PAI Gene Information


Name : unnamed
Accession : CAD66214.1
PAI name : PAI III 536
PAI accession : X16664
Strain : Escherichia coli 042
Virulence or Resistance: Not determined
Product : putative hemoglobin protease
Function : -
Note : ORF66
Homologs in the searched genomes :   39 hits    ( 37 protein-level,   2 DNA-level )  
Publication :
    -Dobrindt,U., "Direct Submission", Submitted (09-NOV-2000) Dobrindt U., Institut fuer Molekulare Infektionsbiologie, Univ. Wuerzburg, Roentgenring 11, 97070 Wuerzburg, GERMANY REMARK revised by [4].

    -Dobrindt,U., "Direct Submission", Submitted (02-JUL-2001) Dobrindt U., Inst. f. Molekulare Infektionsbiologie, Univ. Wuerzburg, Roentgenring 11, 97070 Wuerzburg, GERMANY REMARK revised by [6].

    -Dobrindt,U., "Direct Submission", Submitted (11-FEB-2003) Dobrindt U., Inst. f. Molekulare Infektionsbiologie, Univ. Wuerzburg, Roentgenring 11, 97070 Wuerzburg, GERMANY.

    -Dobrindt,U., Blum-Oehler,G., Hartsch,T., Gottschalk,G., Ron,E.Z., Funfstuck,R. and Hacker,J., "S-Fimbria-encoding determinant sfa(I) is located on pathogenicity island III(536) of uropathogenic Escherichia coli strain 536", Infect. Immun. 69 (7), 4248-4256 (2001) PUBMED 11401961.

    -Dobrindt,U., Blum-Oehler,G., Nagy,G., Schneider,G., Johann,A., Gottschalk,G. and Hacker,J., "Genetic structure and distribution of four pathogenicity islands (PAI I(536) to PAI IV(536)) of uropathogenic Escherichia coli strain 536", Infect. Immun. 70 (11), 6365-6372 (2002) PUBMED 12379716.

    -Hacker,J., "Direct Submission", Submitted (02-OCT-1989) Hacker J., Inst. f. Genetik und Mikrobiologie, Univ. Wuerzburg, Roentgenring 11, 8700 Wuerzburg, GERMANY REMARK revised by [3].


