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Identifier: 71736466

GI number:

Start: 3350681

End: 3356836

Strand: Direct

Name: Not Available

Synonym: PSPPH_2897

Alternate gene names: NA

Gene position: NA

Preceding gene: 71737054

Following gene: 71736471

Centisome position: NA

GC content: NA

Gene sequence:

>6156_bases
ATGTACACATCGACCAGAAAAGCCTCGACTGCTCGCGGTACGCCACCTGAAGCATTCGACCCTGCCCTGCTGGGCGAGGA
AATCGCCAGGCAAATGCGTCTGCCCCCCGAGTCACTGACACAGAACGCCAGCCTGTTGAAACTGGGCATGGACTCGATGC
ACCTGATGGCCTGGCTCAACCGGTTTCGCCGCATGGGTTTCAAAGTGACCCTCAGAGACCTCTATGACCAGCCGACGCTG
CAGGGCTGGCAGCAACTGCTTGGCAGCGTAGCCGTTCAGATCAACATCGTCGAGCCTGTCGATAAAGATGAAACGCTGCC
GCTCATGACTGACGGCCAGCCCTTCGCTCTGACCAGCGTACAGCACGCCTACCTGGTGGGGCGTTCCAGCGAACAACCGT
TGGGTGGAGTCGGCTGTCATCTGTATCAGGAATTCGACGGCCACGGCCTGACACCGCAAGTGCTGGAAGCGGCGATCTAT
CGGTTGATCGAACGGCATCCGATGCTCAAGGCACGTTTTCTCGCCGACGGTCGTCAGCAGTGGCAAGCGCGCTCGGCATG
GCCGGGCCTCAAGGTTCATGACCTGCGCGACATTAATGAGGCCTTTCGCCAGCAAAGCCTGATGAATCTGCGCGATCAAC
TGGGCCATCGTCGCCTGGATGTCGAAAATGGCGAAACCTTCGATTTCCAGCTTTGCCTGTTGCCAAACGGGCAAAACCGG
CTGTTTGTCAACATTGACCTGCTGGTCGCGGATGCCGCCAGCTTCAATCAGTTGTTTGAAGAACTGATCGCGCTGATCGA
AGACCGTCCGCTGCCGCCCTCACCGATCGATTACGATTTTTGCAGTTACCTAACGCAGGTGAAGCGCAATGATCAGGCGC
GCATCGAGCAAGCCAGAGCCTGGTGGCTGACGCGTCTGGACGACCTGCCCCTGGCACCGATTCTGCCGCTGGCGCAGGAC
CCTGAGCGCATCGAGAAGGTTCGTATCAGCCGCCGTCGCGACCAGTTGGACACGGCACAGTGGCAGACTTTCAAGGAGCA
CGCGGGAGCGGTCGGTGTAACACCGACCATGGCGCTGGCAACGCTGTTCAGTGCGGTGCTGGGACGCTGGAGCGGGCAAC
AGGCGCTTTTGCTCAACCTCACCCTGTTCGACCGCCAGCCTTTGAACCCGGCAGTCGCCAGCATGATCGCCGACTTCACC
AATATTCTGGCCCTGCCAGTGATCTGCTATGGGCAATCCTTTGCCGAGCTGGCAAGGGCCAATCAGCAGTCGTTTGCCGA
GGTTCACGAACACAGCGCGTGGTCGGGGGTCGAGGTGCTGCGCGAGCTGAAGAAACGCCAGCGCCACCCGCACGGTGCGC
CACTGGTGTTTACCAGCAACCTGGGCCGCCCGCTGTTTGGCGAAGCGGCAGAGAACAAGTTGGGGGCACCCGGCTGGGGC
ATTTCCCAGACGCCGCAAGTGTGGATCGACCACCTGGCCTTCGAGCATCAGGGGCGGATTTATCTGCAATGGGACAGCAA
TGACCAGCTGTTCCCCGAGGGGCTGACCGACACGCTGTTCGACGTCTATTTCGAACAGGTACTGGCGTTGGTGGCAAACC
CTGCGCACTGGTCAAGCCCCTTGTCGGACCTGATGCCGTTCGCCCAGCGTGCCGTTCGCGAACAGGTCAATGCTACCGGG
CAGGCCATTCCTGATGGTTTGCTGCACGATGCAATCTTCATCCAGGCCGAACGTGCCCCGCAGGCCACCGCAGTGATTCA
GGATCAGCGGCGTCTGAGCTTCGACCAACTGGCCGATCAAGCCAGTCGGCTGGCCGGCTGCCTGCAGGCCCTGGGCGTCG
