Name : gbs1352 (gbs1352) Accession : NP_735789.1 Strain : Streptococcus agalactiae NEM316 Genome accession: NC_004368 Putative virulence/resistance : Unknown Product : hypothetical protein Function : - COG functional category : K : Transcription COG ID : COG4646 EC number : - Position : 1395986 - 1402186 bp Length : 6201 bp Strand : - Note : similar to helicase and methylase DNA sequence : TTGTCCACTTTTGATTCAGTTACAGGAAGGACCAATCACTTGGAAGCTTATGAAGGGCTGAACCTTTCTGAAAAATTTGC CATTTTAAGTCACTTTGACAAACTTAGAAATGAGCTGCAGACACCATCTATTCAGCTAGGGGAGTTTGATAGGGAAATGG AAGCTTTTTCAATCACTTTGGGAAATGAACTGTTGGGTTATTTAGAGGCAAATGGCAGCCCCTATGAGTTGAAGCGAGAA TTGAATCAGGCCGAAATGATGGCAGTCCTTGAGCTTAGCCGTCAACTGGTTGCAAAATTTTCTACAAAACTAGAGGAGCT GGGAATTGATTTGGGTTCATTTCAACCAGACCAAGTCAACATCTTATTGGATGCCGTTGGTCGTTTTCGCTTGAAAAATG CGGACATTGCTTTATTAGGCGGTTATCCAAAAGCGAGTGTTTCCCAGCTAGCTCTTGCGACAGAACTCCTCCAGATGGGA CTAAGTCATGATAAGGTAGAATTTTTCTTAACCAGTCAGCTTCAGTTAGAGGATATGCGACAGGTCGCTTTTGCTTTCCT ACATGAAAGCTTGACCAGAGAAGAAGCAGAGCAATTTGAAACAGACCGCTTTCGTCATACAAGCTTAAACTTTCGAGAAT GGCGAGAACTTCTAGAAAAGCAAGAGCCAGAAATGGTGGAGATGTCAGACGTCAGCCCGCTTGTTCGGGAAGTCTTGCAT CATTATCCACTTGGTTCAAGGGTCACTTATAAAGGACAGGAGTTTGAGATCTTGTCTATTGAAGCTGCGGACATGGATAA TCTGATTCGAATAGAGCTTCAAAATGATTTTTCATATCTCATTGAACAAAATCCCGTTCTCTATTTCCAAAACTTGGCAG AAATCAGGCAAGTTCTTCATTTGTCTCGTTCGGAAATTGTAGAAAGAGAGGAACAACCTGAGGAAGAATGGACTCTCTTT TCGTTTATGGATGAGGGGACAGAGGATAACGAAAAGGAACCTGAGATTGTTTTTGAATCTACCGATAAAGTTGTTACATT AGATAGTCAGCCAGCACAAGTAAGTGAGACTATATCCGAATCAGTTCCTGAAACCAAAGAGGTGATTGAAGCAGAACAAG CAATAGCAGTTGATTTTAGCTTTCCTGAAGATTTGACTAATTTTTACCCCAAAACAGCTAGGGATAAAGTAGTGGCGAAT CTCGTAGCTATTCGTCTTGTAAAAGAATTAGAAAGTGCTAATCAATCAGCAACACCTAATGAACAAGAAATTCTTGCCAA ATATGTGGGTTGGGGTGGTCTTGCCAATGAATTCTTTGATGAGTACAATCCGAAGTTTTCTAAGGAAAGAGAGGAGTTGA AAACTCTCGTTTCTGATAAAGAGTATTCCGATATGAAACAATCATCTCTAACGGCCTACTATACGGATCCGCTTTTAATT