Name : EpC_28910 (EpC_28910) Accession : YP_002649872.1 Strain : Erwinia pyrifoliae Ep1/96 Genome accession: NC_012214 Putative virulence/resistance : Unknown Product : adhesin/hemagglutinin/hemolysin Function : - COG functional category : U : Intracellular trafficking, secretion and vesicular transport COG ID : COG3210 EC number : - Position : 3187724 - 3195859 bp Length : 8136 bp Strand : + Note : silverDB:cEP02892 DNA sequence : GTGAACAAACTTTGCTATCGAATTATTTTCAACCGCGCGCGCGGCCTGCTGATGGTCGTGGCAGATATTGCCCGCAGCCG AACGGGTTCGTCACGTACGCGCCGGGATAAAATCCCCATGCGCTGCTGCCGGCTTAGCCCGTTAAGCTGCGCCATGCTTG CCGCTTTCGCTTTTGTCACCTCGCCCGGTGAGGCTCAGGCAGGCATTGTCGCCGACGGCCAGGCGCCGAATAACCAGCAG CCGAATATCGTATCGAGCGCCAACGGCACGCCGCAAATCAATATTCAGACGCCGAGTGAGGCAGGCGTTTCGCGCAACAC TTACAGCCAGTTCGACGTCGATAATAAAGGCGCCATCCTGAATAACTCGCGCCACCATGTCGCCACACAGTTGGGCGGCA TGGTGGCAGGAAACCAGTGGCTGGCGGGCGGAGAAGCAAAAGTGATCCTCAATGAGGTTAACTCGCGTGACCCAAGCAGG CTGCATGGCTACATCGAAGTTGCCGGGCGTCAGGCACAGGTGGTTATCGCTAACCCATCGGGCATTTCCTGTAATGGCTG TGGTTTTATCAATGCTAACCGCGCCACGCTAACGACCGGCCAGGCGCAGATGAGTAACGGCCAGCTAACCGGTTATGCAG TAGAGCGCGGTGAGATTGTGGTACAGGGTGCAGGCATGGACAGCAGCCGCCAGGATTACACTGATGTCATTGCCCGTTCG GTGAAAATCAATGCAGGCATAGTGGCGAAAGCGTTAAATGTGACGGCTGGTCGTAACCGGGTCGATGCGGCTCATCAACA GATCGATACGCTCGCGGCCGACGGGTCCGCCCGGCCGCAGCTGGCGGTCGATGTCGCCCGGCTCGGCGGCATGTATGCCA ACAAAATTCGATTAATCGGCACCGAACAGGGCGTCGGCGTGGCTAACGCCGGTAATATCGGCGCGCAGGCAGGTTCGTTG GTGGTAACGGCAGATGGCCGCATCGAAAACAGCGGCAACCTTCACAGCAGCGCCGGAATGAACGTCGCCTCCAATACGGC CATCAACAACAGCGGTGCCTTACAGGCTGGCGACAGTGCCAGCCTGACCAGCACGGGCGACCTGCATAACGGCGGGTCGA TTGCGGCGCGTAATCATCTGCAAACGCAAAGCGCCAGCCTCAACAGCGAACCAGGAAGCGTACTCGCCGCTGGGGTCAAC CAGGACGGTAAGCTGACCGGTAGCGGCAAATTAACGCTGACAACGTCTGGCCAGCTACGCGCTCAGGGGCAAAATCTGGC CGCCGGGGATTTTACCGCCCGTGGACAAGGCGTGGATGTGCGCCACGGTTCCAGCAGTGCGAACAACATCACGCTGGACG CCGGGCAGAGCGACCTGCTCACCGGCAGTGGTGCGCAGATTGCAGCGCAGCGCCAGCTGACCGCCAGCAGCGGAAAAATG CTGAATAACGACGGCGGTAGCCTGTCGGCGGACAAACTGAGCATTAACGCGCACGATCTGTCGAACCAACAGGGCGCGAT