AAGCAGGCGACACGGTTGCTGTCAGCATGCCCAAGGACATCGGCCAGATCGTCAGCGTGCTGGGCATTCTCAAGGCGGGC
GCGATCTATGTGCCAGTACCGCCGGACCAGCCCTTGGCACGGCGTATCGGCATCTATAAAGGTGCCGGGGTGAAGTGCGT
GCTGACCAGCGCCGATGAGCCTGACGAGCACGACATCGACAAGGCCCTGACCTGGCAGCAGGCAATCCGCAGCGAGCCGC
TTCAGCATCAGGTGGCGGTCAGCGCACAGCAACCGGCCTACATCATCTACACCTCAGGCTCGACCGGTGAACCCAAGGGC
GTGGTGATCAGCCATCAAAGCGCCCTGAACACCTGCATGGACATCAGCCAGCGGCATGGCGTCGGCCCCGACGACTGCGT
GCTGGCGCTATCTGCGCTGCATTTTGACCTGTCGGTGTATGACATCTTCGGCGTACTCGGCGCAGGCGCTTCGCTGGTGC
TGGTCAACGAGCAGCAACGGCGCGACCCGGCGCTGTGGTGCAGGCTGATCGATGAACACGGCATCACCCTGTGGAACAGC
GTGCCTGCCCTGCTGGACATGCTGCTGACCTACAGCGAAGGCTTCGATCTGCATAGCCCGGCCGGCCTGAGGCTGGTGAT
GCTGTCCGGCGACTGGATCGGGCTGGACTTGCCGGAGCGCTATCACCAGTACCGCAGCGACGGTCAGTTTGTCGCCATGG
GCGGTGCGACGGAAGCGGCCATCTGGTCCAACATCTGCACCGTGAGCCGGGTTGAGCCGCACTGGCGCTCGATCCCCTAT
GGCACGCCGCTGGCCAACCAGCGTTATCGCGTGGTCGACGAAGCAGGGCGCGATTGCCCGGACTGGGTCGCCGGTGAGCT
GTGGATCGGCGGTACAGGTGTTGCCCAAGGCTATTTCAATGACCCCGAACGCAGTGCCCGGCAGTTCGTCGAAGTGGCTG
GTGAACGCTGGTATCGCACCGGCGACATGGGCTGTTACTGGCCGGACGGTACGCTTGAGTTTCTCGGCCGCCGCGACAAG
CAGGTCAAGGTCGGTGGCTATCGTATCGAGCTGGGTGAAATCGATGCGGCATTCAACCGACTGGAAGGTGTCAAGGCAGC
CATCAGCATGGCGCCGGGTGAACGGGAAAAGAGTCTGGTGGCCTTTGTCGTGCCACAGGGTTCCAGCCTGTGCAGTAGCA
TCGAAGCCGACCCCCGTACACCGGCCAGCTACGCCGACTGGCTGACGCCTGAAACGGCAGCGACAGATACTGCGGAGAGT
TCGCTGGGCGATTTCCTGCTCCAGCATCTGGCATTCAACGGCGTACATTTCAGCGTCCCTGTGACCACCGCAACGGTGCT
GCAGACCTACGCCTGCCAGGCACACTGGCAACCACTGCTGGACCGCTGGTTGACATGGCTCGCAACGCACGGCCGCCTGC
AACGCGATGCAAGGGGAACATGGCAGCTCAAGCACCCGAGCGCAAAGGTAACGTCGCATCACGATTCTGCGTATGCGCTG
ACAGAAGCCCTGTATGCGCACCACGACACGCTGCGCGAAATACTGCACGGTCAGCGCAGCCCTCAGACTCTGCTCGAACA
TCCGCACTGGGCTCCAGAACAGTTGTTGATGCACGCTAGCGGCAGCCGAGAAACCCTCAGCGCGCTGGCAACGTCGCTGG
CCGACCTGAGTCGTCTGTTGCAACGCCCGGTGCGTCTAATCGAAGCCAGCGCCCGCAGCGCCGTGACCGGACTGTTTTTA
CTCGAACGGCTAGATGCATCACAGCTGCAATACATCGCGCTGGATGCCTCACAGGCAATGGTCCTCAAGGCACGCGAACG
CCTCGCCGGGTTCGCGCACGGCAGCGCGCGGCGCGACACCGACAGCGAGCGCCAAGCGCTTGCCTACAGCGCCGACGTGC
TGCTGATCAACAACCAGCTGCACCGCCTTGAAACCCCGCACGCGGTACTGACGCAGTGGAGACAACTATGCGCGCCCGGT
GCTGCGGTCTGTGTGCTGGAACTGGCACAGGCCTCGGCGCTGGCCATGATCAGCGCCGACCTGCTCAACGAAGGCGACAG
TGCTGCAGAACAATTGCGTGACAGCGGGCATTGGCAGGCGTTGCTGACGCAGGCCGGTTTGGCAGCCCAAGGAGTGGATC
