Gene Information

Name : plu2320 (plu2320)
Accession : NP_929572.1
Strain : Photorhabdus luminescens TTO1
Genome accession: NC_005126
Putative virulence/resistance : Virulence
Product : hypothetical protein
Function : -
COG functional category : Q : Secondary metabolites biosynthesis, transport and catabolism
COG ID : COG1020
EC number : -
Position : 2720286 - 2726435 bp
Length : 6150 bp
Strand : +
Note : Similar to HMWP2 protein of Yersinia enterocolitica

DNA sequence :
ATGCACAAGGATTTTGTCTCTCCAGATTCACTGCGTCAGATCATATCTGGCCTGTTTACTCAAAAAAATACACTGGTGGA
TGATAACGATGATTTAATTCGCAAAGGGCTGGACTCAATGCAAATGATGGCATTGTTAAACCAGTTGAGGCGTCAGGGAT
ATCGCGTCACCCTTCGTGAACTGTATCAAAAACCCACACTGTATGCCTGGAGCCAGCTTCTGCAACGTCATGCGCCTGTT
ACTCATACAGCACTTAAGCCTGATGTGGCGCAGCCATTGATTGCGGATGCTCGTCCGTTCCCGTTGACTGCGGTACAACA
TGCGTATTTTGTTGGGCGTTCGCCAGAACAGACATTGGGAGGAGTCGGTTGCCATTTATATCAAGAATTTGACGGTATCG
GGTTGGAGCCTGAACCACTGGAAGCGGCAATTCATAAGTTGATTCAGCGACATCCGATGTTACGAGTGCGGTTTTTGCCC
GATGGTCGCCAGCAAGGGATGGCCGATGCTTATTGGAAAAAATTAACGGTTCATGACCTGCGCAGCTTTACAGCAGAAGA
ACAGCGACAAGCGCTGAATAATATACGTGAACAACTAAGCCATCGGGTATTACAGGTTGAACAAGGGGAAACGTTCGATA
TTCAGCTAAGTCTGTTTGGAGAGAATCAGCACCGGTTGCACGCTAATATTGATTTGCTGATCATGGATGCCGCCAGTTTT
AGCCTGTTCTTTACTGAACTGGCGGCATTAATTGTTAAACGCAACCTGCCGGTTATTCCTTCTGACTACGATTTTTGCCG
CTATTTGGTGCAATATCAGGCGCAATTTGCGCAGGCTCGACAAGAAGCAGAGATATTCTGGCGTAACCGGTTAGATACCC
TTCCCCCTGCCCCTCAACTCCCTCTGGCTAAGGAACCTTCCCTAATAAAAAACGTCCGCATTCAGCGCAGATGCTTCCGT
TTGGCTCCTGAATATTGGCAACGTTTTAAACAACTTGCTCAACAAAATGGTGTTACGCCAACGATGGCATTGGCAACCGC
ATTTGCCGGTTTATTATGTCGCTGGAATCATGCTCCCCGTCTGTTGTTTAACCTGACGTTGTTTGACAGAGCGCCATTGC
ACACGGAAGTTGACAACCTGTTGGCCGACTTTACTAATATTTTGCTGTTAGATATTCCCGCTGATAACTTGCCGTTCTGC
CAACTGGCTCAAGACGCGCAAGCAACATTTGCTGAAGCTTACGAACACCGCCATTGGTCTGGTGTAGAAGTTTTACGTGA
ACTTAAAAAACGCGGTAGTCATCCACATGGTGCGCCAATTGTGTTTACCAGCAATTTAGGTCGACCTTTATATGGTGAAA
ATACCCGTGATGTTCTGGGAAAACCAAGTTGGGGAATATCACAAACCCCTCAGGTATGGCTGGATTTCGTTGCATTTGAA