CGTCAGATGTGGTCTAAGTTAGAACAAGACGGCTTTAGTGGTGGAAAAATATTAGACCCATCAATGGGAACAGGGAATTT CTTTGCGGCTATGCCAGCTCATTTGAGGGAAAAGAGTGAGCTGTGTGGGGTTGAGTTAGATACTATCACAGGAGCGATAG CTAAGCAGCTTCATTCAAATGTCCATATTGAAGTAAAGGGATTTGAGACGGTTGCTTTTAATGATAATAGTTTTGATTTG GTTATTTCAAATGTTCCCTTTGCCAATATCCGTATCGCGGATAATCAGTACGATAAGCCCTATATGATTCATGACTACTT TGTCAAGAAATCTCTTGATTTGGTACATGATGGTGGGCAAGTAGCCATTATTTCCTCCACAGGAACCATGGACAAACGGA CAGAAAATATTCTCCAAGATATTCGTGAGACGACGGATTTTCTTGGTGGCGTGCGTTTGCCAGATACGGCTTTTAAGGCC ATTGCAGGTACAAGTGTGACAACGGATATGCTTTTCTTTCAGAAACATCTGAACAAAGGCTATCAAGCAGATGACATTGC CTTTTCAGGTTCTGTTCGTTATGACAAGGACGAGCGTATTTGGCTCAATCCCTACTTTGATGGGGAGTATAATGCCCAGG TTCTTGGAAGGTATGAGATTAAAAACTTTAACGGTGGAACACTTTCGGTTAAGGAAACGACTGATAACCTGATTGCGAGT GTTCGAGAAGCCTTGCAACATGTAAAAGCACCAAGGGTTATTGATAAAACAGAAGTCATGATTAACTCGGATGTGATTGC AAGACAGGTCATAGATACCACCATTCCACCTGAAATTAGAGAAAACCTTGAACAATATAGCTATGGTTACAAAGGTTCTA CCATTTATTATCGTGATAATAAGGGGATTCGTGTTGGGACAAAAACGGAGGAAATTAGCTATTATGTGGATGATGAGGGA AACTTTCAGGCTTGGGAGTCCAAGCATTCACAAAAACAGATTGACCGTTTTAATAACTTAGAAGTCACAGATAGCACAGC TCTTGATGTTTATGTGACTGAAGAACCTGCGAAACGTGGGCAATTTAAAGGATATTTCAAAAAGGCGGTTTTTTATGAAG CTCCTTTGTCTGAAAAAGAAGTGGCACGGATTAAAGGAATGGTAGATATTCGCAATGCCTATCAAGAGGTCATTGCTATT CAACGCAATTATGATTACGATAAGAATGAGTTTAACCGCTTGTTAGGAAACCTCAATCGCACCTATGATAGCTTTGTCAA ACGCTATGGCTTTTTGAACAGTCCAGTTAACCGAAATTTATTTGATAGTGATGATAAGTATTCGCTTTTAGCTAGTCTCG AAGATGAAAGTCTTGACCCAAGTGGGAAGACGGTCATTTATACGAAGTCACTGGCTTTTGAAAAAGCCTTGGTCCGTCCT GAAAAAATGGTTAAAGAGGTGTCAACCGCTCTTGATGCACTCAACTCCAGTCTTGCGGATGGTCGTGGAGTTGACTTTGA TTACATGGCTTCCATCTATCAAACAGCATCTAAGGCAGCTTTGATTGAGGAGCTGGGAGATCAGATTATACCAGATCCAG AAAGTTATTTAAAAGGACAGCTGACCTATGTATCTCGCCAGGAGTTTTTATCAGGAGATATTGTGACAAAATTAGAAGTT ATGGACTTACTGTTAAAGCAAGACAATCATGATTTTAACTGGGCGCATTATGGTAATTTGTTAGAAAGTGTTCGTCCAGC