AACTCAGTTGGGCAGCGATTCGCTGCAGCTTAGCCATCGGGGCAACCTCAATAACCTTGGCGGTAGCCTCGCCAGTAACG GCAAAGATCTGACGATACAGTCCGCGATTATCAATAATCAGGATGGCAAAATTGTCCATGCGGCTGACGGCAATCTGTCC CTGAGCAGTGACCGCCTGAACGGCGCTCAGGGACAAATCCTGTCTAACGGTCACCTGAGCATGACCACTGGCGATACCCT GCTTGACGGCGGCGTGACCTTGGCGCAGCTCATTACGTTAACGGCGAATAGCCTGTCTAATCGTGACGGCAAAATTCTGC AAACCGGTAGCGGCACCCTGTCCCTGACGGCGCTCAACGCCGTGGAAAACCAGAACGGTACTCTGGCGGCGGGCGGCGAT ATCCATCTGCGAGCCGCCAGCCTGAACAACCAGCAAGGTCAAATCAGCGCGCAGGATAACGGCTCGTTAAACGTTAACTT GCTCAACCCGCTCAATAATCAGCAGGGCGTGATACAGGCAGACGGAACCGTGGGGATTGACACCCAGGGCCAGCAGATTG ATAACCGCTCCGGGTTATTGAGTGCGGGCAAATCACTCACCTTGCTAAGCGGCGAGTTGGTCAATCAGGCCGGTCAGTTG CGCAGCGGCGGCGATCTGCAGCTCCACAGCCACGGACATAAGCTGGACAACGCCCAGGGCGGCATCATTAGCTCGTTCGG AAACGCACGGCTGGACGTTAGCGAACTGGACAACCGTGGCGGGCAGTTACAAACCGTAGGCAATGCGCTACTGAATGCCT TTCAGGGTTTGGTCAATAACACGGCCGGCCTGATCCGCAGCGGTGCCACCACCACTATTAACGCCGCTCAAATCGTCAAC CGCGACAGCAACACGCAAAATACCGGGCTGGAAGGCCAGAGTGTTCAGCTGAACAGTGATTCACTCGACAATACGCAAGG TACGCTGCGCGCTAACGATTTGCTGGCTATCACCACCATGCAGTCGCTCAATAATTCGCAGGGCTTAGTCTCTTCTGCTG ATGCTATTTCTGTCAGCGGCGGTGATACGCTGAAGCTAAGTAACAGCGGAGGAACCCTGATATCCGGTAAGGATCTGCAA CTGCGCGCCGCTTCTCTGGCCGGCGACGGGCGCGTGTTATCGCAGGGCGCGATGACGCTCAATCTGCAACAGGGGTTCGT TAACCAGGGCGATGTCATTGCTAACGGCGATCTGAACTTCAACGTCGGCGGTAACGTTGACAACCGTGCGCTGCTAAAAT CCGGCGCTACGCTGAACCTTCATTCAGCCAGCCTGAACAACGCGGCTGAGGGTGAAATCAGCGCCGGGCAAAACCATATT TTCACCGATGGCGAACTGACCAACCGTGGCCTGATCGACGGCAGCCTGACGCATATCCAGTCGGGTACGCTAACCAACAC GGGCAGCGGGCGCATCTATGGTGACCATATCGCCCTGCAAAGCGGCACGCTGAACAATCTGGCCGAAGGCGGCACGGCAG CGACCATCGCCGCCCGCGAGCGGCTGGATATCGGCGCACAAAACATCAATAACAGCGATCATGCACTGATTTTCAGCGCC GGGGACGCGGCGACAGGTGGGCAACTCAACGACATCTGGCAGGCATCCGGCCAGGCTTCCGTATTCAACAACCACAGCGC CACGCTGGAATCTGTCGGCAATATGACGCTCAACATCGGGCAGATCAACAATTTCAATGACCATCTGGTCACCCAGGAGG TGGTTAGCGAACCCTCGCAGCATCATGAAGCGGTGTTACAGGGCGCAACAACCCGCCACGACTGGGATAAAGTGGATACC TCATACTCGAATAAGTACGACGTACACGATGCCATTATGCCTGATGGCAGCGTCAACAATGAATTTTACGAGTACCAATA