Gene Information

Name : PSPTO_2602 (PSPTO_2602)
Accession : NP_792411.1
Strain : Pseudomonas syringae DC3000
Genome accession: NC_004578
Putative virulence/resistance : Virulence
Product : yersiniabactin non-ribosomal peptide synthetase
Function : -
COG functional category : Q : Secondary metabolites biosynthesis, transport and catabolism
COG ID : COG1020
EC number : -
Position : 2884461 - 2890634 bp
Length : 6174 bp
Strand : -
Note : Catalyzes the condensation of salicylate with two molecules of cysteine which are both cyclized to thiazoline rings. This enzyme contains a single adenylation domain which most likely charges both of final two thiolation domains with cysteine. Following t

DNA sequence :
ATGTACACATCGACCAGAAAAGCCTCGACTGCTCGCGGTACGCCACCTCAAGCTTTCGACCCCGCCCTGCTGGGCGAGGA
CATCGCCAGGCAACTGCGTCTGTCCCCGGAGCAGCTGGCGGATGACGCCAACCTGTTGAAGCTGGGCATGGACTCGATGC
ACCTGATGGCCTGGCTCAACCGGTTTCGCCGTCTGGGTTTCAAAGTGACCCTCAGCGACCTCTATGACCAGCCGACACTG
CAGGGCTGGCAGCAACTGCTGAGCAGCGCGCCCGTTCAAGTCAACAGCGCCGAGGTCGCCAGCAACGACGAGCCGCTTGC
GCTCATGAGCGACGGCCAGCCGTTCGCCCTGACCAGTGTGCAGCATGCTTATCTAGTGGGGCGTTCCAGTGAACAGCCGC
TGGGTGGCGTGGGTTGTCATCTTTATCAGGAATTCGACGGTCGCGGCCTGACACCACAGGTGCTGGAAGCCGCCATCTAT
CAGTTGATCGAACGGCATCCGATGCTCAAGACGCGCTTTCTGGCCGACGGCCGTCAACAGTGGCAAGCGCATTCGACCTG
GCCGGGCCTCAAGGTTCATGACCTGCGCGATAGCGATGACACGCTTCGCCAGCAGCGCCTGGGGGACCTGCGCGAACAGC
TGGGCCATCGTCGCCTTGACGTCGAAAACGGCGAAACCTTCGACTTCCAGCTGTGCCTGTTGCCCGACGGTGGAAACCGG
CTGTTGGTCAACATTGATCTGCTGGTTGCCGACGCAGCCAGCTTCAATCAGTTGTTCGAAGAACTGATCGCGTTGATCGA
AGACCGGCCGTTGCCGCCGTCGCCTGTCGATTACGATTTCTGCAGTTACCTGACGCAGGTAAGGCGCAATGATCAGGCCC
GCGTCGAGAAGGCCAAAGCCTGGTGGCTGGCACGTCTGGACGACCTGCCACTGGCACCGATTCTGCCGCTGGCGCAAGAC
CCTGAGCGCATCGCGCAGGTTCGCATCAGCCGCCGTCGCGGACAACTGGACGCAGCGCAATGGCAGGCATTCAAGGACCA
CGCCGGAACCGCTGGCGTTACGCCGACCATGGCGCTGGCCACGCTGTTCAGTGCAGTGCTGGGTCGCTGGAGCGGGCAAC
AGTCGCTGCTGCTTAACCTCACCCTGTTTGACCGCCAGCCGCTGAACCCGGCAGTCGCCAGCATGATCGCCGATTTCACC