GACTGGGCGACATGCAGCGTCTTATCCTGCGTGCCCCCGATGTGCTGCAACGCCCCGATCCTGCGCGACTGACAAAGGCG
CTGGCCAACGAATTGCCCGGTTACATGATTCCACAGCGCCTGTATTTTATCGACGCGCTGCCGCTGACCGCCAACGGCAA
GGTCGACCATCAGGCACTGGCGCAGTTGTGCAAACCGTCCAGCGCACATGCCGAGCAGTGCCAGGCACCTGAAACCGCTC
GCGAACAGATGGTTGCGCAACTCTGGCAGGCGCTGCTGCAAACCGGCGCATTGCATCGCCACAGCCACTTCTTCCAGCTT
GGCGGCGACAGCCTGCTGGCGACCCGGCTGATCGGCGAACTGGCCAGCCACGGCTATCGTGCCCGGCTCGATGATCTGTT
CAACTTTCCGAGCCTACATGCCTTTGCCGCAGCATTGCTGGAAGATGCGCCGCCAGCGGCACGACTTGAGCATGATCCGG
CAGGCCGCTATCAACCGTTTGCCCTGAGCGAAGTGCAGCAGGCTTATCTGGTCGGACGTCAGCCCGGCTTCGTGCTGGGC
GGCGTGGGCGCGCATTTTTTTGTCGAGTTCAGCGTTGAACGGCTTGATATTCAGTTGTTTCAAAATGCCTGGCAGCGTCT
CATCGAGCGTCACGACATCCTGCGTGCCGTGGTGCGTGACGGCGCGTTGCAGGTTCTGCAACAGGTCCCGGCTTTCATTC
CTCGACGCCACCGGGTGTCCGCGCTGAATGGCAAGGAAGCACTTGCACTGCGCGAACGGCTCTCTCATCAGGTACTCGAT
GCCGGGCAATGGCCGCTGTTCGATGCACAGATAGCCGAAGACGGCAGCGCACACAGCCGGATTTTCGTCAGCCTCGACAA
CTTGCTGCTCGACGGCATGAGCATGCAGATTTTGCTGGCCGAGCTAGAAACGCTGTACCTGCACCCGGAACAGGTACTGG
ACCCGATCAATATCAGCTTCCGTGACTATCAATGCCTGCGCGCCAGCCAGCCGCCCTCGCCCGGTGCTCAAGCGTACTGG
CAGCGACGTCTCGACGACCTGCCGCCGGCGCCGCGTCTGCCGCTGCGCTGCGAGCCGGCTGACGCCGGTACGCCACGCTT
CGTACGCCTTGCCGAGCGCCTGCCGGCGGCGCGCTGGGAAAGCCTGAAAGCCCAGGCCCATCAGCACCAGTTGACGCCGT
CGGGGCTGCTGCTCAGCGCTTTTTCCGCCGTGCTGTCGGCGTGGAGCAGCGAGCAAGAGCTGAGCCTTAACCTGACTCTG
TTTGATCGTCAGCCACTGCACCCGCATATCGACCGGGTACTGGGTGATTTCACCTCATTACTGCTTCTGGCCTGGCAACC
TTCTGCTGACTGGCTCGGCAGTGCCCAGCGTTTGCAACAGCGGCTATGGCGCGATCTGGCCCAGCGCGATCACTCGGCAA
TCCGCGTCATGCGAGAACTGGCCAGCCGCCGCGGCATGGCTGCCGCGCAAATGCCGGTGGTCTTCACCAGTGCGCTGGGG
TTCGACAAAGGCCGCTTCATGGCCCAGTCCTCGTGGCTCAAGCCGGTCTGGGGAATCTCGCAAACCCCGCAAGTCTGGCT
CGATCATCAAGTGTACGAGTCCGAAGGCGACCTGTGCCTGAACTGGGATGCGGTCGAGGCGCTGTTTGAGCCTAAAGTCT
TGCGCAGCATGTTCGATCAGTACCTTGCCCTGCTCAATCGTCTGGCTGAGCAACCCCAGGCCTGGGTCTTGCCTTTGGCC
CGGTTGGTTGTCCCCGCAGAGCCTGACGCTGGCGTGGCAACGCTGCCTAGTAGGCCACAGCAGCACGAGCCTGGGCAACC
GGCCGACGAACAACTCGTCGAGCAGATCCGGCATGCCTTTCATGAGGTCGTCGGCCTGAAGCTGCAAGACTGTCGGCAGA
ACTTTTTCGACGCTGGCGCCAGCTCGCTGAAACTGGTGCAACTGCATGTGAAGCTGACCCAGCAGGGCCATCGTCATTTG
CAGGCCACCGATCTGTTCGGCTACCCGAATGCCCGTGCGCTGGCGCAACACCTGAACCACACGCAACCGGCAAACGATAC
GCGGGAACAACCCCGGCAAACCCGGTTGGTGCAGAGAAACGCCAGAAGGTTGCGGCGCAGCGGAGGTGGTTCATGA

