Gene Information

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

• Homologs from PAI DB

GeneGenBank 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