ACGAGTGATGTTGGCAGATATTGATTATCGAATTGGTTCACGTTGGATTCCTTTAGCTGTTTATGGAAAATTTGTCCAAG AAGCCTTTATGGGGAAGAATTATGACTTAACGGCTACAGAAGTGGAAGAGGTCCTCTCTGTCAGCCCGATTGATGGGACG ATGGAATTTCGGACACGGTTTGCCTATACCTACTCAACAGCGACGGATAGAAGCCTGGGTGTAGCAGGCTCACGCTATGA TAGTGGTCGGAAAATCTTTGAGAATCTGCTTAACTCCAATCAGCCAACCATCACGAAGCAGATTCAAGAGGGAGATAAGA AAAAGAATGTGACAGATGTGGAGAAGACAACCGTTCTGCGTGCTAAAGAAGCACAAATCCAAGACCTCTTTCAAGATTTT GTCGCAAGCTATCCTGAAGCCCAACAGATGATTGAGGATACCTATAATAGTCTCTATAATCGTACCGTCTCTAAAGTTTA TGATGGCAGCCGTTTGGAGATTGATGGTTTGGCTCAAAATATTTCGCTTCGTCCTCATCAAAAAAATGCCATTCAGCGAA TCGTGGAGGAAAAACGGGCTCTTTTAGCTCATGAAGTGGGTTCAGGCAAAACTTTAACCATTCTTGGAGCAGGCTTTAAA CTGAAAGAGTTAGGTATGGTACATAAACCGCTTTATGTGGTACCTTCTAGCTTGACCGCTCAGTTTGGTCAAGAAATCAT GAAGTTCTTCCCAACGAAGAAAGTCTACGTGACGACAAAGAAAGATTTTGCCAAAGCTCGGCGCAAGCAGTTTGTCTCAC GTATTATTACAGGGGATTACGATGCCATTGTCATCGGGGACTCCCAGTTTGAAAAAATCCCCATGAGTCAGGAAAAACAG GTGACTTATATTCAAGATAAGTTGGAACAATTACGGGAGATAAAGCAAGGAAGCGATAGTGACTACACAGTCAAAGAAGC GGAGCGTTCGATTAAAGGTTTGGAAAACCAATTGGAAGAACTCCAGAAACTAGATCGAGATACCTTTATTGAATTTGAAA ATCTTGGCATTGATTTTCTCTTTGTGGACGAAGCCCATCATTTCAAAAATATTAGGCCGATTACTGGTCTGGGAAATGTA GCGGGAATTACCAACACGACTTCTAAAAAGAACGTGGATATGGAAATGAAAGTGAGACAGATTCAGGCAGAGTATGGAGA TAGAAATGTCGTTTTTGCGACAGGAACGCCGGTGTCTAATTCCATTAGTGAACTCTATACTATGATGAACTATATTCAGC CAGATGTCCTAGAACGCTACCAAGTTTCTAACTTTGACTCCTGGGTTGGAGCTTTTGGCAATATCGAAAATTCGATGGAG CTAGCGCCAACAGGAGATAAGTATCAACCCAAGAAACGGTTTAAAAAGTTTGTGAATCTACCTGAACTCATGCGGATTTA TAAAGAAACCGCTGATATTCAAACGTCAGATATGTTGGATTTACCTGTACCTGAAGCCACAGTCATTGCGGTGGAAAGTG AACTCACAGAAGCTCAGAAAAACTACCTTGAAGAATTGGTGGACCGTTCAGATGCGATTAAATCAGGAAGCGTTGACCCT AGTGTCGATAACATGTTAAAGGTGATAGGCGAAGCCAGAAAGCTAGCCATTGATATGCGTTTGATTGACCCTGCCTATAC CTTATCTGACAATCAGAAGATTATGCAAGTAGTGGATAACGTGGAACGGATTTACCGTGAGGGCAAAGGAGATAAGGCTA