DNA sequence :
ATGAATAAAATATACGCTCTAAAATATTGTTATATTACTAACACAGTAAAGGTTGTCTCTGAACTAGCCCGAAGGGTATG
TAAAGGGAGTACCCGCAGAGGAAAAAGACTTTCAGTACTTACCTCTCTGGCACTATCTGCATTACTCCCAACCGTTGCTG
GTGCATCAACGGTTGGTGGCAACAATCCTTACCAGACATACCGCGACTTTGCAGAAAACAAAGGGCAGTTTCAGGCTGGC
GCAACAAACATTCCTATTTTTAATAATAAAGGGGAATTAGTAGGACATCTTGATAAAGCGCCCATGGTTGATTTTAGCAG
TGTGAATGTAAGCTCAAATCCCGGCGTTGCAACATTAATTAACCCGCAATATATAGCCAGTGTAAAACATAATAAAGGAT
ATCAGAGCGTCAGCTTCGGTGATGGTCAGAACAGTTACCATATTGTGGATCGTAATGAACACAGTTCATCTGATCTCCAC
ACACCAAGACTTGATAAGCTCGTAACTGAGGTTGCTCCGGCTACCGTAACCAGCTCATCAACAGCTGATATATTGACCCC
TTCAAAATACTCGGCATTCTACAGGGCTGGTTCGGGAAGTCAGTATATTCAGGATAGTCAGGGTAAGCGACATTGGGTAA
CAGGTGGGTATGGTTATCTGACAGGAGGAATACTCCCGACATCATTCTTTTATCACGGCTCAGACGGCATTCAGCTGTAT
ATGGGGGGCAACATACATGATCATAGCATCCTGCCCTCTTTTGGAGAGGCCGGCGACAGTGGTTCTCCATTATTTGGCTG
GAATACGGCCAAAGGGCAGTGGGAACTGGTCGGTGTTTACTCGGGAGTAGGAGGGGGGACCAATTTGATATATTCTCTTA
TTCCTCAGAGTTTTCTCTCACAGATCTATTCAGAGGATAATGACGCTCCCGTCTTTTTTAATGCCTCATCCGGCGCCCCC
CTGCAATGGAAATTTGACAGCAGCACCGGCACTGGCTCTCTGAAACAGGGTTCCGATGAATATGCCATGCACGGGCAAAA
AGGTTCTGACCTGAACGCAGGTAAAAATCTGACATTCCTGGGACATAATGGTCAGATTGACCTGGAAAACTCTGTCACGC
AGGGTGCCGGTTCACTGACATTTACTGATGACTACACTGTCACCACTTCAAACGGAAGTACCTGGACCGGGGCCGGTATT
ATTGTGGACAAGGATGCCTCCGTAAACTGGCAGGTTAATGGTGTGAAAGGTGACAACCTGCATAAAATCGGCGAAGGAAC
CCTGGTTGTACAGGGAACCGGTGTTAATGAGGGCGGCCTGAAAGTCGGGGATGGGACCGTTGTCCTCAATCAGCAGGCTG
ACAGTTCAGGACACGTTCAGGCATTCAGTAGCGTGAATATTGCCAGCGGCCGCCCGACAGTCGTGCTGGCAGACAACCAG
CAGGTTAATCCGGACAATATATCCTGGGGCTACCGGGGGGGTGTTCTGGATGTTAACGGGAATGACCTGACATTTCATAA
GCTGAATGCCGCCGATTATGGCGCAACTCTCGGTAACAGCAGTGATAAAACGGCTAATATCACTCTGGATTATCAGACGC
ATCCGGCAGACGTAAAAGTTAATGAATGGTCATCATCAAACAGGGGAACAGTAGGTTCATTATATATTTATAATAATCCC
TATACTCATACCGTCGATTATTTTATCCTGAAAACAAGTAGTTATGGCTGGTTCCCTACCGGTCAGGTCAGTAACGAGCA
CTGGGAATATGTCGGACATGACCAGAACAGTGCACAGGCGCTGCTTGCAAACAGAATTAATAATAAAGGGTATCTGTATC
ATGGCAAGTTGCTGGGAAATATTAATTTCTCAAATAAAGCAACCCCGGGTACAACCGGCGCATTGGTTATGGACGGCTCA
GCGAATATGTCCGGTACATTTACTCAGGAAAACGGTCGTCTGACCATTCAGGGCCACCCGGTTATCCATGCTTCAACGTC
TCAGAGTATTGCAAATACAGTCTCGTCTCTGGGCGACAATTCCGTTCTGACACAGCCCACCTCATTTACACAGGATGACT
GGGAGAACAGGACGTTCAGCTTTGGTTCGCTCGTGTTAAAAGATACAGACTTTGGTCTGGGCCGCAATGCCACACTGAAC
ACAACCATCCAGGCAGATAACTCCAGCGTCACGCTGGGCGACAGTCGGGTATTTATCGACAAAAAAGATGGCCAGGGAAC
AGCCTTTACCCTTGAAGAAGGCACATCTGTTGCAACTAAAGATGCAGATAAAAGTGTCTTCAACGGCACCGTCAACCTGG
ATAATCAGTCAGTGCTGAATATCAATGATATATTCAATGGCGGAATACAGGCGAACAACAGTACCGTGAATATCTCCTCA
GACAGTGCCATTCTGGGGAACTCAACGCTGACCAGTACCGCCCTGAATCTGAACAAGGGAGCAAATGCTCTGGCCAGTCA
GAGTTTTGTTTCTGACGGTCCAGTGAATATTTCTGATGCCACCCTGAGTCTGAACAGCCGTCCTGATGAGGTATCTCACA
CACTTTTACCTGTATACGATTATGCCGGTTCATGGAACCTGAAGGGAGACGATGCCCGCCTGAACGTGGGGCCGTACAGT
ATGTTGTCAGGTAATATCAATGTTCAGGATAAAGGGACTGTCACCCTCGGAGGGGAAGGGGAACTGAGTCCTGACCTGAC
TCTTCAGAATCAGATGTTGTACAGCCTGTTTAACGGGTACCGCAATACCTGGAGCGGGAGCCTGAATGCACCGGATGCCA
CCGTCAGCATGACAGACACCCAGTGGTCGATGAACGGAAACTCCACGGCAGGAAATATGAAACTTAACCGGACAATAGTC
GGTTTTAACGGGGGAACATCATCGTTCACGACACTGACAACAGATAATCTGGACGCGGTTCAGTCAGCATTTGTCATGCG
TACAGACCTTAACAAGGCAGACAAACTGGTGATAAACAAGTCGGCAACAGGTCATGACAACAGCATCTGGGTTAACTTCC
TGAAAAAACCCTCTGACAAGGACACGCTTGATATTCCACTGGTCAGCGCACCTGAAGCGACAGCTGATAATCTGTTCAGG
GCATCAACACGGGTTGTGGGATTCAGTGATGTCACCCCCACCCTTAGTGTCAGAAAAGAGGACGGGAAAAAAGAGTGGGT
CCTCGATGGTTACCAGGTTGCACGTAACGACGGCCAGGGTAAGGCTGCCGCCACATTCATGCACATCAGCTATAACAACT
TCATCACTGAAGTTAACAACCTGAACAAACGCATGGGCGATTTGAGGGATATTAACGGCGAAGCCGGTACGTGGGTGCGT
CTGCTGAACGGTTCCGGCTCTGCTGATGGCGGTTTCACTGACCACTATACCCTGCTGCAGATGGGGGCTGACCGTAAGCA
CGAACTGGGAAGTATGGACCTGTTTACCGGCGTGATGGCCACCTACACTGACACAGATGCGTCAGCAGGCCTGTACAGCG
GTAAAACAAAATCATGGGGTGGTGGTTTCTATGCCAGTGGTCTGTTCCGGTCCGGCGCTTACTTTGATTTGATTGCCAAA
TATATTCACAATGAAAACAAATATGACCTGAACTTTGCCGGAGCTGGTAAACAGAACTTCCGCAGCCATTCACTGTATGC
AGGTGCAGAAGTCGGATACCGTTATCATCTGACAGATACGACGTTTGTTGAACCTCAGGCGGAACTGGTCTGGGGAAGAC
TGCAGGGCCAAACATTTAACTGGAACGACAGTGGAATGGATGTCTCAATGCGTCGTAACAGCGTTAATCCTCTGGTAGGC
AGAACCGGCGTTGTTTCCGGTAAAACCTTCAGTGGTAAGGACTGGAGTCTGACAGCCCGTGCCGGCCTACATTATGAGTT
CGATCTGACGGACAGTGCTGACGTTCACCTGAAGGATGCAGCGGGAGAACATCAGATTAATGGGAGAAAAGACGGTCGTA
TGCTTTACGGTGTGGGGTTAAATGCCCGGTTTGGCGACAATACGCGTCTGGGGCTGGAAGTTGAACGCTCTGCATTCGGT
AAATACAACACAGATGATGCGATAAACGCTAACATTCGTTATTCATTCTGA