CCAGCGCACCGTTACCGAAACCCAAATCACAGAGAGCGATCCCGGGCAGATCATCGCCGGGGGGAACCTGACGATCGACA GCGATCGGATTAATAACTACGACAGCCGTATGATGGCGGGCGGTACGCTGGGCGTGAATCCTGGCGCGGTGCTGAATAAC GTGGCCAGCGAAGGCACTAAAGTCACGGTCGATATCGGTAGGCAAACGCACTGGTACGCCAAAAAGTCCAGCAATGGACT ACTGGGCGGCACCAAGACCTCACAGGGCAAGGATACCAACCGTTACCGGCCAGCCCCCATGATGCAAACCTTTGCTTTGG CCACGATGGTTTACCAGGGGCATACCCAGGTAAACGGCAGCGGCACCACGATTGGCGGGCGCGCTACCTCGGAGCTGAAC CAGCAGGCTGACAATGCCGCTGTGGTGACACCACCGGCCGACCATATTGTCGAAATTGCCTTGCCGAACCAGGCAGCAAA CAGCGTCATCCGCGTCACCAGCCCGAACACTCACCTGCCCGACAACAGCCTGTTCCAGCTGCATGGCGAGGTCACCAGCC ACTATCTGATCGAAACCGATCCCCGCTTCACCCATCAAAAGCAGTGGCTGAGCAGCGACTATATGCAGAGTGCGCTTAGC CAGGATCCGGACCGTCTGGACAAACGTCTGGGCGATGGTTACTACGAACAGCGATTGATCCGCGAACAAATTGTCGATCT GACCGGGCAACGTTATCTGGCGGGCTACAATAATGACGGCGAGCAGTACAAAGCGCTGATGGATGCAGGCGTGACTTTCG CTAAGGATTACCACCTGACGCTGGGCGTGGCCTTGACGCCAGCGCAGATGGCGCTGCTAACCAGCGATATGGTTTGGCTG GTCCGGCAGGATGTTACCCTGCCGGACGGTTCGCAGCAAAGCGTGCTGGTGCCACAGGTTTATGCGCGAGTGAAAAAAGG CGACCTCGACGGTAGCGGAGCCTTGCTGTCCGGTAACAACCTGGTGCTCAACACCGGCCGCGACCTGACCAACGGGGGCA AAATAGCCGGCCGGGAAGTGACGCAGATCAATGCTGACACCCTCAACAACAGCGGCATTATTGGCGCTAACCGCGTCAAT CTGAACGCCCTGACCGATATCAACAACATCGGCGGCACCCTGCAAGGCGGTGATGCCCTGGTGGCGATAGCCGGTCGCGA TATCAACAGCAGCAGCACGCTGGCGGGCGACGACAGCAATCGCTATCTTAACCGGCCGGCGGGCATCTATGTGCAAAATG ACAATGGCGCGCTGGGCCTGCTGGCTGTCAACAATATCAATCTGACCGCATCGCAGTTGGACAATAGCGGCAATAACAGT CAGACAGAAATCATCGCCGGCCATGACCTCAACCTTAATACCCTGACCACCACCCACAGCGAAAAAAGCGACTGGGGCAG CGATAACTACCGTCATCTGACGCAAACCGGGGATATCGGCACGCAGCTGAACGGCGGCGGTAGCGTGGCTCTGAGCGCGG GCCACGATCTGAATGCTCAGGCCGCCGCCATTACGGCAAAAGACAGCGTGGCGATGCAGGCCGGTCATGATATCAACCTG ACCGCCGGTGATTCTGCCTATCATCTGACCGAGCACAGTCAGCAAACCGTTAAGGGATTATTGTCCGGCAAATCGGCAGA AACGCACGACGAAGTGCAAAGCCAGAGCGCGCTCGGCAGTAGCGTCAGCGGCAACAGCGTGACGATGCAGGCAGGACACG ATCTGCGGGTGAGCGCCAGCAGCGTGGCGTCCACGCAGGACGTCAGCCTGCTGGCGGGCAATGACCTCAATATCAACACC GCCGGCCAGTCACGCCAGGAAACTCACCTGCGCGAGGAGGAGAAAACCGGACTGACCGGCACCGGCGGTATCGGCTTCAG