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Name : Fbal_1310 (Fbal_1310) Accession : YP_003912589.1 Strain : Ferrimonas balearica DSM 9799 Genome accession: NC_014541 Putative virulence/resistance : Virulence Product : hypothetical protein Function : - COG functional category : - COG ID : - EC number : - Position : 1466415 - 1470827 bp Length : 4413 bp Strand : + Note : KEGG: shl:Shal_3494 hypothetical protein; SPTR: A2P7A5 Accessory colonization factor AcfD DNA sequence : ATGAAAAAATCACTACTCTCTTTGACGCTGCTGTCCCTGTTAGCGGGCTGCGGCGGTTCCTCAAGTGGCGGTACCACTCC CGAGATCCCGGAGCCGGAGCTGCCAACCACCCTGCGTGCCACGTTGACTCTAGACGGCACACTGCGTTTTGCCGAGCCGG TGCGTTGTAACGGCAAACCCGCCATCGATTTCGAGATTACGGTGGGGGACAGCGTCAGTTGCCACTACAAGGGCACCATT CTGGCCAGCTTCACCGATGTGCAGCCGGACCCGGCGGCCCGCACCGGCACCACCACCGTTAAAAAGACCCTGATGCTGGG CCACAGTAACGGCTTCGCTGAGCGTCCCCATGCCGCCACCAACGCCACTGCGCTGGTGCGCAGTTACGGCGTGACCCACG GCGATACCATTACCCTGTCGCTGACCGCCCTGCAGGACCTGAAGTTCAAGGACACCTTCCTGAACCAGCTCGATCTGACG CCGGAAGCGTTCGCTGAACTGTTGGCTCAGCAGGCTAACGACAGCCAGACCGACAAGCTGCCCAGCACCCATGTGCCGGA CATCGAAGCGGCGGTGAACCCTAACGCCTCACCGGATCTGAACGCCGGCTTCGTTGCCGCCGATGCGGAATCCGGCTACC AGTACCAGCCGGAGCAGACCATCCTGGCCAGCGGCCGCCTGACCGACCGCGACGGCAAGCCGGTGGCGGGGGTGACGTAC TTCAGCCGCGCCAGCCGGGGCGTCACCGATGCGGAGGGCAAATTTGAGTTTGTCTGGGGCGACACCGTGCGCTTTGGTCT CGACACCTTCGAGCTGGGCCAGGTGCGTGGTAACCAGCAGCAGGTCAGCCTGACTGAGCTGGGCGAGGGGGATGTGGGCC TCAATATCGACGCCCTGGTGCGCCGTTATGCCGATGACCAGCTCGACCACTGGCAGCTGCCGGAGCGGGTTACCGAGGTG TTCGCGGCTTACCCCAACGTGATCAACGAGATCATCTCGCTGTCGCTGAGCAGCCAGCCCCGTGAACTGGCGCTGGGTGA CGGCCAGGTACAGTGGTTGCCGGCTGAGTTTGCCGCCCAGTTTGATTCCGGCCTGGCCGCCGATATCGATCAGCAGCTGT GTCAGCGCGATTGCGAGGGTGACGCGGTGATGGCGCGCGGTGCCGTGGATGACAGTGGCCAGATCCTGGCGGACATCCAG AAGCTGTGGGGCAGCAGTGCCGATGCCCAGCAGCAGGGCTGGAAACCGGTCAGCCGCTTCCACGTGTTCCACGACAGCAC CAACTTCTACGGCAGTACCGGCCATGCCCGTGGCCAGGCGGCGGTGAACATTGCCAACAGCGCCTTCCCGGTGATGATGG CCCGCAATGACAACAACTATTGGATCCCCTTTGGTGCCCCCAAAGCCTGGGACCAGCACGGGCTGGCTTACATCACCGAA GCCCCTTCCACCGTGGTGCCCGAGCGGGTAGGGGGCGAGACCGCCACCTTTAACCTGCCCTTTGTCAGTATTGGTGAGAT TGGTCAGGGCAAGGTGATGGTGATGGGCAATGCCCGCTACCACTCGATTCTGGTGTGCCCCAATGGTTACAGCTGGCAGG GCGGTGTGGACGCCGATGGGCAGTGCCGCCAGTCCGGTGATTCCGACGACATGAAGCACTTCTTCCACAATGCCCTGCGT TACCTTACCGGGCAGAGTGGCGGCTTCACCGTGGGCACCAATGTCGCCTACGCCTATTTCAAACGGGGCGGTCAGGTGGC CGGTGAAAAGGTGCCCTTTGCCCTCGCCCCGGCATTTGGGGTGACCACCGAGCAGCTGCAGCGATTTGATGACCTTGACC CGAATCAGTACCCCCTGCTGATCCTCAACGGCTTCGAATACCTCATTGACCCCAACGGCAACCATTATGACCTGCCGCTG CGGGCCGATCTGGAGCGCCCTAAGCTGAGTCAGGACGACGCCACGGCCCTGATTGATTACGTCAGCCGGGGCGGCAGCAT CCTGGTGATGGAAACCGTGCTGGAGGGCGAGAAAGCCGGTGCGCTGGCCCGTCTGCTCGACAGTGCCGGCATCGCCTTCG