CATGAAAACACGCTGAATATTCAGTGGGATAGTAACGATGAACTCTTTCCTGACGGGTTAATGGATACCTTATTTACTGC
CTATCAGGGGTTCATTGGAAATTTAACGGAAAACGCTACACAGTGGAGTAAAGAATTACCGGATCTGATGCCTAAATCGC
AATACCAACTGCGGTATCAGATCAATAACACAACTGAACCTTTGCCGGATGCTCTTCTGCATGAAGGGGTGTTTTTGCAG
GCAGAACGCACACCAAATATTGTTGCTTTGGTGACTAATAATAAGGAAATCAGTTATGGTGAATTAAGTTTGGCCGCTCG
CCGGTTAGCAACCGTGTTGCAAAAAATGTCGGTTATACCGGGAGATCGGGTTGCCATTAGCATGGAAAAAAGTGTCGGAC
AAATTGTTGCGGTATTGGCGATACTTTATATCGGCGGCGTTTATGTACCGGTTCCTGTTGATCAGCCAGTAAACCGACGT
CGTGCTATCTGCGAAAGTGCTGGGATTCGCGTCGTTATCATTGATCCTGAACAACACATTGATCTTGAAAAACAAGGTGA
TGACTGGTCACAAGATGTGCATTGTGTTTCTTGGCATCAGGATGAGCAATGGCCGCCTTTGGCAAACATGGTTAAGCGTG
CGGTTACTGATCCGGCTTATATCATCTATACCTCTGGTTCAACCGGTATACCAAAAGGCGTCGTTATCAGCCACCAGAGC
GCACTCAATACCTGTTTGGATATCAATCGCCGTCATCAGGTCCAAAGTAGCGACCGGTTATTGGCACTCTCTGCTCTACA
TTTCGACCTCTCCGTTTATGACATTTTCGGTATTCTCACCGCGGGAGGTGCGCTGGTATTAATTAATGAAGCACAGCGTC
GTGACCCATCAACTTGGGAAATGCTGATCGCGCGTCATCATGTGACGTTGTGGAATAGTGTGCCCGCACTGTTCGATATG
TTACTGACCTATTGCGAAGGCATGGAGGTCGATGCGCCGAAAGCACTTCGTACTGTGATGTTGTCCGGGGACTGGATCGG
TTTGTCACTGCCTGAACGTTACCGCGCCTTCAATCCTGATGGTGTTTTGAGTGCAATGGGCGGTGCTACAGAAGCGGCTA
TTTGGTCAAACGAATATATCGTCAAAGCAGTTGAAGCACAGTGGCGCTCCATTCCGTATGGCTATCCTTTAGCTAACCAG
CGCTACCGTGTCGTGGGTGAAGATGGTCGTGATTGCCCTGATTGGGTTGTCGGTGAGCTTTGGATTGGTGGCTCCGGTGT
CGCATTAGGCTACTTTAATGATGAAGAACGTACTTCCGCTCAATTTGTTGTCGATCAAGGGGAACGCTGGTACCGCACCG
GTGATCTGGGTTGTTACCATCCTGAAGGTTGGCTTGAATTTCTGGGACGTCGTGATAGTCAGGTAAAAATTGGTGGTTAC
CGAATTGAGTTGGGGGAAATTGATGCGGCCCTTAATCAAGTCACTGGGATTAGTAAAGGAGTGGCACTCGCCAGTGGCGA
AAAAGAGAAGTCGCTAGTGGCGTTCCTTGAATTAGAAGGTGATTCTTTATGCCAACGGATCAATCGTGCACCGCAGTTAT
CCGCTGGCTATCGTGAGCTGTTCCCCGCAATGCATGCAATAACCGCAGATAGCAGTGAACCTCAAGTTGCCATGTTCCTG
CTGGAACATCTATCTCGTCACGGTATTACCTTTACTTCACCGCAGTCACTGACAGATTGCTTGAAACACTATCAGCCCCA
AGCGGAGTATCATGACTGGTTTGCCCGTATGTTGGCATATCTTTGCCAATGTAAGGTACTGGTTGAATCTACACCGTATA