CACAGATGATTTTCTCTGACATTGGCACGCCTAAAAGTAAAGAAGAAGGATTTGATGTCTATAATGAATTGAAAGCCCTC TTAGTTGACCGAGGAATTCCAAAAGAAGAAATTGCCTTTGTCCATGACGCTAATACGGATGAGAAGAAAAATTCTTTGTC ACGAAAGGTCAATAGTGGGGAAGTAAGGATTCTCATGGCTTCAACTGAAAAAGGAGGAACAGGATTAAACGTGCAAGCAC GCATGAAAGCTGTTCACCATTTAGACGTTCCTTGGCGTCCCTCAGACATTCAGCAACGCAATGGACGTTTGATTAGACAA GGAAATCAACATCAGAATGTAGAGATTTATCATTATATTACCAAAGGTTCATTTGATAACTATTTGTGGGCTACACAAGA GAATAAGTTGCGTTATATTAAACAAATTATGACTTCAAAAGATCCTGTTCGGTCAGCAGAAGATATTGACGAGCAAACCA TGACCGCTTCAGATTTCAAAGCGTTAGCTACTGGCAATCCCTATCTCAAACTCAAAATGGAGTTAGAGAATGAATTGACC GTCTTAGAAAATCAGAAACGTGCTTTCAATCGCTCCAAAGATGAATACAGGCACACTATTTCCTATTGCGAGAAAAACTT ACCTGTTATGGAAAAACGATTAAGGCAGTATGACAGAGATATTGAGAAATCACAAGCAACGAAGAATCAAGAGTTTATCA TGCGGTTTGATAACCAGACAATTGACAATCGCAGCGAAGCTGGGGATTATTTACGAAAACTCATCACCTATAATCGTTCC GAAACCAAAGAAGTCAGAACCTTAGCGACCTTTAGAGGCTTTGAGCTTAAAATGGCTACACGAAGTCCTGGTGAACCCTT GTCTGACATGGTGTCTCTAACTATTTCAGGGGATAACCAGTATTCAGTTTCCCTTGATTTAAAATCAGACGTGGGAACGA TTCAACGGATTAACAACGCCATTGACCATATCCTAGAGGATAAGGAAAAGACAGAAGAGATGACAAACAACCTCAAAGAT AAGCTAGCAGTCGCAAGAGTTGAAGTTGAGAAAGTCTTTGCAAAGGAAGAGGAATATCAGTTGGTAAAGGCCAAGTATGA TGTACTTGCCCCATTAGTGGAAAGAGAAGCAGACTTAGAAGAAATTGACGTAGCACTTTCCCAATTTAGTAGCTCTGACC CATGCTTGAAAAAAGATCAACAGTTAGTCCTTGACATTTAA Protein sequence : MSTFDSVTGRTNHLEAYEGLNLSEKFAILSHFDKLRNELQTPSIQLGEFDREMEAFSITLGNELLGYLEANGSPYELKRE LNQAEMMAVLELSRQLVAKFSTKLEELGIDLGSFQPDQVNILLDAVGRFRLKNADIALLGGYPKASVSQLALATELLQMG LSHDKVEFFLTSQLQLEDMRQVAFAFLHESLTREEAEQFETDRFRHTSLNFREWRELLEKQEPEMVEMSDVSPLVREVLH HYPLGSRVTYKGQEFEILSIEAADMDNLIRIELQNDFSYLIEQNPVLYFQNLAEIRQVLHLSRSEIVEREEQPEEEWTLF SFMDEGTEDNEKEPEIVFESTDKVVTLDSQPAQVSETISESVPETKEVIEAEQAIAVDFSFPEDLTNFYPKTARDKVVAN LVAIRLVKELESANQSATPNEQEILAKYVGWGGLANEFFDEYNPKFSKEREELKTLVSDKEYSDMKQSSLTAYYTDPLLI RQMWSKLEQDGFSGGKILDPSMGTGNFFAAMPAHLREKSELCGVELDTITGAIAKQLHSNVHIEVKGFETVAFNDNSFDL