AATATTCTCGCGTTGCCAGTGAGCTGCTGCGGGCAAGCCTTCGCAGAGTTGGCGCAAGCCAATCAGCAGTCGTTTGCCGA
AGTTCACGAACACAGTGCGTGGTCGGGGGTCGAGGTGCTGCGCGAATTGAAGAAACGCCAGCGCCACCCGCACGGTGCGC
CGCTGGTGTTCACCAGCAATCTGGGCCGCCCGCTGTTTGGCGAAGCCGCAGAGAACACGCTGGGCGCACCCGGCTGGGGC
ATTTCCCAGACGCCGCAGGTGTGGATCGACCACCTGGCGTTCGAGCATCAGGGGCAGGTCTATCTGCAGTGGGACAGCAA
TAACCAGTTGTTCCCCGAGGGGCTGACCGACACCTTGTTCGACGTCTATTTCGAACACGTGCTGGCGCTGGTCGCAGACC
CCGCGCACTGGTCACACCCCTTGCCCGACCTGATGCCTTCCGCCCAGCGAGCCGTCCGCGAACAGGTCAATGCCACCGCC
CGGGCCATTCCTGACGGGCTGCTGCACGACGCCGTTTTCCTCCAGGCCGAACGCACCCCGCAAGCCACCGCACTGATTCA
GGACCAGCGCCGTCTGAGCTTCGCCCAACTGGCCGATCAGGCCAGTCGCCTGGCCGGCTGCCTGCAAGCCCTGGGTGTCA
CAGCGGGCGACACCGTGGCGGTCAGCATGACCAAGGACATCGGCCAGATTGTCAGTGTGCTGGGCATTCTCAAGGCTGGT
GCGATCTATGTGCCCGTACCGCCGGACCAGCCATTGGCGCGGCGTATCGGCATTTATCAGGGTGCGCAGGTGAAATGCGT
GCTGACCAGCGCCGATGAGCCTGAAGAGCACGACATCGGCACGGTCCTGACCTGGCAGCAGGCAATCCTCAGCGAACCGC
TTCAGCACCAGGTCCCGGTCAGCGCACAGCAACCGGCCTATATCATCTACACCTCAGGCTCGACCGGTGAACCCAAGGGC
GTGGTGATCAGCCATCAAAGCGCCTTGAACACCTGCGTGGACATCAGCCAGCGCCACGCCGTGAGCCCCGAAGATCGTGT
GCTGGCGCTGTCGGCGCTGCATTTTGACCTGTCGGTGTATGACATCTTCGGAGTGCTCGGCGCAGGCGCTTCGCTGGTGC
TGGTCAACGACCGGCAACGTCGCGACCCGGCGCTGTGGTGCAGGCTGATCGATGAACACGGCATTACCCTATGGAACAGC
GTACCTGCCCTGCTGGACATGTTGCTGACCTACAGCGAAGGCTTTGATCTGCACAGCCCGGCGAGCCTGAGGCTGGTGAT
GCTGTCCGGCGACTGGATCGGCCTGGACCTGCCGGGGCGCTATCACCAGTACCGCAGCGATGGTCGGTTTGTCGCCATGG
GCGGTGCGACGGAAGCGGCCATCTGGTCCAACACCTGCACCGTGAGCCGGGTTGAGCCGCACTGGCGCTCGATCCCCTAC
GGCACGCCGCTGACCAACCAGCGTTATCGCGTGGTTGACGAAACAGGACGCGATTGCCCGGACTGGGTCGCCGGCGAGCT
GTGGATCGGCGGCGCAGGTGTTGCACACGGCTATTTCAACGATGCCGAACGCAGCGCCCGGCAGTTCGTCGAAGTGGCCG
GTGAACGCTGGTATCGCACCGGCGACATGGGCTGTTACTGGCCGGACGGAACGCTGGAATTCCTCGGCCGTCGTGACAAG
CAGGTCAAGGTCGGTGGCTACCGCATCGAACTGGGTGAAATCGACGCAGCCTTGAACCGCCTGGAAGGTGTCAAGGCAGC
CATCAGCATGGCACCGGGCGAACGGGAAAAAAGCCTGGTGGCTTTTGTCGTGCCGCACGGTTCCAGCCTGTGCAGCCGCG
TCGAAGCCGACCCGTGCACACCCGCCAGTTACGCCGACTGGCTGACGCCTGTCACTGTCGCGACTGACACAACAGACGGT
CTGCTGGCCGATTTCCTGCTTGAGCATCTGGCGTTCAACGGCATACCGTTCAGCCCCTCTCTGACGACCGACCAGGTGTT