GCATGAACGGTTCGGTGGTGGCGGATGGCAACGGCCCCAGTGCCGGCTACCCGGACCGGGTGCGAAACCAGCGCGGTCAT GGCATCTGGGTGCTGGAGCGTTACGCCGCCGTCGAGGGCGACAACGGCCCAACCCTGCCGTACCGCATCGAGAACGGTCA GGTGGTGTGGCTGTATCAGGAACAGAACAAGCCCGACGACAAACCGAAACTCGAGGTGGCCAAGTGGACGGAAACCGGAG CCGATGGCCAGCTGGTCACCCACGTGGCCTTTATCGACGAGCGGGAGAGTCAGGATGTGGCGGCGGACAAGGCGCGCATT CTGGCCGCGTTTACCCGGGAGGATGGTAGCCCGGCCTATCAGGAGTGTCGTGACCCCAACTACCACTACGAAGTGAACTG CCTGGAGTACCGTCCCGGTAACGAGATTGACGTGACCGGCGGCATGTTTGTGCCGCGCTACACCGAGCTGGATCTGGGCG ACGCCCAGGCCCGGGCCATGGTGAAAGCGGCGGACCTGGGCACCAGCATTGAGCGTCTCTACCAGCATGAGCGCTACTTC CGCAGCGAAGGCAAACAGGGCCAGCGCCTCTCCAGTGTCGACCTGAACCGGCTCTACCAGAACCTGTCAGTATGGCTGTG GAACGACCTCGACTACCGCTACGACGACACTCTGGACGATGAGCTGGGCTTTGAGCGCTTCACCCAGTTCCTGAACTGCT ACAGCGACGATCGCGCCGGGGGCGGCACCCGCTGTCCGGCCGAACTGCGCGCCGAACTGGTGGCTCAGGGCATGGTGTGG GGCGATGACGCGGGCGAGTACGCCGGTCAGCTCAACCCCGACTACCCGCTGAACTACATGGAGAAGCCGCTGACCCGCCT GATGCTGGGCCGCAGTTTCTGGGACCTGGACATCGTGGTGGACGTGCGCCGCTTCCCGGGTGAAGCCCAGGGCAGTGAGG GCGGCACCGTGGTAGCGCTGGAACCCAATGCCACCACCACCGCGTGGTATGCGGGCAATCGCCAGCCCACCGGCCAGTGG GCGGTGGCCCATCAGCCCTTCACCGTGGCCGTCAGTGGCACCGACGCGCCGGTGACCGTCACCATCGCGCTGGCGGATGA CCTGACCGGCCGGGAGAAACACGAACTGGGCCTGCGCCGCCCGCCGCGGATGCAGCAATCCTTTACCCTGAACGCCGGTG AACTGGGCAGCAGCCACACGCTGACTGTGCCCTACGGCGGCCTGATCTATGTTCAGGGCCGCGCCGGCGAGTCCGGACAG GTCAGCCTGAGTGGCACCGTGGATGCACCGTTGTACCAGCTGGGCAAAGGCTGGGTGAACCCGCAGAACGCCCCGGCGCC CATTGGTGAGGTGGTGTCCCACAGCTTCGTCTACACCGCGCCTAAAGCCAATCTGGCGGCCAGCAACTACGGGGGCAGTC CGCAGACGTTTGCTGAGCAGCTCGACCAGTTCGCTGCGGATCTCAACGACTTCTACGCCCGCGATGAAGGCGCTGAGGGG CAAGCCAACCGGATGGCCACCGATCCGGCCCGTCCGGCCAACCGCCACCACTTTGTCAACGACGTGGCCATCAGCATTGG TGCGGCGCATTCCGGTTACCCGGTAATGAACAGCAGCTTCAATGTCGACAGCAATGAGATCGGCCTGGCGCCGCTCAACT CCTGGCTGCTCTGGCACGAGGTGGGCCATAACGCCGCCGAAGCGCCGTTCAACGTGGCCGGGGCCACCGAGGTGGTGAAC AACCTGCTGGCGCTGTACATGCAGGACAAGCACCTGGGCAAGATGGCACGGGTGGAACAGGACATCCGCATTGCGCCGGA CTTTGTCAATGCGGAACACCGCCGGGCCTGGGCCGTCGGCGGGGCAGGGGAGCGTCTGGTGATGTTTGCCCAGCTGAAGG AGTGGGCGGAAACCGAGTTTGATGTTCGCCACTGGTATGGTGATGGCGAGTTGCCAGCGTTTTATCGCACCGAGCCGGGG CTGGCAGGCTGGAACCTGTTTAAGCTGATGCACCGACTCAGCCGTAACGCCGTTGACCCGGCGATGCTGCTGCCCGGCGA GAACCTCTGCTACGGACAGGATCTGGGCCAGAGCGACCAGCTGATGCTGTGCGCCTCCTATGCCGCGCAAACCGACTTGA GTGCCTTCTTTGATGCCTGGAACCCGGGCAGCCAGGCGATGATCTACCCCGGCGACAGCACGCCGCAGATCGAGGGCGGC ATCAGCCCGGTGGGATTGAACCGGGTGGCGCAGCTGAACCTGGCCAAACCCGAGCGGGACCCGCTGCGGATTGACCGGAT CAGCGTCCACTGA Protein sequence : MKKSLLSLTLLSLLAGCGGSSSGGTTPEIPEPELPTTLRATLTLDGTLRFAEPVRCNGKPAIDFEITVGDSVSCHYKGTI LASFTDVQPDPAARTGTTTVKKTLMLGHSNGFAERPHAATNATALVRSYGVTHGDTITLSLTALQDLKFKDTFLNQLDLT PEAFAELLAQQANDSQTDKLPSTHVPDIEAAVNPNASPDLNAGFVAADAESGYQYQPEQTILASGRLTDRDGKPVAGVTY