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PHAGE-B9--F01_F01_final_61

Organism: F01_LAK-phage_B9_26_172

(manually assigned) RP 0 / 55 BSCG 1 / 51 ASCG 1 / 38
Location: comp(58252..63300)

Top 3 Functional Annotations

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Value Algorithm Source
DNA topoisomerase (ATP-hydrolyzing) {ECO:0000256|SAAS:SAAS00075954}; EC=5.99.1.3 {ECO:0000256|SAAS:SAAS00075954};; species="Bacteria; Tenericutes; Mollicutes; Mycoplasmataceae; Mycoplasma.;" source="Mycoplasma penetrans (strain HF-2).;" similarity UNIPROT
DB: UniProtKB
  • Identity: 26.9
  • Coverage: 772.0
  • Bit_score: 198
  • Evalue 7.50e-47
DNA topoisomerase IV subunit A Tax=Mycoplasma penetrans (strain HF-2) RepID=Q8EVB9_MYCPE similarity UNIREF
DB: UNIREF100
  • Identity: 26.9
  • Coverage: 772.0
  • Bit_score: 198
  • Evalue 5.30e-47
DNA topoisomerase IV subunit A similarity KEGG
DB: KEGG
  • Identity: 26.9
  • Coverage: 772.0
  • Bit_score: 198
  • Evalue 1.50e-47

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Taxonomy

Mycoplasma penetrans → Mycoplasma → Mycoplasmatales → Mollicutes → Tenericutes → Bacteria