ACAGACCTACGGCAGCGAGGCGCGCTGGCACCCGCTTCTGACGCGCTGGCTGGAGTGGCTCGCAACACAGGATCGCCTGT
GCTGCGACGTCGAGGGCGCGTGGCATCTCAATCATTCGAGCACAAAGGCCACGTCGCACGACGTTGCTTGCGATGCACTG
ACACACGCCCTGCAGGCGCACCACGACGCCCTGCGCGACATACTGTCAGGCAAGCGCAGCCCTCAGACCCTGCTTGAGCA
TCCGTACTGGGCTCCAGAACAGCTGCTGATGCACGCACCCGGCAGCCGCGAAACGCTCAGTGCACTTGCGACATCGCTGG
CGGACCTGAGCAAGCGCTTGCAACGCCCGGTGCGCCTGATCGAAGCCGGTGCCCGCAGCGCTGTCACCGGGGCATTTCTG
CTGGGGCGACTTGACGCAGAGCAGTTGCACTACACCGCCCTCGATACGTCACAGGCAATGGTCCTCAAGGCCCGCGAACG
CCTCGCAGGTTTTATTCATGGCAGTGCACGCCGCGACACCGACAGCGAGCGCCAGGCGCTTGTTCACAGTGCCGACGTGC
TGCTGATCAACAATCAATTACATCGTCTGGATATGCCGCAAGCAGCCTTACAGCAGTGGACGCCACTCTGCGCGCCAGGC
GCTGCGGTCTATGTGCTGGAGCTGGCGCAAGCCTCGGCGCTGGCACTGGTCAGCGCCGAGTTGCTCAACGAAGGCCGCAG
TGCAGCCGAACAATTGCGTAACAGCGAACACTGGACGGCGCTGCTGATGCAGGCCGGGCTTGGCGCCCCTGAAACGGATC
GATCGGGCGCCCTGCAACGCCTGATCCTGCGCGCGCCCGATGTGCTGCAGCGCCCCGACTCTGCCCGGCTTGCCAAGGCG
CTGGCCAACGAACTGCCCGGCTACATGATTCCGCAGCGCCTGTATTTTCTCGACGCACTGCCGTTGACCGCCAACGGCAA
GATCGATCATCAGGCACTGATGCAGCGGTGCAAACCTGCCGCCACACAAGCCGACCAATGCCAGCCCCCTGAAAACGTCC
GCGAACAGGTTCTCGCACAGCTCTGGCAGGAGTTGCTGCAAAGCGGCGCGGTGCACCGCCACAGCCAGTTCTTCCAGCTT
GGCGGCGACAGCCTGCTGGCAACCCGCCTGATCGGCGAACTGGCCGGACGTGGCTATCACGCCCGGCTCGACGACCTTTT
CAACTTCCCGAGCCTGCACGCCTTCGCGGCGACGCTGGTGGAGCACAATGCTCCGGCAACCGTGCGGCTTGAACACGACC
CGGCGGGTCGTTATCAGCCCTTTGCCCTGAGTGAAGTGCAGCAGGCTTATCTGGTCGGGCGTCAGCCAGGATTCGTACTG
AGCGGCGTGGGCGCGCATTTCTTTGTCGAGTTCAGCGTCGAACGACTTAATGTCCAGTTGTTTCAAAACGCCTGGCAGCG
CCTCATCGAACGTCACGACATTCTGCGTGCTGTGGTCCGTGACGGCATGCTGCAGGTCCTGAAACAGGTCCAGGCCTTCA
TTCCCCGGCGGCATCGGGTGGCCACGCTGGAGGGCAGCGAAGCCCATGCACTGCGCGAACGGCTTTCCCATCAGGTGCTC
GATGCCGGGCAATGGCCACTGTTCGATGCGCAGATCGTCGAAGATGGCAGCCCGCACAGCCGCATTTTCGTCAGCCTCGA
CAACCTGCTGCTCGACGGCATGAGCATGCAAATACTGTTGGCCGAACTTGAGACGCTGTACCTGCACCCCGAACAGACGC
TGGAACCGATCGCTATCGGCTTTCGCGACTACCAGTGCCTGCGCGCCAGCCAGCCGCCCTCGCCCGGCGCTCGGGCGTAC
TGGCAGCGGCGTATCGACAACCTGCCGCCAGCACCGCGCCTGCCACTGCGCTGCGCCCCAGCCGACGTCGGCATACCACG