Protein sequence :
MNKIYALKYCYITNTVKVVSELARRVCKGSTRRGKRLSVLTSLALSALLPTVAGASTVGGNNPYQTYRDFAENKGQFQAG
ATNIPIFNNKGELVGHLDKAPMVDFSSVNVSSNPGVATLINPQYIASVKHNKGYQSVSFGDGQNSYHIVDRNEHSSSDLH
TPRLDKLVTEVAPATVTSSSTADILTPSKYSAFYRAGSGSQYIQDSQGKRHWVTGGYGYLTGGILPTSFFYHGSDGIQLY
MGGNIHDHSILPSFGEAGDSGSPLFGWNTAKGQWELVGVYSGVGGGTNLIYSLIPQSFLSQIYSEDNDAPVFFNASSGAP
LQWKFDSSTGTGSLKQGSDEYAMHGQKGSDLNAGKNLTFLGHNGQIDLENSVTQGAGSLTFTDDYTVTTSNGSTWTGAGI
IVDKDASVNWQVNGVKGDNLHKIGEGTLVVQGTGVNEGGLKVGDGTVVLNQQADSSGHVQAFSSVNIASGRPTVVLADNQ
QVNPDNISWGYRGGVLDVNGNDLTFHKLNAADYGATLGNSSDKTANITLDYQTHPADVKVNEWSSSNRGTVGSLYIYNNP
YTHTVDYFILKTSSYGWFPTGQVSNEHWEYVGHDQNSAQALLANRINNKGYLYHGKLLGNINFSNKATPGTTGALVMDGS
ANMSGTFTQENGRLTIQGHPVIHASTSQSIANTVSSLGDNSVLTQPTSFTQDDWENRTFSFGSLVLKDTDFGLGRNATLN
TTIQADNSSVTLGDSRVFIDKKDGQGTAFTLEEGTSVATKDADKSVFNGTVNLDNQSVLNINDIFNGGIQANNSTVNISS
DSAILGNSTLTSTALNLNKGANALASQSFVSDGPVNISDATLSLNSRPDEVSHTLLPVYDYAGSWNLKGDDARLNVGPYS
MLSGNINVQDKGTVTLGGEGELSPDLTLQNQMLYSLFNGYRNTWSGSLNAPDATVSMTDTQWSMNGNSTAGNMKLNRTIV
GFNGGTSSFTTLTTDNLDAVQSAFVMRTDLNKADKLVINKSATGHDNSIWVNFLKKPSDKDTLDIPLVSAPEATADNLFR
ASTRVVGFSDVTPTLSVRKEDGKKEWVLDGYQVARNDGQGKAAATFMHISYNNFITEVNNLNKRMGDLRDINGEAGTWVR
LLNGSGSADGGFTDHYTLLQMGADRKHELGSMDLFTGVMATYTDTDASAGLYSGKTKSWGGGFYASGLFRSGAYFDLIAK
YIHNENKYDLNFAGAGKQNFRSHSLYAGAEVGYRYHLTDTTFVEPQAELVWGRLQGQTFNWNDSGMDVSMRRNSVNPLVG
RTGVVSGKTFSGKDWSLTARAGLHYEFDLTDSADVHLKDAAGEHQINGRKDGRMLYGVGLNARFGDNTRLGLEVERSAFG
KYNTDDAINANIRYSF