TATATCAGGCCGGATGGTTACCCGCTACATCCAATGATCAGGCGATAGGTATCCCGGAACGTTGGCACACTGTGTTACGC
GATGTTCTTACCGGGCAACAGACGGCGGTTGCATTACTTGACGATCCGCAATTCGCACCGGAACAACAATTGTTTGTGTT
GCCAGAAACCCAGCAGTGGCTGACCGGGTTGCAACAAGTCATCACCATCCTCTCTCAGAGATTACAACGCCCCGTGACTT
TGATGGAGTTTGATGCTCGCAGCGGTCGCTGTGCGCAGTGGTTAGCAGAGCATATTACTGATCAGCATCTCTGTTATCTC
GGCTTTGAACGTTCTCAGGCACTGGTCAATCAGGCGCAAACACGGTTAAGCGGTTATGCTCATGCATCAGTACAATATTG
GTCTAAAGTGCAAGGTTGGTCTAAACAAGTTCCTGAATCGCTGCAACATCAGGCTGATATTATTCTGCTGAATAATGTAT
TACACCGGGAAGAAGATCCTGCACGTTGTCTCAAGGAATTGGTACCATTTGCTCAACCCGGCGCGTTGATATTGGCAATG
GAGTTGCAACAGGCATCGTCTCTTTCCCTGATTACGACTGAATTGCTTTCACCTCAAGGTATTCAATTACGTTCTGCGTC
ACAGTGGTTATTGTTATTGCCACAACTATTACCACTACTACCACTACAGGCTGAAACGCCAATTACCATCGGTAACCTTA
GTGTGTTATTGATGCAAACAAGTGACAGCGTAACTATTCCTGATCGGGAAAAAATTAAGTCTGTGCTGGCACAACATCTG
CCGGGATATATGATCCCACAGCGCTTGCATATTATTCCTCGTCTGCCATTGACACCTAACGGCAAAATTGATCGTAAGGC
GCTATCGCAAGAACTACAGTCTGCGATAAAAACAGAGACAGCACCGCGCCAGAATGAAATGGCCTTGTTGAATGCGGTGG
AACAAACCGTTGCCGGCATTTGGCAACGCTTGCTCAATACAGAACAACTGGGCTGTGACAGTGACTTTTTCCAACTTGGC
GGTGATAGTCTTCTGGCTACGCGTTTGGTTGGTGAACTGACACAACAAGGCTTTAAAGGTGAGCTGGGCCATCTTTTCCG
TAACCCACAATTGGCAGCATTTGCGGCTACACTGGTTCCTCTGGCTGAAACTTCATCAACAGAGTGCGCTCTGCCGAAAG
AGCAAAATGAGTACCAGCCTTTCCCACTCACGGAAGTTCAGCAGGCTTATTTGGTCGGACGCCATCCGGGTTTCGCTTTA
AGTGGTGTTGGCGCGCATTTCTTTATTGAATACCAGATAGAGCAGTTAGATGTTCAACGTTTAAATCGGGTGTTAAATCG
TCTGATTCAGCGTCATCCCATGCTCAGAACCGTGGTTGTCAATGGGCAGCAACAGGCATTAGAAAATGTCCCGCTGTTCT
CCGTCAAACAACATCAATTCACCAATATTACGCAGGCAGATACATTACGCGAACAGCTTTCGCATCAAGTATTAGATGCC
AGTAGCTGGCCAGTGTTCGATTTTCAGCTTGCGCAAGATGATGGGATTGTCTCCCGGCTATTTGTCAGCTTGGATAATCT
GCTATTAGACGGGTTGAGCATGCAGATATTGCTGGCCGAGTTAGAACAGCTTTATCTCGACGAGCAGCATGAATTGCCAC
CATTGAAAGTCACATTCCGGGATTGTGTACTACGCCAGCAACAGGCACCAGCACATCAGCGTTCGCTGCAATATTGGCAG
GAGCAAGTGAAAACATTACCACTGGCACCACAATTGCCACTGCGTATTGCCCCGGAAAAGGTTCAATCGCCACGTTTTGT
GCGCTATAGCGATCGGCTATCTGCATATGAATGGAGCCAGTTGAAACAACATGCAGCTCCTTATCAAATAACGCCTTCCG