CTTTGTGCGCCTGGCCGAGCGTCTGCCAGCAGACCGTTGGGAGCGTTTGAAAGCCCAGGCCAATCAGCGCCAGTTGACGC
CCTCAGGGCTACTGCTCAGCGCTTTTTCCGCCGTGCTGTCGGCCTGGAGCAGCGCGCCGGAGCTGACCCTCAACCTGACC
TTGTTTGACCGTCAGCCGCTGCACACGCATATCGACCGGGTGATGGGCGATTTCACCTCGCTGCTGCTGCTGGCCTGGCA
CCCCACCGCTGACTGGCTTGGCAGTGCGCAAAATCTACAGCAGCGGCTATGGCGCGATCTGGCCCAGCGCGATCACTCGG
CGATCCGGGTCATGCGTGAACTGGCCAGCCGCCATGGCCTGGCTGCCGCGCAGATGCCGGTGGTCTTCACCAGTGCGCTG
GGGTTCGACAAGGGCCGCTTCATGGCCCAATCGTCATGGCTCAAACCGGTCTGGGGCATCTCGCAGACGCCGCAGGTCTG
GCTGGATCATCAGGTGTATGAGTCCGAAGGTGACCTGTGCCTTAACTGGGACGCGGTCGAGGCGCTGTTCGATCCCGACG
TGTTGCGCGCCATGTTCGACCAGTACGTCAGCCTGCTGGAACGGCTGGCCGAAGACCCGCAGGCTTGGGGATTGTCCCTG
GCGCAACTGGTTCCCCACGGACATCCTGGCGCTGACGTGGCTCCGTTGCCTCGCCCGCAACCGCTGCCATTACCACTGCC
GCACGAGCCCGAACAACAGGCCGATGAACAGCTCGTCGACCAGATCCGGCATGCCTTTCATGAGGTGGTCGGCCTGAAAC
TGCAGGACTGTCGGCAGAACTTCTTCGACGCAGGCGCCAGTTCGTTGAAACTGGTGCAGTTGCACGTGAAGCTGACCCAG
CAGGGCCATCGGCAGTTGCAGGCCACTGACCTGTTCGGCTACCCGAATGCCCGCGCACTGGCGCGGCACTTGAGCCAGAC
GCAACCGGCAAACGACACGCGGGACCAACCCCGACAGGCGCAACTGACGCAAAGAAACGCCAGAAGATTACGGCGCAACG
GAGGTGGCTCATGA

Protein sequence :
MYTSTRKASTARGTPPQAFDPALLGEDIARQLRLSPEQLADDANLLKLGMDSMHLMAWLNRFRRLGFKVTLSDLYDQPTL
QGWQQLLSSAPVQVNSAEVASNDEPLALMSDGQPFALTSVQHAYLVGRSSEQPLGGVGCHLYQEFDGRGLTPQVLEAAIY
QLIERHPMLKTRFLADGRQQWQAHSTWPGLKVHDLRDSDDTLRQQRLGDLREQLGHRRLDVENGETFDFQLCLLPDGGNR
LLVNIDLLVADAASFNQLFEELIALIEDRPLPPSPVDYDFCSYLTQVRRNDQARVEKAKAWWLARLDDLPLAPILPLAQD
PERIAQVRISRRRGQLDAAQWQAFKDHAGTAGVTPTMALATLFSAVLGRWSGQQSLLLNLTLFDRQPLNPAVASMIADFT
NILALPVSCCGQAFAELAQANQQSFAEVHEHSAWSGVEVLRELKKRQRHPHGAPLVFTSNLGRPLFGEAAENTLGAPGWG
ISQTPQVWIDHLAFEHQGQVYLQWDSNNQLFPEGLTDTLFDVYFEHVLALVADPAHWSHPLPDLMPSAQRAVREQVNATA
RAIPDGLLHDAVFLQAERTPQATALIQDQRRLSFAQLADQASRLAGCLQALGVTAGDTVAVSMTKDIGQIVSVLGILKAG
AIYVPVPPDQPLARRIGIYQGAQVKCVLTSADEPEEHDIGTVLTWQQAILSEPLQHQVPVSAQQPAYIIYTSGSTGEPKG
VVISHQSALNTCVDISQRHAVSPEDRVLALSALHFDLSVYDIFGVLGAGASLVLVNDRQRRDPALWCRLIDEHGITLWNS
VPALLDMLLTYSEGFDLHSPASLRLVMLSGDWIGLDLPGRYHQYRSDGRFVAMGGATEAAIWSNTCTVSRVEPHWRSIPY
