Gene Information

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

• Homologs from PAI DB

GeneGenBank 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 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 ACK75670.1 accessory colonization factor AcfD Virulence VPI Protein 0.0 56
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 ACK75649.1 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
acfD ACK75661.1 accessory colonization factor AcfD Virulence VPI Protein 0.0 55
unnamed CAE85238.1 hypothetical protein Not tested PAI V 536 Protein 0.0 51

• Homologs from VFDB (virulence genes)

GeneGenBank Accn Product ID of source DB Alignment Type E-val Identity
Fbal_1310 YP_003912589.1 hypothetical protein VFG0106 Protein 0.0 57