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The map label for this gene is HMWP2 [H]

Identifier: 22127285

GI number: 22127285

Start: 3775907

End: 3782311

Strand: Direct

Name: HMWP2 [H]

Synonym: y3410

Alternate gene names: 22127285

Gene position: 3775907-3782311 (Clockwise)

Preceding gene: 22127284

Following gene: 22127287

Centisome position: 82.07

GC content: 49.82

Gene sequence:

>6405_bases
TTGGGCCGTTGGTGGAGATATAAGTGGATCACTTTTCATCCGTCGTTGACAATAAAGCCAGTTACATCAATAAAATCAGC
CACATCAATAAAATCAGTTGCATCAATAGAACCAGTTGCATCAACAACCTGGCTATCCGATGAGGAGGCGGTTGGTTGGC
TGCCCATCAGCGCTAAAACTGAAGCCGCACTCTTGGCGACGGCGCGCCAGCTTGCCGAGGTCTTGTCACAGCATACGGCG
CTTGCTCGGGCGGTTGTCGCTGCGTGGCGCACTAAACGTAGCCATCATTTTCCCATCCGTGCCTTGATTCAATATCACTC
ATTAAGTGATTTGATCGCACAGTTACATCAAGTCACCGGCGAGAAAAGTGATCCCCGCTGTCGCTTTGAAAAGGCGCAAT
CGCCCAAACAATGGTTGGCGGGAGGGGCTTTTGACTGGGCAGCAGTCACCCCCTCTGAAGGGGCCGTTAGTGCTGAGGTG
TTGGCGCTTTTGCCTCTTTATCCTTTTACTCGCCAGCGCTATTGGGCTGAAGGTCTGCTGGCAGAGAGTACCCCCTTATC
TTCCCCTTCGGTTATTGCCCATCCCCTTGATTTTTCATTTGTGCGCACTTGGGTGGCAGAGACACTCGCTATCGCGTCTG
GAGCGTTATCTGATGAGGATGATTTGCTGAGTTTAGGTTTAGATTCTTTGCAGATGTTGGATCTGGTGGATGAGTGTAAA
AAACGCCATATCACTTTGACGTTGGCAAGGTTGTTTGAAAAAACAACCCTGGGAGCATGGGAACAGTATTGGGACAGTAT
TTGTAGAAGCGGTGTCTGCGGGGAGAGTGTCAGTGCGGTTACCCCACTCACAGAAGAGCAAACCACGGATGAGTACTGGC
AGGGGGAGCCTTTTGTGCTTACCCCTGTGCAGCAAGCCTATTGGCAAGGGCGTCAGAAGGGGCAAACGTTGGGGCAGGTT
GCCTGTCAGGTTTATCTGGAGTTGGATTGCCCGTCGTTAGCGGATGAACGTCTTCATCAGGCGGTGACGCAATTATTCCA
CCGTCATGAGCTTTTGCGTATGCGTATTAACGAGCAAGGGATGGGGGTTATCCAGGAAATCGAGCCGGTGACGGTAACGC
AATATCACTGGGATCAGCTCTCTGCAAGGGCTGGTGCAAAGGAGCGCTACGCGCTACGGGCGCGTTTATCCCATCGTATG
GCTGATTTAACTGACGAGAGTGGGTTCCAATTGATTGCCAGCCATGATGGGCAAAACACCCGTTTGCACATTAATGTGGA
CATGGTGATTGCTGATGCCATGAGTTTGCAAATTCTGTTGGAGGAGCTAGGGCTGCTCCTTTCGTCGCAGAATACGCCAT
TTGCACCGTTGGATTACCACTTCCCGCAATATTTGTTGGAGCAAAAATCAACACCATCAACGGGTGAGAGCGAAGCTTAC
TGGCAACAACGGTTAATCGCAGGTTTACCGTTAGCCCCGCAACTGCCATTGGCAATAAAACCGGAGCAGATAGATAAACC
TATTTTCCAACACCGTGAGTGGCGTTTAGCGTCAGAACATTGGGCTAAATTACAACAAATAGCCCGCCAACATAGGTTAA
CGCCCTCCATGTTATTGGCGGGTTGTTTTGCTGAAACATTACGGGGTTGGGCGAAATTGCCTGACTTTTCGCTGAACTTA
ACGATTTTTAACCGTCGTGGCGCACATCCACAATTGGCAAAATTGGTCGCTGATTTTACGTCCTTGCTCATACTGGCATG
TGAGGTTAAAGAAAACGAAAGTTTACTGGATCATTTCCGCAGGCTGAATCAGCAGTTTATGGTTGATCTGGATCATGGGG
ATTACAGCGCAGTGCACGTGTTGCGTCAGTGGTCTCAACAGCGGGGCGAACAGGTTACTCTGCCGGTTGTCTTCACCAGT
AATCTTGGGCGTGAATTGCTCGGGGAAAATGCACCAGGGGCGCTGCATTATTTGGTTTCTCAGACACCACAAGTGTGGCT