CGCTATTAATTGCGGCTTATGCAGCGGTTCTTTCTGCGTTCAGTACTAAACCGGAGTTAACGCTCAACCTTACTCTGTTC
GATCGCCCACACTGGCATGAAGATATCAATCACATTTTGGGTGATTTCACTTCTCTGTCATTACTGGCCTGGCACCCGGA
GAAAAATTGGTTATCAAGTGCCCGTAGATTGCAACAACAGTTATGGCAGGATCTAGATCACCGTCACATTTCAGCAATTA
GAGTGATGCGTGAATTGGTACAGAGCCGTAGCGCCGATGCGGCCATTATGCCGGTCGTTTTCACCAGTGCATTGGGAACA
CACCAAGGGCAATTCCTTTCGCATTCATCGTGGATGAAACCCGTTTGGGGTATTTCCCAAACGCCACAAATCTGGTTGGA
TCACCAGGTTTATGAATCTGATAATGAACTTTGTCTAAATTGGGATGCTGTCGAAGAATTGTTTGAACCACATCAGTTGC
AAAACATGTTCAATAGCTACATGACGCTATTGCGTGCCCTTGCGGCTCAGCCAGAAAGTTGGCATGCAGCACTGGAACAA
TTGATGCCACGCCAGCAATCCGTGATGGTTGAAAATACTGCTGTTGCCATTGCGCCATCATTGCGTTCAGAGGGATATGA
CCCTCAAATATGCAGTAAAATTCAACGTCTGTTCTTGTCCATAACAAATCATCCTATTAACGCACAACAAAACTTTTTTG
AGGCAGGAGCCAGCTCGCTACAGCTAATTCAATTGCACAGCAAACTACAACATGCGGGTTTTTATCATCTTGCCGTGACC
GATTTATTTGCTTATCCAACACCAGAGACGCTCAGTTTGCGCTGCCGGAAGGATTCCCACGACGGAAATCGCCAGTCGAT
TACCCCTCGTCAGCGTCAACAACAGAAGCGTCTGCAACAACGGGAAAAACGTCATAAAGGAGCTGCATAA

Protein sequence :
MHKDFVSPDSLRQIISGLFTQKNTLVDDNDDLIRKGLDSMQMMALLNQLRRQGYRVTLRELYQKPTLYAWSQLLQRHAPV
THTALKPDVAQPLIADARPFPLTAVQHAYFVGRSPEQTLGGVGCHLYQEFDGIGLEPEPLEAAIHKLIQRHPMLRVRFLP
DGRQQGMADAYWKKLTVHDLRSFTAEEQRQALNNIREQLSHRVLQVEQGETFDIQLSLFGENQHRLHANIDLLIMDAASF
SLFFTELAALIVKRNLPVIPSDYDFCRYLVQYQAQFAQARQEAEIFWRNRLDTLPPAPQLPLAKEPSLIKNVRIQRRCFR
LAPEYWQRFKQLAQQNGVTPTMALATAFAGLLCRWNHAPRLLFNLTLFDRAPLHTEVDNLLADFTNILLLDIPADNLPFC
QLAQDAQATFAEAYEHRHWSGVEVLRELKKRGSHPHGAPIVFTSNLGRPLYGENTRDVLGKPSWGISQTPQVWLDFVAFE
HENTLNIQWDSNDELFPDGLMDTLFTAYQGFIGNLTENATQWSKELPDLMPKSQYQLRYQINNTTEPLPDALLHEGVFLQ
AERTPNIVALVTNNKEISYGELSLAARRLATVLQKMSVIPGDRVAISMEKSVGQIVAVLAILYIGGVYVPVPVDQPVNRR
RAICESAGIRVVIIDPEQHIDLEKQGDDWSQDVHCVSWHQDEQWPPLANMVKRAVTDPAYIIYTSGSTGIPKGVVISHQS
ALNTCLDINRRHQVQSSDRLLALSALHFDLSVYDIFGILTAGGALVLINEAQRRDPSTWEMLIARHHVTLWNSVPALFDM
LLTYCEGMEVDAPKALRTVMLSGDWIGLSLPERYRAFNPDGVLSAMGGATEAAIWSNEYIVKAVEAQWRSIPYGYPLANQ