FSRASRGVTDAEGKFEFVWGDTVRFGLDTFELGQVRGNQQQVSLTELGEGDVGLNIDALVRRYADDQLDHWQLPERVTEV FAAYPNVINEIISLSLSSQPRELALGDGQVQWLPAEFAAQFDSGLAADIDQQLCQRDCEGDAVMARGAVDDSGQILADIQ KLWGSSADAQQQGWKPVSRFHVFHDSTNFYGSTGHARGQAAVNIANSAFPVMMARNDNNYWIPFGAPKAWDQHGLAYITE APSTVVPERVGGETATFNLPFVSIGEIGQGKVMVMGNARYHSILVCPNGYSWQGGVDADGQCRQSGDSDDMKHFFHNALR YLTGQSGGFTVGTNVAYAYFKRGGQVAGEKVPFALAPAFGVTTEQLQRFDDLDPNQYPLLILNGFEYLIDPNGNHYDLPL RADLERPKLSQDDATALIDYVSRGGSILVMETVLEGEKAGALARLLDSAGIAFGMNGSVVADGNGPSAGYPDRVRNQRGH GIWVLERYAAVEGDNGPTLPYRIENGQVVWLYQEQNKPDDKPKLEVAKWTETGADGQLVTHVAFIDERESQDVAADKARI LAAFTREDGSPAYQECRDPNYHYEVNCLEYRPGNEIDVTGGMFVPRYTELDLGDAQARAMVKAADLGTSIERLYQHERYF RSEGKQGQRLSSVDLNRLYQNLSVWLWNDLDYRYDDTLDDELGFERFTQFLNCYSDDRAGGGTRCPAELRAELVAQGMVW GDDAGEYAGQLNPDYPLNYMEKPLTRLMLGRSFWDLDIVVDVRRFPGEAQGSEGGTVVALEPNATTTAWYAGNRQPTGQW AVAHQPFTVAVSGTDAPVTVTIALADDLTGREKHELGLRRPPRMQQSFTLNAGELGSSHTLTVPYGGLIYVQGRAGESGQ VSLSGTVDAPLYQLGKGWVNPQNAPAPIGEVVSHSFVYTAPKANLAASNYGGSPQTFAEQLDQFAADLNDFYARDEGAEG QANRMATDPARPANRHHFVNDVAISIGAAHSGYPVMNSSFNVDSNEIGLAPLNSWLLWHEVGHNAAEAPFNVAGATEVVN NLLALYMQDKHLGKMARVEQDIRIAPDFVNAEHRRAWAVGGAGERLVMFAQLKEWAETEFDVRHWYGDGELPAFYRTEPG LAGWNLFKLMHRLSRNAVDPAMLLPGENLCYGQDLGQSDQLMLCASYAAQTDLSAFFDAWNPGSQAMIYPGDSTPQIEGG ISPVGLNRVAQLNLAKPERDPLRIDRISVH |
| Gene | GenBank Accn | Product | Virulance or Resistance | PAI or REI | Alignment Type | E-val | Identity |
| VC0395_A0370 | YP_001216326.1 | lipoprotein | Not tested | VPI-1 | Protein | 0.0 | 57 |
| acfD | AAK20802.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 57 |
| VC0845 | NP_230493.1 | hypothetical protein | Not tested | VPI-1 | Protein | 0.0 | 57 |
| acfD | ACK75670.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 56 |
| acfD | ACK75646.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 56 |
| acfD | ACK75664.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 56 |
| acfD | ACK75649.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 55 |
| acfD | ACK75655.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 55 |
| acfD | ACK75652.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 55 |
| acfD | ACK75661.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 55 |
| acfD | ACK75667.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 55 |
| acfD | ACK75658.1 | accessory colonization factor AcfD | Virulence | VPI | Protein | 0.0 | 55 |
| unnamed | CAE85238.1 | hypothetical protein | Not tested | PAI V 536 | Protein | 0.0 | 51 |
| Gene | GenBank Accn | Product | ID of source DB | Alignment Type | E-val | Identity |
| Fbal_1310 | YP_003912589.1 | hypothetical protein | VFG0106 | Protein | 0.0 | 57 |
