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ACD76_75_5

Organism: ACD76

near complete RP 48 / 55 MC: 10 BSCG 44 / 51 MC: 2 ASCG 0 / 38
Location: comp(6068..11116)

Top 3 Functional Annotations

View all annotations
Value Algorithm Source
transmembrane protein (fibronectin III domain and GP5 C-terminal repeat) similarity KEGG
DB: KEGG
  • Identity: 36.6
  • Coverage: 708.0
  • Bit_score: 429
  • Evalue 5.30e-117
transmembrane protein (fibronectin III domain and GP5 C-terminal repeat) rbh KEGG
DB: KEGG
  • Identity: 36.6
  • Coverage: 708.0
  • Bit_score: 429
  • Evalue 5.30e-117
Putative transmembrane protein (Fibronectin III domain and Gp5 C-terminal repeat) n=3 Tax=Legionella longbeachae RepID=D3HLW9_LEGLN (db=UNIREF evalue=2.0e-96 bit_score=358.0 identity=35.98 coverage=40.1663695781343) similarity UNIREF
DB: UNIREF
  • Identity: 35.98
  • Coverage: 40.17
  • Bit_score: 358
  • Evalue 2.00e-96

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Taxonomy

uncultured bacterium → Bacteria

Sequences

DNA sequence
Length: 5049
ATGAAAAACGCATTTTTTGCAATATTGGCAATTCTTGTAATTTCTTTGATTTTTGTTTCGTCTTATCCTTCTGTTTTAGCTCAACCCAGCGACCCGGACACTGGCCAATATGTGGTCAACGATAAAGTTCGGTCGATTATCCACGATGACGCGACCGGCATTACTTACCTTGGCGGGGACTTTACTGAAATTGGCGCGGCGCACGGCAGTGCTATTCCCGTGAAAGCGTCAACGAGTTTAGTAGTATCGCCGCACATTTCATTCATGGGACCGACCCTTGCGATTATTCCCGATGGCCTTGGCGGCTGGTACATGGGCGGAGCATTCACCAGTGTCGCCGGTGTGGCGCAAAACTACCTCGCGCACATTACATTTGAAGGCGCGCTTGAGGCTGGCTGGGATGAGCCGAACCAACCTGTGAAAGCGCTCGCGCTCTCCGATGACGGCAACACGCTTTATGTGGGCGGATCATTCACTGTAGTTGATGGTACTGTACGCAATCATCTTGCGGCTTACGATGTTGCGACAGGGCAGATAACAGGTTGGGATCCGAATGCTGACGGCGAAGTAAATGATATTGAGGTGAGTGGAGCGTTCGTATATGTGGGCGGGACTTTTTCTGCAATTACTGCAGTACCACGCAACGGTCTGGCCGCGCTTGATACCGTTGCCGGGCTTGCATCCCCTTGGGACCCCGATCCTGACACAGCCGACATTAGGGCGATTGAAATTAACGGAGCTACGGCTTATGTTGGCGGAGATTTTGATCTTATTGGCGGAGCGCCACGCAATAATCTTGCTGCGATTAGTGTGATTGATGGACTTGCTATTCCCGCCTGGAGCGCGAACACGGACAATGTTGTTTTGGCTCTGGAACACGATGGCACCACTCTCTACGTGGGCGGTAGTTTTACAACTATTGACGGTGTGGCGCGAAATTACATTGCTACAGTTGACGCGGCGGGCGTAGTAGATGCGGACTGGGATCCGAGCGCGAATGCTCGGGTTGAATCAATGGATCTTGTCGGGACAGCGCTCTATGTTGGCGGAAAATTTACAACTATTGGCGGTCAAACAAGAAGCTATCTGGCGCGGCTTGAGGATATTGCCACAGGTGATTTTACCGGCGACGCGACTGCTTGGAATCCGCACGCAAATGAAGGCGTAGAAACAATCGCGGTTAACGGCGACACGGTCTACATTGGCGGAACCGATCTCTCTAGTGCTAATGCCATTACCCGTAATCGCCTTGCGGCAATAGACGCGGACGGCATATTAACGACTTGGGACCCGGATGTGGACGATGTCCTTGGGAAGGTTTATGCCATGGCGCTTGAAGGCACAACGCTTTATGTTGGCGGTGATTTTGATAATGTCGGCGGTGCGGCGCGCTACAATATTGCCGCGCTGGATACAGAAACCGATATCGATAATGCCATTGACGGCTGGGGCAGGGTCGTTGAAGGGCCGGTTTACGCTTTGGCGGTTGATGATACGCGTCTTTATGTTGGCGGGGATTTTCCTGCTATTGATGCAATTCTAAATAAATCCAACCTCGGTGCAATAACCAAAGCAACAGGCGCTCTTGATCCGTGGACTATGAATGTTCCCGATCCGGCTGTTGTGTACGCGCTTTCACTTAACGGCCCGACGCTTTTTGTTGGCGGAGATTTTGCAACCATTGGCGGAAATGCGCGCTCCTACGGCGCCGCGATTGACACTGATCCGGTTCCTCCGGATCCTCCGGCTCCTCCTTTAGTCCTCGCTTGGGACCCGAGTGCCAATGGCGCGATTCGCGCGTTCGCGCTTGCGGCTGATGGATTATCTATTTACGCCGGCGGGGATTTTACTGTTATGGAAGGGCTGACCGGCAGAAATCATTTGGCGGAATTGACCACCAACACAAGCGATATCACGCCGCTTATGTCATGGAATCCTAATGTGAACAATAGTGTTCGGGCTTTGGCATTGACTGACGCGTATGTGTACGCGGGCGGGGACTTAAGCAGTGTTGGAGGAACAGTGCGTCAAATGGCAGCGGCAATTGATAGAACTTCAGCGCTAGTCACGGATTGGGATCCGAATATGAACGGTCGCGTGCTTGCGCTCGCGGTTGATGGATCAACGGTTTACGCGGGAGGTGGATTTACGAGCGTCGGCAATGACGCGCCACAAACTTATTTTGCCCAGTTCGGACCTGTGACAGTTGAATTTTCAAACGCATTGTCAAACGGCAACGAAAACACGACGCCCGCCAATTTGGAAGTGTCGCTGTCCGAAGCATCCGGCTTTGATGTGACGGTTGATTACATTGTAAGCGGCGGCACAGCAGATGAAGTTGATGATTTTACGCTTCCTTTTCCGCAAACTGTCACGATTCCGGCTGGCGAACTTACAGCCAATATCCCGATTACAATTATTGATGATGTAATTATTGAGGATCCGGATGAAACCATTATCATTGAATTAACTGCGACGGATGGCGCCGAGCTTGGCGCTCCGGCTAATCTTGTTCACACCTATACTATTCTAGACAACGACACACCGGCTGTGAATGTTACCGAGTCAGCAGGATCAACCCAAGTTACCGAAGGTGGCGCGACCGATACTTATGAAATTGTTTTGCAAACCGTGCCGGCCGCGGATGTCGTGATTACTGTTACGACGGATGCTGATGTGGAGGTTGACGCGCTGGAGTTGACTTTTACTCCGCTCAATTGGGATACACCGCAAGTTGTCACAGTTACCGCGGTTGACGACGCTACGCTTGAGGACGCTCATGTTAGCACAATCACGCATACTGCTGTTAGCGCAGATGTTGACTACGATGGCTTTGCGATTGACGATGTTGTTGTGGACATTACGGACAATGACATCCCGGCCGAGCCAGCATATTTGGCATCCGATCTCTTGGGCCAGCTTGATATTGACGACAATCCTGTTTATACGCAAAATGTTGAGAATAATGGCGACGGCATTGATTTTCCAAATGACCGCGGTTTTGATGTTACGGCAATGGTGGAAATGGATTTTACCGATCATCGGCTGTTTGTTTCCGACTATAACAACAACCGCGTTCTTGTGTTTAATCTTGACGCATCCAATCAATTGTTGGATCGCGTTGCCGATGCAGTGCTTGGACAAGATGTTTTTGATTCCGGCGACATTGGCACAACCGCGAGCACTATGGATGCCCCGATTGATTTGGCGTTTGATGATGCCGGAAATCGGCTATTTGTCACGGATCAGGGTAACAATCGCGTGCTGGTTTTTGATGTTGATGTAATCGTGGACGGTGAGGACGCGGTCGCCGTGCTTGGCCAGCCGGATTTTGATTCATCAGATCCCGCAACAACAGATATCGGTATGAACGCGCCGCAGGGCTTGGCGTATGATTCGGACGCGAATCTTTTGTATGTTTCAGAAGTAGATAATCACCGCGTGACGGTTTTTGATGTTGCCGAGATTGTTAACGGCGACGAAGCGGCTATAAGAGTCCTTGGCCAGGATAATTTTGATGAAGCTATTATTGGTACAGATGAGTACTCTATGGATTCGCCGTTTGGTTTGGAGCTGGATTTAGCTCGCGAATTGCTGTTTGTCGGCGATGAGGCAAATAGGCGTGTGCTCGTGTTTGATGTTGCCGAGATTGTTAACGGCGACGAAGCGGCTATAAGAGTCCTTGGCCAGGAGGATTTTTTCTCAAACGATCCTGGGCCGTCGCAGTCGTTAATGTTTAGCGGAACTAATGTTGAACTTGATGTGGAAAATAATCGGCTTTTTGTCACAGATTTTGATGGCATGCGCGTGATAGTATTTGATGTTGAAGTAATAACTGATGGCGAAGATGCTGTAGCCGTGCTTGGTCAGCCGTTTTACAACTCGGCCGATACTGGCATAACTCAAGCTCGGTTTGATTCTCCAGCCGGCCTATTGTTTGAGCCTGAAGGCGGTCGGTTGTATGTGAATGATGCGATAAACAGTCGTGTTATGATTTTTGAACTGGTGCGAATTACAAACGATACTTTATTAGACGGCGAAGATGACAGCGCTTACAGTGATTTTGTTGATACATCGGGCAGTCAGGGAACTTTGGAATTTACACTTACCGCGGGTGCGCTTCCTGATGGCTTGGCACTGGACGCGGACACAGGCGAAATAAGCGGAACTCCGACAGTGGTTGACGCGTTTGATTTCACGATTCGTGTTACGGACACCGGCGGTGCTTGGGAATTTGTTGATGAGCAGGACTTCACGATTACAATTGAGGCCGGCGGCGGAGGGGGAGGTGGAGGTGGGGGAGGAGGTGGAGGAATTATTATAACTCCAACACCAGCATCTACACTAACACGAGCACAGGCGAACGCTCTTTTTCCAGCGGGTTATTTTGTTGACGATCTTATAAAAATTCCTGATGACGGCGACCCGACAACTTATACTGACACGACTGTTTACTACATTGGCATTGATGCAAAACGCCATCCGTTTCCTGGAGAGCAAATTTATTTCACATGGTACACAAATTTCAGCGCAGTAAAAAACATTAGTTATGCTATGATTGCAAATATTTCTCTTGGCGCTCCGATTTTGCCTCGTCCTGGCTCATCTTGGGTCAAAATCCAATCCGATCCAAAGGTATATTTTGTTGAGCCGGGTTCTTATCTTTTGCGCTGGATTGAAAGCGAAGAAATTGCGCTGGTTTTGGGAGGTTCTAATTGGAAACAGAACATTATTGACATTGAGCCGACTTATTTTGCACAATTCAAGTTTGGCGCTTCAATCAAAGCTGATGATCTTAAAACAGATTGGCCAAAAGCAGCGCTTGTTAAAACATTTGATTCGCCCGATGTTTATTATATTACCGAAAACGGCCGCAGGCGTTTTGTTGACTGGAATTCATTTATTGCTAATATGTTTCAATCTCGGTTTATTGAAACAAATTCAGAGGCCGGGTGGCCCCTCCCTTCGCGAAGGGAGGGGTGGCAGATATTGCCGTTTGAGTCGGTAATCAGCGGATTTGAAGATGGGCTGTTCAGTTTGCAGTTCTAG
PROTEIN sequence
Length: 1683
MKNAFFAILAILVISLIFVSSYPSVLAQPSDPDTGQYVVNDKVRSIIHDDATGITYLGGDFTEIGAAHGSAIPVKASTSLVVSPHISFMGPTLAIIPDGLGGWYMGGAFTSVAGVAQNYLAHITFEGALEAGWDEPNQPVKALALSDDGNTLYVGGSFTVVDGTVRNHLAAYDVATGQITGWDPNADGEVNDIEVSGAFVYVGGTFSAITAVPRNGLAALDTVAGLASPWDPDPDTADIRAIEINGATAYVGGDFDLIGGAPRNNLAAISVIDGLAIPAWSANTDNVVLALEHDGTTLYVGGSFTTIDGVARNYIATVDAAGVVDADWDPSANARVESMDLVGTALYVGGKFTTIGGQTRSYLARLEDIATGDFTGDATAWNPHANEGVETIAVNGDTVYIGGTDLSSANAITRNRLAAIDADGILTTWDPDVDDVLGKVYAMALEGTTLYVGGDFDNVGGAARYNIAALDTETDIDNAIDGWGRVVEGPVYALAVDDTRLYVGGDFPAIDAILNKSNLGAITKATGALDPWTMNVPDPAVVYALSLNGPTLFVGGDFATIGGNARSYGAAIDTDPVPPDPPAPPLVLAWDPSANGAIRAFALAADGLSIYAGGDFTVMEGLTGRNHLAELTTNTSDITPLMSWNPNVNNSVRALALTDAYVYAGGDLSSVGGTVRQMAAAIDRTSALVTDWDPNMNGRVLALAVDGSTVYAGGGFTSVGNDAPQTYFAQFGPVTVEFSNALSNGNENTTPANLEVSLSEASGFDVTVDYIVSGGTADEVDDFTLPFPQTVTIPAGELTANIPITIIDDVIIEDPDETIIIELTATDGAELGAPANLVHTYTILDNDTPAVNVTESAGSTQVTEGGATDTYEIVLQTVPAADVVITVTTDADVEVDALELTFTPLNWDTPQVVTVTAVDDATLEDAHVSTITHTAVSADVDYDGFAIDDVVVDITDNDIPAEPAYLASDLLGQLDIDDNPVYTQNVENNGDGIDFPNDRGFDVTAMVEMDFTDHRLFVSDYNNNRVLVFNLDASNQLLDRVADAVLGQDVFDSGDIGTTASTMDAPIDLAFDDAGNRLFVTDQGNNRVLVFDVDVIVDGEDAVAVLGQPDFDSSDPATTDIGMNAPQGLAYDSDANLLYVSEVDNHRVTVFDVAEIVNGDEAAIRVLGQDNFDEAIIGTDEYSMDSPFGLELDLARELLFVGDEANRRVLVFDVAEIVNGDEAAIRVLGQEDFFSNDPGPSQSLMFSGTNVELDVENNRLFVTDFDGMRVIVFDVEVITDGEDAVAVLGQPFYNSADTGITQARFDSPAGLLFEPEGGRLYVNDAINSRVMIFELVRITNDTLLDGEDDSAYSDFVDTSGSQGTLEFTLTAGALPDGLALDADTGEISGTPTVVDAFDFTIRVTDTGGAWEFVDEQDFTITIEAGGGGGGGGGGGGGGIIITPTPASTLTRAQANALFPAGYFVDDLIKIPDDGDPTTYTDTTVYYIGIDAKRHPFPGEQIYFTWYTNFSAVKNISYAMIANISLGAPILPRPGSSWVKIQSDPKVYFVEPGSYLLRWIESEEIALVLGGSNWKQNIIDIEPTYFAQFKFGASIKADDLKTDWPKAALVKTFDSPDVYYITENGRRRFVDWNSFIANMFQSRFIETNSEAGWPLPSRREGWQILPFESVISGFEDGLFSLQF*