RYRVVGEDGRDCPDWVVGELWIGGSGVALGYFNDEERTSAQFVVDQGERWYRTGDLGCYHPEGWLEFLGRRDSQVKIGGY
RIELGEIDAALNQVTGISKGVALASGEKEKSLVAFLELEGDSLCQRINRAPQLSAGYRELFPAMHAITADSSEPQVAMFL
LEHLSRHGITFTSPQSLTDCLKHYQPQAEYHDWFARMLAYLCQCKVLVESTPYIYQAGWLPATSNDQAIGIPERWHTVLR
DVLTGQQTAVALLDDPQFAPEQQLFVLPETQQWLTGLQQVITILSQRLQRPVTLMEFDARSGRCAQWLAEHITDQHLCYL
GFERSQALVNQAQTRLSGYAHASVQYWSKVQGWSKQVPESLQHQADIILLNNVLHREEDPARCLKELVPFAQPGALILAM
ELQQASSLSLITTELLSPQGIQLRSASQWLLLLPQLLPLLPLQAETPITIGNLSVLLMQTSDSVTIPDREKIKSVLAQHL
PGYMIPQRLHIIPRLPLTPNGKIDRKALSQELQSAIKTETAPRQNEMALLNAVEQTVAGIWQRLLNTEQLGCDSDFFQLG
GDSLLATRLVGELTQQGFKGELGHLFRNPQLAAFAATLVPLAETSSTECALPKEQNEYQPFPLTEVQQAYLVGRHPGFAL
SGVGAHFFIEYQIEQLDVQRLNRVLNRLIQRHPMLRTVVVNGQQQALENVPLFSVKQHQFTNITQADTLREQLSHQVLDA
SSWPVFDFQLAQDDGIVSRLFVSLDNLLLDGLSMQILLAELEQLYLDEQHELPPLKVTFRDCVLRQQQAPAHQRSLQYWQ
EQVKTLPLAPQLPLRIAPEKVQSPRFVRYSDRLSAYEWSQLKQHAAPYQITPSALLIAAYAAVLSAFSTKPELTLNLTLF
DRPHWHEDINHILGDFTSLSLLAWHPEKNWLSSARRLQQQLWQDLDHRHISAIRVMRELVQSRSADAAIMPVVFTSALGT
HQGQFLSHSSWMKPVWGISQTPQIWLDHQVYESDNELCLNWDAVEELFEPHQLQNMFNSYMTLLRALAAQPESWHAALEQ
LMPRQQSVMVENTAVAIAPSLRSEGYDPQICSKIQRLFLSITNHPINAQQNFFEAGASSLQLIQLHSKLQHAGFYHLAVT
DLFAYPTPETLSLRCRKDSHDGNRQSITPRQRQQQKRLQQREKRHKGAA

• Homologs from PAI DB

GeneGenBank Accn Product Virulance or Resistance PAI or REI Alignment Type E-val Identity
irp2 YP_002346902.1 yersiniabactin biosynthetic protein Virulence HPI Protein 0.0 49
irp2 NP_669706.1 HMWP2 nonribosomal peptide synthetase Virulence HPI Protein 0.0 49
irp2 YP_070124.1 yersiniabactin biosynthetic protein Virulence HPI Protein 0.0 49
irp2 YP_001006815.1 yersiniabactin biosynthetic protein Virulence HPI Protein 0.0 49
irp2 YP_853075.1 yersiniabactin biosynthetic protein Virulence PAI IV APEC-O1 Protein 0.0 49
irp2 NP_993007.1 yersiniabactin biosynthetic protein Virulence HPI Protein 0.0 49
irp2 CAA21390.1 - Virulence HPI Protein 0.0 49
PMI2599 YP_002152317.1 non-ribosomal peptide synthase Not tested Not named Protein 0.0 42