Sequences

DNA sequence
Length: 5049
ATGGGAAAATTAAATAAAGACGAGCTTTTAGCAGGTGTTCGTAATATTATTCAAGAAAGTTTTAATAGAGATACAGAAAACTTTGATGGCACTACTAAGTTCAATATTCATAGATATGTGAATGGTCTTATCGAAGAAGGTCATAAGAACCCCGATTTGATGAACTATTTGGTTGAATATAATAACGCACTTTCTAATGGTGCATAGGACTTTATGCTTTTTGAACAGTTCGGACAAGGACTTACTAAATATGCAAAAGGCAATAAGTCTGTTAAATCTGTTATTGAGCAGATGAACAATACCTTAGCAACAGATGGTGCTAATCTTGTAGGTTATCAACTTATTGAACAACTTAATGATCCTTATATAAAGGATGAGGTTAAGTATGCTTATAATCAATATGTAGCAAATAAATGTCAGGAAACAAAGGATACATTGGTAGATGTATTGTCACCGCTTGTAGAAGAAGGAAATCCTATTGCTACAAAATTAAATATTCTTATTACAGAAGAATCTTCAATGTCCGCTAATTTTATTCATGCAGATTATGTAAATGAATCAGAACAAAGAGATTTTGAGAAGAAGCTTCAGGAAAAACGTGATAAGAAAACAATGGACCAAATTTTCTCAAAGGTCCAACGTTATATCGATGAAAAACTTGATGAAGATGAAAAAGCAAAGTTAACAGAAAAAGAAAATTACTGTTTGAATGCTATTGCTAATAATCAAGGTATTAATCTTTCCGAACATATTAATAATATCCGTCATTCAGACGCTTCTTCCAACCAACGTCTTATGGAGGTTATTAATCTTTATTCAAACGCAATTAATCAAGGTGCATATGAAGAGAGACTTTATGAGACTTTCCTTCAGAACGTATCTAAGTTTAATTATCTTCTTCCTGTTAGTAAGGCAATGAAATCTATTGTCGAGAAAGTAGATTCAAAACGAGAGGAAATCACACTTACTAAGATTTTGGAGGAAATGAAGGATGATCATTCTTCATTCATTTATGTAGATCTTATTCAAGAAGATGTTGCACGTTATGTAAAGGAGCCAAATGCAATTAATAGAGTTCAGTTACGTAATGCTTTAATGCCATATGCTTCTGATCCATATATTAACGAAATGTTCAATGTTATTTATTCTGATAACTCACGTAGAGCTAATGAACTTACAGAGAAAGCATTGAATATTAAGGACCAAATTAATATTATTAGAGAGAACGCTACAGTTTCTAACATTTATACACCAGTACAATATGTTAAGGAAAATGAAGCAATTTTCAATGTTAATGGTCAATTCTATGTAAAGAAAGGAAATAACATTACAGTTCTTGATGAGAAGTATGTAGATGAACTTGATGAGAGATTTGTTGAACTTTGTAGACTTGTAAATGATCCACATGTAGAGATTAATGAGGATAATATTATTCTTCATGGTAATGATAAGTATGCTACGATTTATGAAGGCTATGTAGACCTTTATGGACATAAGGAGTCAAGAGAGTCACTTCGTAATCTTAGAGAAATGTGCATGAAGTATGATGATTACGATACAAACTTCTATATTATGTGTTCATGCCTTTTGGAGAACTTTAATAATATCGCAAAGATTGATTGGGCAAAGCATGTAACTCTTAATGAGAATAATAATATTAATGCAGATTTGTTTAGACTTGACCAAAATATTTTCATTGCAACTCATAACGATGCTATTGGACAACATACATTCTATAGAAATGTAAATCCTATTTTCTGTAAGAATAAGTTGAATGAACATATGGGTATTAACGTATCTTCATTGTTTAGTGATTTGCTTCCATCTCAAGATAAGATCATTCTTAAACTTAATGAGACAAAGAATCAATATGAAGATTCTATCGAGAAATATGAAGATATGATTGATAAACTTAATAAGGCTCTTGAGTCTGCTTCTGATGAAAATAAAGAGAAACTTGAGAAAGCTATTTCTGACGCAGAAGAGAAACTTGATGATATTAAAGCTGAATATAAAGAATGGCAAAAACAAGCAGATGATGCAACAGGCGAAGATCATTCAGATGATGAAGATACTGATTCAGAAGCGGATACAGAAGATACAGATGATGATACAAATGATGGTTCTGTAACTAAGGAAAAACCAAATGAACCAATGTCTGATGATGAAGTTGACGCAAATAAAGATGAACTTTCACAACCGTTAAGTGGAGAAAATGGAGATTCTGAAGCAACTGATAACTTTAGTGATGAAGAGTCTGATGAATCTGATGATAGAGTATCTGATGATGAATTCGCTAAGTTCTTAGGTAGTGATTCTGATGATGAAGATTCTGAGGAAGATGGTACTGGTTTTGATGATGCTGCCGCCGATGCAATAGATGCTGATAATGATGAAACAGAAGATGAACCAGATTTTGAGGATTCAGATGATGAAGATTCAGATGAAGATATGTTTACTTCTGATGATGATAATGATCAAGATGATGAAGAAGCATTTAAGGAAGTAAGTTTCGATGACGATAATAATTCTTCAATTGATTCAGAGGACGATGACGATATTTTCGAACCAGAAGAAACAGAAGATGATACAATTTCTGATGAAGATAATGATGAAATGAATTCTGAAGATGATACTATTGGTGACACTTCTGATGAGGATGAACCTGAAAATACAGGTATGACAACTGTTGATATGGGTACAGATGATGAAACGTCTGATGATGAAGTTGCTGAACCAGGTGACGAAGCTACAGATGTATTTGGTGGCGATACAGAAGATCCTCTTGGAACAAATACGGATGTTGAAGAAAATCCAGAGAATACACCTAAAACAGAGGAAGAAGAAAAAGAAGATGCATACCAACCTAAATTCTCTTATAAGATTGCAGATGTAATGTTTGATGAGAATGTTAAGGAAGGTAAGAAAGAAAAATCAGGTTCTGTTATCGTAATCGTTCCTATGATTGATGGCACAGGTAAGAAGTATGTAGAGAACAAGACTATAGAATTCTATCTTGATGATAACAATAATCCTATTCTTGATAACGAACCTATGACTAATGAACTTTATGCCGCTGTTATCGACGCAATTAAGGGACATCCTGATTATACATCTATTTGTGATACTGCTGAACCTGCAAATGAGGAAGTTGGTCCAACAATTGCCGCTTTACGTGGTTCAGATGATGACAATGATGAAGATTGGGAAGATGCATATTTAAGAGACGGTAATGATGAAGACCGTGATGTATTTTCACAGAAACTTGATTCTGATGATGACGATGATGATTGGGAGTGGGATTATCCTTTAAGTAAAATGGAAGATGATGAAGAATCAAATGAAGATGATTCTGATGACGATGATACTTTTGGTTTTAATATGAAGGAAGTAGATGATGCTGATTCAGACGATGAAGATTCAGACGATGAAGATGTAATTATTCCAACATATAAATCAGGTAATACTGAGATTGAATTACCAGCACCTTCCGCTGATGGTACAGAGATACCAGAAAAGAAAGTAGTAAAAACTGATAAGAAACCTTTAAAAGAACATAAATCTATCAAGATTACACCTGTATTCAAAAATAAAGCAGGTAAAAGTTTTTTCTTAAATGAAGCTACCATCAAGGCTTCTAAATCAAAGGATTAGAAAGGTACTCCTCTCACAGAAGAGATAATTGATGGAAGTACCACAAACGAGATTTCTACATCCGATTCTAAAGGTAATGATCCAATAGAAGATTATAATGAAGAAACAGATTTTGATACATTAGGTAAAATGCATGATAAAGCAATAAAGTCTGCAGAAAAAGCAATTAATGATGAACATAATATAATTGTTACAGATATTGATTCTTATGGTGAAGATTCAGATACTGTAAAGTATTTCGTAATATCAGAAGAGTATGATGGTGATTCTGAATCATATGCAATATATCAAATTGGTGCAGATATTTATTACAGGGATGCAAAAGAATTTTATCAAATATTAGAAGATTTCAAAGATGAAGTTCCTGGACAAACAATAGAGTCTTTAAAAGTTGATTATTCAGATAAGGGTGAACAACTTACATCTTATAATATAACTGATACTGATGATTGTATGTTTGTTGTTTCTTCTATATTCAGCGCATTAACAGGGAAATCATATGACGCTAATAATAAGTATATAAATGAGAATTGTAAGATTAAACGTTCAACAAAGGTTGACGCTGATAATGATCTTGATAATTCAAAAGCTGCAAATGATGCTAAATATGGTACGCAAGAAGATAACGATTTTAAATAGGAAATCGAAGATAAACAAAAGAAAGACGGTTTAGTTGGAGCATTAGATCCACAACAGGATGAAAATGAAGCAGTGAAACCAAAACTTCCTAATGTTAATCTTGTAACTGAAAAACAAAAGAAAAATCCTTTCTTAGAGGAAGGCGCAATTATTGAATATGAGGTAAATGATAAGATTCTTTATAAGAATGAACCATGGACTGTATATGCAGTTGAAGAAGAAACTGGTGATAAACAAAAGTTGAAGATTACAAAAAATGGTAAAACTATTGATGTAACTTCAAATGAGATTAAACCAGATCCTTCTCAATTCAAAGATATTGACAATACGCCAGATCAATTTGAATTTGATAAGAATAACTTGAATAAAACACCAGAAAATCCTAAAGCAGAAAAGATGAATGATTTGAATGGTAAAACTGTTGAATGCAATATAGTTGTAGACTCACAAGTTTTAACTAATACATTAAATGGTAAAAGATTCAAGGCAAATCTTAAAGATATTCTAGAAGGTGTAGATGATGTAAGAGTTTATGTTGATGGTAATGAAGAAACATGGCATAAGGATAATATAGACATTCCTGTTGAAGATTGGATAAATGCTGTTATTGCTTCAGAAAATGATGAACCATTACGTAAAATAAAAGTTAATCCAAAATCATATGTTGATACAACAGATGATACAGGATTAGTTGATTGTACAGTAGGCGGTAAATTAACATAGTTACCAAAGCATGCAATAAGAATTTTAGTTTAA
PROTEIN sequence
Length: 1683
MGKLNKDELLAGVRNIIQESFNRDTENFDGTTKFNIHRYVNGLIEEGHKNPDLMNYLVEYNNALSNGAQDFMLFEQFGQGLTKYAKGNKSVKSVIEQMNNTLATDGANLVGYQLIEQLNDPYIKDEVKYAYNQYVANKCQETKDTLVDVLSPLVEEGNPIATKLNILITEESSMSANFIHADYVNESEQRDFEKKLQEKRDKKTMDQIFSKVQRYIDEKLDEDEKAKLTEKENYCLNAIANNQGINLSEHINNIRHSDASSNQRLMEVINLYSNAINQGAYEERLYETFLQNVSKFNYLLPVSKAMKSIVEKVDSKREEITLTKILEEMKDDHSSFIYVDLIQEDVARYVKEPNAINRVQLRNALMPYASDPYINEMFNVIYSDNSRRANELTEKALNIKDQINIIRENATVSNIYTPVQYVKENEAIFNVNGQFYVKKGNNITVLDEKYVDELDERFVELCRLVNDPHVEINEDNIILHGNDKYATIYEGYVDLYGHKESRESLRNLREMCMKYDDYDTNFYIMCSCLLENFNNIAKIDWAKHVTLNENNNINADLFRLDQNIFIATHNDAIGQHTFYRNVNPIFCKNKLNEHMGINVSSLFSDLLPSQDKIILKLNETKNQYEDSIEKYEDMIDKLNKALESASDENKEKLEKAISDAEEKLDDIKAEYKEWQKQADDATGEDHSDDEDTDSEADTEDTDDDTNDGSVTKEKPNEPMSDDEVDANKDELSQPLSGENGDSEATDNFSDEESDESDDRVSDDEFAKFLGSDSDDEDSEEDGTGFDDAAADAIDADNDETEDEPDFEDSDDEDSDEDMFTSDDDNDQDDEEAFKEVSFDDDNNSSIDSEDDDDIFEPEETEDDTISDEDNDEMNSEDDTIGDTSDEDEPENTGMTTVDMGTDDETSDDEVAEPGDEATDVFGGDTEDPLGTNTDVEENPENTPKTEEEEKEDAYQPKFSYKIADVMFDENVKEGKKEKSGSVIVIVPMIDGTGKKYVENKTIEFYLDDNNNPILDNEPMTNELYAAVIDAIKGHPDYTSICDTAEPANEEVGPTIAALRGSDDDNDEDWEDAYLRDGNDEDRDVFSQKLDSDDDDDDWEWDYPLSKMEDDEESNEDDSDDDDTFGFNMKEVDDADSDDEDSDDEDVIIPTYKSGNTEIELPAPSADGTEIPEKKVVKTDKKPLKEHKSIKITPVFKNKAGKSFFLNEATIKASKSKDQKGTPLTEEIIDGSTTNEISTSDSKGNDPIEDYNEETDFDTLGKMHDKAIKSAEKAINDEHNIIVTDIDSYGEDSDTVKYFVISEEYDGDSESYAIYQIGADIYYRDAKEFYQILEDFKDEVPGQTIESLKVDYSDKGEQLTSYNITDTDDCMFVVSSIFSALTGKSYDANNKYINENCKIKRSTKVDADNDLDNSKAANDAKYGTQEDNDFKQEIEDKQKKDGLVGALDPQQDENEAVKPKLPNVNLVTEKQKKNPFLEEGAIIEYEVNDKILYKNEPWTVYAVEEETGDKQKLKITKNGKTIDVTSNEIKPDPSQFKDIDNTPDQFEFDKNNLNKTPENPKAEKMNDLNGKTVECNIVVDSQVLTNTLNGKRFKANLKDILEGVDDVRVYVDGNEETWHKDNIDIPVEDWINAVIASENDEPLRKIKVNPKSYVDTTDDTGLVDCTVGGKLTQLPKHAIRILV*