GTPLTNQRYRVVDETGRDCPDWVAGELWIGGAGVAHGYFNDAERSARQFVEVAGERWYRTGDMGCYWPDGTLEFLGRRDK
QVKVGGYRIELGEIDAALNRLEGVKAAISMAPGEREKSLVAFVVPHGSSLCSRVEADPCTPASYADWLTPVTVATDTTDG
LLADFLLEHLAFNGIPFSPSLTTDQVLQTYGSEARWHPLLTRWLEWLATQDRLCCDVEGAWHLNHSSTKATSHDVACDAL
THALQAHHDALRDILSGKRSPQTLLEHPYWAPEQLLMHAPGSRETLSALATSLADLSKRLQRPVRLIEAGARSAVTGAFL
LGRLDAEQLHYTALDTSQAMVLKARERLAGFIHGSARRDTDSERQALVHSADVLLINNQLHRLDMPQAALQQWTPLCAPG
AAVYVLELAQASALALVSAELLNEGRSAAEQLRNSEHWTALLMQAGLGAPETDRSGALQRLILRAPDVLQRPDSARLAKA
LANELPGYMIPQRLYFLDALPLTANGKIDHQALMQRCKPAATQADQCQPPENVREQVLAQLWQELLQSGAVHRHSQFFQL
GGDSLLATRLIGELAGRGYHARLDDLFNFPSLHAFAATLVEHNAPATVRLEHDPAGRYQPFALSEVQQAYLVGRQPGFVL
SGVGAHFFVEFSVERLNVQLFQNAWQRLIERHDILRAVVRDGMLQVLKQVQAFIPRRHRVATLEGSEAHALRERLSHQVL
DAGQWPLFDAQIVEDGSPHSRIFVSLDNLLLDGMSMQILLAELETLYLHPEQTLEPIAIGFRDYQCLRASQPPSPGARAY
WQRRIDNLPPAPRLPLRCAPADVGIPRFVRLAERLPADRWERLKAQANQRQLTPSGLLLSAFSAVLSAWSSAPELTLNLT
LFDRQPLHTHIDRVMGDFTSLLLLAWHPTADWLGSAQNLQQRLWRDLAQRDHSAIRVMRELASRHGLAAAQMPVVFTSAL
GFDKGRFMAQSSWLKPVWGISQTPQVWLDHQVYESEGDLCLNWDAVEALFDPDVLRAMFDQYVSLLERLAEDPQAWGLSL
AQLVPHGHPGADVAPLPRPQPLPLPLPHEPEQQADEQLVDQIRHAFHEVVGLKLQDCRQNFFDAGASSLKLVQLHVKLTQ
QGHRQLQATDLFGYPNARALARHLSQTQPANDTRDQPRQAQLTQRNARRLRRNGGGS

• Homologs from PAI DB

GeneGenBank Accn Product Virulance or Resistance PAI or REI Alignment Type E-val Identity
irp2 YP_070124.1 yersiniabactin biosynthetic protein Virulence HPI Protein 0.0 53
irp2 YP_002346902.1 yersiniabactin biosynthetic protein Virulence HPI Protein 0.0 53
irp2 NP_669706.1 HMWP2 nonribosomal peptide synthetase Virulence HPI Protein 0.0 53
irp2 YP_853075.1 yersiniabactin biosynthetic protein Virulence PAI IV APEC-O1 Protein 0.0 53
irp2 NP_993007.1 yersiniabactin biosynthetic protein Virulence HPI Protein 0.0 53
irp2 CAA21390.1 - Virulence HPI Protein 0.0 53
irp2 YP_001006815.1 yersiniabactin biosynthetic protein Virulence HPI Protein 0.0 52
PMI2599 YP_002152317.1 non-ribosomal peptide synthase Not tested Not named Protein 0.0 43