CTACGGTAAAAATGCGCTTAAAACCACCGATGAGGGGCAATCGCAAAGCAGCGCGGGGAGCATCGTTGGCAGCAGCCGGG GCAACGTCAACCTCACTGCTGGCAATGCGCTGACGGTGAAAGGCTCGGAGGTGCTGGGCGGTCAGGATCTGAACCTGAGC GGCAAACAGGTCAGTATTCTGGCGGCGGACAACCAGAGCGTGCAAACCCATACCGTGGAACAAAAACAGAGCGGGCTGAC GCTGGCGCTGTCAGGTGCGGTGGGCAGTGCGGTTAACGGCGCGGTCACCAGCGCCAGTGAGGCCAGTAACGCCAGCAGCG GGCGGCTGGCGGCGCTTGACGGCATCAAAACGGCGCTCGGTGGCGTGCAGGCGTATCAGGGCTATCAGCTCGGTACGGCT CAGGGAGAGGATGCGAAAAACCTGTTTGGCGTCAACCTGTCTTACGGCAGCCAGTCGTCAAAATCTCAGCAGACGCAGAC CTCGAACCAGAGCCAGGGCAGCACCCTCACCGCCGGCAATAACCTCAATATTCGCGCCACCGACGCGGATATCACCGTTC AGGGCAGCCAGCTGCAGGCCGGCAGGGATCTCGGCCTGGCTGCCGCCCGTGACGTCAACCTGCTGTCGGCGCAGAACACC TCGCTTCTTGAGGGGAAAAACGAAAGCCACGGCGCTTCCGTCGGCGTTGGCATTAATTTCGGCGGGGATAAAAACGGCCT GACCCTCAACGCCAGCGGCAATAAAGGCACAGGTTCGGAGAACGGCAACGGCGTCACGCATACTGAAACCACGCTCAACG CCGGTCATCATCTGACCATCAGCAGCGGGCGTGACACCACGCTGACCGGCGCACAGGTCAGCGGCGACAGCGTGACGCTG GACACGGCCCGCAACCTGACATTAACCAGCGAGCAGGACAGCGATAACTACGACTCGAAGCAGCAGAATGCCAGTGCGGG CGGCAGCGCTGGCGCTGGCGGCCCCGGCGGTTCGTTTAACCTCAGCCGTGATAAGATGCACAGCACATGGGATTCGGTGC AGGAGCAGACCGGCATCTTTGCCGGCAAAGGCGGCTTTGACATCACCACCGGCGGGCATACACAGCTCAACGGCGCGGTT ATCGGCAGCACCGCCACGGCGGATAAAAACCGCCTTGATACCGGCACGCTGGGCTTTGCTGATATAGATAACAGGGCCGA CTATAAGGTCGAACACCTGAGCACCGGCTTCAGCACCGGCGGCAGCACGGGTGGTCAGTTCCTGAGTAATCTGGGCAGCA CCCTGCTGGTCGGCGCCAACGGCGAAGACCACGACAGCTCCGCCACCCAAGCGGCGGTATCTGACGGCAGCATTATTATC CGTGATAAGAATGCGCAGCAGCAGGATGTCGCTGACCTGAGCCGCGACGTGGAGCATGCCAGCCAGACCCTTTCCCCGAT ATTCAACAAGGAGAAGGAGCAGCAGCGGCTGCAGGAAGCGCAGAAGATCGGCGAAATAGGGGCGCAGGCGCTGGATATTG CGGCGACCCAGGGTAAGATCGAAGCCACGCATGCGGCAAATGATAAAATTGCCGGGGCCACGCAGCACGACCGCGATAAA GCGCTGGCCGAACTGAAAAAGCAGGACCCGTCGAAGCAGTACGACAGCGCGGATATCGAAAAGCAGGTCTACCAGAACTT CTATAATCAGGCGCTGACGGAAAGCCAGTTCGGCACGGGGGGGAAAGTGCAACAGGCCATCCAGGCCGCCACGGCGGCGG TGCAGGGCCTGGCGGGCGGCAATATCGCGCAGGCGATGGCGGGCGGAGCGGCACCGTATCTGGCGGAGGTCATTCATAAA ATGACCTCCGACCCGGCAACCGGCAGTGTGGACGTCCAGTCTAATCTGATGGCGCACGCGGTACTGGGTGCGGTGGTGGC