQVVTGWSLPVSVMIIGVVTLVYTITGGLKTVVWLDSIQFGLYLLGGIITIAFILLHLESSPQETFAALADAGKLAVLNTGGNILFNPMTFGSAFTGGIFLSLASHGIDYMMVQRVLGCRDLGSARKALIGSGFFVFFQFMIFLLAGSLMYLFMQGSVTEKDREFASFIVNYLPSGLKGLLLAGILSAAMSTIASSINSLAASTVTDLL 
 >PredictedProphage1 -Hit 5 
 KAFVLAAGFGTRLRPFTHRIPKPLIPVLNLPALLYTFALLKDAGITDIICNIH 
 



Prophage Finder Output

Genome file:  temp/chlorobiumphaetolc.txt
Sequence Header:  >Contig88

Genome size:  162474
Host's GC content:  47.54
Predicted Codon Position GC:  	1st:  56.13	 2nd:  39.53	 3rd:  48.13

 

Prophage Finder Output

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

Genome size:  205960
Host's GC content:  47.68
Predicted Codon Position GC:  	1st:  56.22	 2nd:  39.57	 3rd:  48.38