Upstream 100 bases:

>100_bases
CGGCAGAGCCAGGCACGGAACTGGCACTTGCACACTTGACCCCCCCTGCGCCGCGCCATGTTGAGCGCGGCACGAGTACT
TGTCTGGATGGAGTCTCACC

Downstream 100 bases:

>100_bases
GCCGCTACCTGCCGTATTGGTGTTACTACCTGCATCAGGGCATGCTCACCGCGCTGATGTTGCAGGGTGTGGTCGGCTAT
TTCCGCCATCAGGGGCTGGA

Product: yersiniabactin non-ribosomal peptide synthetase

Products: NA

Alternate protein names: NA

Number of amino acids: NA

Protein sequence:

>2051_residues
MYTSTRKASTARGTPPEAFDPALLGEEIARQMRLPPESLTQNASLLKLGMDSMHLMAWLNRFRRMGFKVTLRDLYDQPTL
QGWQQLLGSVAVQINIVEPVDKDETLPLMTDGQPFALTSVQHAYLVGRSSEQPLGGVGCHLYQEFDGHGLTPQVLEAAIY
RLIERHPMLKARFLADGRQQWQARSAWPGLKVHDLRDINEAFRQQSLMNLRDQLGHRRLDVENGETFDFQLCLLPNGQNR
LFVNIDLLVADAASFNQLFEELIALIEDRPLPPSPIDYDFCSYLTQVKRNDQARIEQARAWWLTRLDDLPLAPILPLAQD
PERIEKVRISRRRDQLDTAQWQTFKEHAGAVGVTPTMALATLFSAVLGRWSGQQALLLNLTLFDRQPLNPAVASMIADFT
NILALPVICYGQSFAELARANQQSFAEVHEHSAWSGVEVLRELKKRQRHPHGAPLVFTSNLGRPLFGEAAENKLGAPGWG
ISQTPQVWIDHLAFEHQGRIYLQWDSNDQLFPEGLTDTLFDVYFEQVLALVANPAHWSSPLSDLMPFAQRAVREQVNATG
QAIPDGLLHDAIFIQAERAPQATAVIQDQRRLSFDQLADQASRLAGCLQALGVEAGDTVAVSMPKDIGQIVSVLGILKAG
AIYVPVPPDQPLARRIGIYKGAGVKCVLTSADEPDEHDIDKALTWQQAIRSEPLQHQVAVSAQQPAYIIYTSGSTGEPKG
VVISHQSALNTCMDISQRHGVGPDDCVLALSALHFDLSVYDIFGVLGAGASLVLVNEQQRRDPALWCRLIDEHGITLWNS
VPALLDMLLTYSEGFDLHSPAGLRLVMLSGDWIGLDLPERYHQYRSDGQFVAMGGATEAAIWSNICTVSRVEPHWRSIPY
GTPLANQRYRVVDEAGRDCPDWVAGELWIGGTGVAQGYFNDPERSARQFVEVAGERWYRTGDMGCYWPDGTLEFLGRRDK
QVKVGGYRIELGEIDAAFNRLEGVKAAISMAPGEREKSLVAFVVPQGSSLCSSIEADPRTPASYADWLTPETAATDTAES
SLGDFLLQHLAFNGVHFSVPVTTATVLQTYACQAHWQPLLDRWLTWLATHGRLQRDARGTWQLKHPSAKVTSHHDSAYAL
TEALYAHHDTLREILHGQRSPQTLLEHPHWAPEQLLMHASGSRETLSALATSLADLSRLLQRPVRLIEASARSAVTGLFL
LERLDASQLQYIALDASQAMVLKARERLAGFAHGSARRDTDSERQALAYSADVLLINNQLHRLETPHAVLTQWRQLCAPG