ACAGACGAGCGGTCACTCCGCTCTGGCCGGAGCCGCAGGCGCGACGACCGGCGAATTTATCGCGCAGCAGCTGTACCCGG GTATAGACAGGAACCAGCTTAACGAAGAGCAAAAGCAGACGGTTAGCGCGCTGGGTACGCTGGCGGCGGGTCTTGCGGGT GGCTTGACGGGAGGCAGCGCCGCCGATACAGTGGCGGGCGCGCAGGCCGGGAAGAATGCGGTGGAGAATAATGCGCTGAG TCTGCCGTCCGGCCTGCAGAGTTACGTTCAGGCGGTGGCATCGTGGGATCAGTATGCCGTGACAAACGAACTGACGCCGG AGCAGAAACAGGCCGGGCTGAATAAGCTGGCGCAGGGTGATTTACCCGCCGGACAGAATGCAGCCACGGGGCTGATAACG GCCTGGGGCGCGGGAGTGTCCGCTGTGGTTGCGCCCGTACTGTTGCCTTCCGGGGCAACGGCAGGAAGTATCCTGACAGG CGGTGTTATCAGTGGCGCGGCCAATGTCAGCAATCAGATTGCGGGCGGTGGCCCGGTAAGCATGACCGATGCACTGATAG CAGCGGGTTCAGGGGCTGTTACGCAAGGCAAAGGATTCTGGTTTACGGAGGGAGTCAGCGTCATCGGAGCTTACGGTGGT GCGACGTTGCAGGGTAAAGATGCAGTTCCTGCTGTGGCAGGGGCAGCCGTTGGTACTGCGATTGGTGCGGGTTCAGGCAT ACTTATTTCAGAAAAGTTGAAACCTGTAGTATCTGGTAATACGGCTGAAATTTTAGGCAATATAACTGGTTCGGCAACTT CTGAGGCTGCTGGTAGTGCAGTGCAAGAGGCCTTTAGCAAGGATAAAAATAAATGA Protein sequence : MNKLCYRIIFNRARGLLMVVADIARSRTGSSRTRRDKIPMRCCRLSPLSCAMLAAFAFVTSPGEAQAGIVADGQAPNNQQ PNIVSSANGTPQINIQTPSEAGVSRNTYSQFDVDNKGAILNNSRHHVATQLGGMVAGNQWLAGGEAKVILNEVNSRDPSR LHGYIEVAGRQAQVVIANPSGISCNGCGFINANRATLTTGQAQMSNGQLTGYAVERGEIVVQGAGMDSSRQDYTDVIARS VKINAGIVAKALNVTAGRNRVDAAHQQIDTLAADGSARPQLAVDVARLGGMYANKIRLIGTEQGVGVANAGNIGAQAGSL VVTADGRIENSGNLHSSAGMNVASNTAINNSGALQAGDSASLTSTGDLHNGGSIAARNHLQTQSASLNSEPGSVLAAGVN QDGKLTGSGKLTLTTSGQLRAQGQNLAAGDFTARGQGVDVRHGSSSANNITLDAGQSDLLTGSGAQIAAQRQLTASSGKM LNNDGGSLSADKLSINAHDLSNQQGAITQLGSDSLQLSHRGNLNNLGGSLASNGKDLTIQSAIINNQDGKIVHAADGNLS LSSDRLNGAQGQILSNGHLSMTTGDTLLDGGVTLAQLITLTANSLSNRDGKILQTGSGTLSLTALNAVENQNGTLAAGGD IHLRAASLNNQQGQISAQDNGSLNVNLLNPLNNQQGVIQADGTVGIDTQGQQIDNRSGLLSAGKSLTLLSGELVNQAGQL RSGGDLQLHSHGHKLDNAQGGIISSFGNARLDVSELDNRGGQLQTVGNALLNAFQGLVNNTAGLIRSGATTTINAAQIVN RDSNTQNTGLEGQSVQLNSDSLDNTQGTLRANDLLAITTMQSLNNSQGLVSSADAISVSGGDTLKLSNSGGTLISGKDLQ LRAASLAGDGRVLSQGAMTLNLQQGFVNQGDVIANGDLNFNVGGNVDNRALLKSGATLNLHSASLNNAAEGEISAGQNHI FTDGELTNRGLIDGSLTHIQSGTLTNTGSGRIYGDHIALQSGTLNNLAEGGTAATIAARERLDIGAQNINNSDHALIFSA