VISNVPFANIRIADNQYDKPYMIHDYFVKKSLDLVHDGGQVAIISSTGTMDKRTENILQDIRETTDFLGGVRLPDTAFKA IAGTSVTTDMLFFQKHLNKGYQADDIAFSGSVRYDKDERIWLNPYFDGEYNAQVLGRYEIKNFNGGTLSVKETTDNLIAS VREALQHVKAPRVIDKTEVMINSDVIARQVIDTTIPPEIRENLEQYSYGYKGSTIYYRDNKGIRVGTKTEEISYYVDDEG NFQAWESKHSQKQIDRFNNLEVTDSTALDVYVTEEPAKRGQFKGYFKKAVFYEAPLSEKEVARIKGMVDIRNAYQEVIAI QRNYDYDKNEFNRLLGNLNRTYDSFVKRYGFLNSPVNRNLFDSDDKYSLLASLEDESLDPSGKTVIYTKSLAFEKALVRP EKMVKEVSTALDALNSSLADGRGVDFDYMASIYQTASKAALIEELGDQIIPDPESYLKGQLTYVSRQEFLSGDIVTKLEV MDLLLKQDNHDFNWAHYGNLLESVRPARVMLADIDYRIGSRWIPLAVYGKFVQEAFMGKNYDLTATEVEEVLSVSPIDGT MEFRTRFAYTYSTATDRSLGVAGSRYDSGRKIFENLLNSNQPTITKQIQEGDKKKNVTDVEKTTVLRAKEAQIQDLFQDF VASYPEAQQMIEDTYNSLYNRTVSKVYDGSRLEIDGLAQNISLRPHQKNAIQRIVEEKRALLAHEVGSGKTLTILGAGFK LKELGMVHKPLYVVPSSLTAQFGQEIMKFFPTKKVYVTTKKDFAKARRKQFVSRIITGDYDAIVIGDSQFEKIPMSQEKQ VTYIQDKLEQLREIKQGSDSDYTVKEAERSIKGLENQLEELQKLDRDTFIEFENLGIDFLFVDEAHHFKNIRPITGLGNV AGITNTTSKKNVDMEMKVRQIQAEYGDRNVVFATGTPVSNSISELYTMMNYIQPDVLERYQVSNFDSWVGAFGNIENSME LAPTGDKYQPKKRFKKFVNLPELMRIYKETADIQTSDMLDLPVPEATVIAVESELTEAQKNYLEELVDRSDAIKSGSVDP SVDNMLKVIGEARKLAIDMRLIDPAYTLSDNQKIMQVVDNVERIYREGKGDKATQMIFSDIGTPKSKEEGFDVYNELKAL LVDRGIPKEEIAFVHDANTDEKKNSLSRKVNSGEVRILMASTEKGGTGLNVQARMKAVHHLDVPWRPSDIQQRNGRLIRQ GNQHQNVEIYHYITKGSFDNYLWATQENKLRYIKQIMTSKDPVRSAEDIDEQTMTASDFKALATGNPYLKLKMELENELT VLENQKRAFNRSKDEYRHTISYCEKNLPVMEKRLRQYDRDIEKSQATKNQEFIMRFDNQTIDNRSEAGDYLRKLITYNRS ETKEVRTLATFRGFELKMATRSPGEPLSDMVSLTISGDNQYSVSLDLKSDVGTIQRINNAIDHILEDKEKTEEMTNNLKD KLAVARVEVEKVFAKEEEYQLVKAKYDVLAPLVEREADLEEIDVALSQFSSSDPCLKKDQQLVLDI |
Gene | GenBank Accn | Product | Virulance or Resistance | PAI or REI | Alignment Type | E-val | Identity |
SSU05_0962 | YP_001198328.1 | SNF2 family protein | Not tested | 89K | Protein | 0.0 | 80 |
Spaf_1117 | YP_006309919.1 | SNF2 family protein | Not tested | FWisland_1 | Protein | 0.0 | 67 |