AAVCVLELAQASALAMISADLLNEGDSAAEQLRDSGHWQALLTQAGLAAQGVDRLGDMQRLILRAPDVLQRPDPARLTKA
LANELPGYMIPQRLYFIDALPLTANGKVDHQALAQLCKPSSAHAEQCQAPETAREQMVAQLWQALLQTGALHRHSHFFQL
GGDSLLATRLIGELASHGYRARLDDLFNFPSLHAFAAALLEDAPPAARLEHDPAGRYQPFALSEVQQAYLVGRQPGFVLG
GVGAHFFVEFSVERLDIQLFQNAWQRLIERHDILRAVVRDGALQVLQQVPAFIPRRHRVSALNGKEALALRERLSHQVLD
AGQWPLFDAQIAEDGSAHSRIFVSLDNLLLDGMSMQILLAELETLYLHPEQVLDPINISFRDYQCLRASQPPSPGAQAYW
QRRLDDLPPAPRLPLRCEPADAGTPRFVRLAERLPAARWESLKAQAHQHQLTPSGLLLSAFSAVLSAWSSEQELSLNLTL
FDRQPLHPHIDRVLGDFTSLLLLAWQPSADWLGSAQRLQQRLWRDLAQRDHSAIRVMRELASRRGMAAAQMPVVFTSALG
FDKGRFMAQSSWLKPVWGISQTPQVWLDHQVYESEGDLCLNWDAVEALFEPKVLRSMFDQYLALLNRLAEQPQAWVLPLA
RLVVPAEPDAGVATLPSRPQQHEPGQPADEQLVEQIRHAFHEVVGLKLQDCRQNFFDAGASSLKLVQLHVKLTQQGHRHL
QATDLFGYPNARALAQHLNHTQPANDTREQPRQTRLVQRNARRLRRSGGGS

Sequences:
NA

Specific function: NA

COG id: COG1020

COG function: function code Q; Non-ribosomal peptide synthetase modules and related proteins

Gene ontology:

Cell location: NA

Metaboloic importance: NA

Operon status: NA

Operon components: NA

Similarity: NA

Homologues:

NA

Paralogues:

NA

Copy number: NA

Swissprot (AC and ID): NA

Other databases:

NA

Pfam domain/function: NA

EC number: NA

Molecular weight: NA

Theoretical pI: NA

Prosite motif: NA

Important sites: NA

Signals:

NA

Transmembrane regions:

NA

Cys/Met content:

NA

Secondary structure: NA

PDB accession: NA

Resolution: NA

Structure class: NA

Cofactors: NA

Metal ions: NA

Kcat value (1/min): NA

Specific activity: NA

Km value (mM): NA

Substrates: NA

Specific reaction: NA

General reaction: NA

Inhibitor: NA

Structure determination priority: NA

TargetDB status: NA

Availability: NA

References: NA