GDAATGGQLNDIWQASGQASVFNNHSATLESVGNMTLNIGQINNFNDHLVTQEVVSEPSQHHEAVLQGATTRHDWDKVDT SYSNKYDVHDAIMPDGSVNNEFYEYQYQRTVTETQITESDPGQIIAGGNLTIDSDRINNYDSRMMAGGTLGVNPGAVLNN VASEGTKVTVDIGRQTHWYAKKSSNGLLGGTKTSQGKDTNRYRPAPMMQTFALATMVYQGHTQVNGSGTTIGGRATSELN QQADNAAVVTPPADHIVEIALPNQAANSVIRVTSPNTHLPDNSLFQLHGEVTSHYLIETDPRFTHQKQWLSSDYMQSALS QDPDRLDKRLGDGYYEQRLIREQIVDLTGQRYLAGYNNDGEQYKALMDAGVTFAKDYHLTLGVALTPAQMALLTSDMVWL VRQDVTLPDGSQQSVLVPQVYARVKKGDLDGSGALLSGNNLVLNTGRDLTNGGKIAGREVTQINADTLNNSGIIGANRVN LNALTDINNIGGTLQGGDALVAIAGRDINSSSTLAGDDSNRYLNRPAGIYVQNDNGALGLLAVNNINLTASQLDNSGNNS QTEIIAGHDLNLNTLTTTHSEKSDWGSDNYRHLTQTGDIGTQLNGGGSVALSAGHDLNAQAAAITAKDSVAMQAGHDINL TAGDSAYHLTEHSQQTVKGLLSGKSAETHDEVQSQSALGSSVSGNSVTMQAGHDLRVSASSVASTQDVSLLAGNDLNINT AGQSRQETHLREEEKTGLTGTGGIGFSYGKNALKTTDEGQSQSSAGSIVGSSRGNVNLTAGNALTVKGSEVLGGQDLNLS GKQVSILAADNQSVQTHTVEQKQSGLTLALSGAVGSAVNGAVTSASEASNASSGRLAALDGIKTALGGVQAYQGYQLGTA QGEDAKNLFGVNLSYGSQSSKSQQTQTSNQSQGSTLTAGNNLNIRATDADITVQGSQLQAGRDLGLAAARDVNLLSAQNT SLLEGKNESHGASVGVGINFGGDKNGLTLNASGNKGTGSENGNGVTHTETTLNAGHHLTISSGRDTTLTGAQVSGDSVTL DTARNLTLTSEQDSDNYDSKQQNASAGGSAGAGGPGGSFNLSRDKMHSTWDSVQEQTGIFAGKGGFDITTGGHTQLNGAV IGSTATADKNRLDTGTLGFADIDNRADYKVEHLSTGFSTGGSTGGQFLSNLGSTLLVGANGEDHDSSATQAAVSDGSIII RDKNAQQQDVADLSRDVEHASQTLSPIFNKEKEQQRLQEAQKIGEIGAQALDIAATQGKIEATHAANDKIAGATQHDRDK ALAELKKQDPSKQYDSADIEKQVYQNFYNQALTESQFGTGGKVQQAIQAATAAVQGLAGGNIAQAMAGGAAPYLAEVIHK MTSDPATGSVDVQSNLMAHAVLGAVVAQTSGHSALAGAAGATTGEFIAQQLYPGIDRNQLNEEQKQTVSALGTLAAGLAG GLTGGSAADTVAGAQAGKNAVENNALSLPSGLQSYVQAVASWDQYAVTNELTPEQKQAGLNKLAQGDLPAGQNAATGLIT AWGAGVSAVVAPVLLPSGATAGSILTGGVISGAANVSNQIAGGGPVSMTDALIAAGSGAVTQGKGFWFTEGVSVIGAYGG ATLQGKDAVPAVAGAAVGTAIGAGSGILISEKLKPVVSGNTAEILGNITGSATSEAAGSAVQEAFSKDKNK |
Gene | GenBank Accn | Product | Virulance or Resistance | PAI or REI | Alignment Type | E-val | Identity |
S4 | AAQ19127.1 | putative adhesin/hemagglutinin/hemolysin | Not tested | PAI I CL3 | Protein | 0.0 | 48 |