AGACTGCCAGGTGATGGAGTATCAGAAAGCCCTGTTGATCAGTTGGGATACCGTGGACGCACTCTTCCCCGAAGGGATGC
TTGATCAGATGTTTGCTTTTATGCAGCAGCTTCTTCAATCCATTGTCGAAAATGAGCAAGTCTTACAGTCACCTGTTCAG
GCGTATGTGGATGACAAGGTGCTGGCGCATCGCCAACAGCCGTTATCGGGTGTCCACGGGGTGCCTTTTGAGGCCAAAAC
CCTGCATCAGGGCTTTTGGCAGCAAGTCGCATTGGTCCCGAATAACATTGCTGTCATCAATGCCTCCGGTGTCTTGACGT
ATAGGGAAATGGCAATACGAGTCGGCGATTTGGCGGGGTACTTACAGCAGCGCATTGCACGACAGGGCCATGTGGGTATT
TGTTTACCTAAAGGGATTGAGCAAGTGATCGCGGTGCTGGCGGTATTGTCCATTGGGGCGGTGTATGTGCCGTTGGATAT
TACCGCGCCCTCCGAACGCTTACAGCAACTGATCGCGCAGGCGGATATTGGCGTATTGATTAGCGATCACGAGATATCCG
CTAACTGCGACACAGTGAATATCAACATAACAGGCGGTTTTCCATCGCCTTTTACCCCGTCTGTTTTTACCTCATCTGCT
GCTGCGCCCTCTATTTTTGTACCCTCTATTTTTGTACAACCTGATGAGCCAGCCTATCTGATTTTTACCTCAGGCTCGAC
GGGGGTGCCTAAAGCGGTGGTGGTGACACATCAGGCTGCAATGAATACGATTGATGAGATTAATCGCCGCTATGTTGATG
ATGGGAAGATCATCTTGTTCGCACTCTCGGCATTAAATTTCGATCTCTCGGTTTATGATATTTTTGGTCCTTTGTCTGTC
GGCGGCTCCCTGGTATTGCCCAACGCGGGCGATGAAAAAGAAGCTAAACAGTGGCTGTCAGCACTGCATCAACATCAAGT
GACACATTGGAACAGTGTTCCTGCCTTATTTGAAATGCTGCTGATCGCCGCTGAGCAAGGTACGCAAGCTTTGCCTCGTT
CGTTACAACAGGTGTTGTTGTCGGGGGATTGGATTGGGTTAGACCTTCTCCCCAGGCTGAGAGCGCTTGGTAGCCAAGCA
CGTTTCACCACGCTGGGCGGCGCCACAGAAGCGGCCATTTGGTCTAATGCGCTGGATATCGCGGTGATCCCTGAAGAGTG
GGTATCCATACCTTATGGTTATCCACTGGCCCATCAATATTATCGTGTCGTTGACCAGGCTGGCAGAGATTGCCCTGATT
GGGTGACAGGGGAACTGTGGATTGGCGGTAGGGGAGTGGCATTAGGTTATTACCGGGAGCCAGAAAAAACGGCGGCGCAA
TTTGTCTCTGTTCATCGCGCGGGGTTTTATCGAACAGGCGATTATGGTCGCTTCTGGCCTAATGGGTGTCTGGAGTTTTT
GGGGCGACAGGATAGACAAATAAAACTGCATGGTTATCGCATTGAATTAGCGGAAATTGAAGCTGTCGCAGAGCATCTGG
CAACGATTAAACGTGCTGTGGTTTTATATTTGGATCAGCCACAAAAGCATTTATACCTGTTTGTTGAGCCTCAGAATCAG
GTATCCACTCTCTTCTCCGCAACCGTTGATGATGTATTACCTGAAACCAGACTTGTAACGGATATTCGTGAACAAGAAAA
CACGATAACCGCTTTTCTGTTATGCCATGTGCTCAGCAATGTTCTCAAGCTCGATCTGGCAGAGTATCAGTCTACGCAAG
TATTGCAGGAAAAAGGGGGGATTAGCGAAGCCTACCAACCGCTATTTTTAGCCTGGCTCCATTGGTTGGTTGAGCAAGGG
GTTTTACTTTCTCGCGATGACCAGTTTAAAACCACAGGAATTCAGCCCGTACGCCCTGAGGTGACTGAACCACACCTGTT
ACCGCTCTTGATGACGTTAGAGCAAAAAGCGTCATGGATTGGCGAGGTGGTGACTGGGCGGGGAAATCCACTGTTATTGT
TGGACGACACGCTCCTGTCGCCAGAAATTTTAGTCGCCAATACACATGATGCCCAAGTGGTTATTGATGTGCTATGTCAG
CGCATTGCTCGTTTATCTCGGCAATTACAACGGCCTGTTAATGTCACCGAATTGAATGGGCGAACGGGGCTGTTTGCCAG
CCGGGTATTGAGCCGGTTGGGAACTGAGGTGCTGAGTTACTGTTTGTTGGAATCTGCAAATTCATTGCGTCAACACGCAA
AGTATCGTTTATCTGGCTATTCCCATGAAACAGATGTGATTGCAACACCCGATGAACAGCAACAACTTGCCGATATTCTG
ATCGTCAATAATTCACTACACCGATTTGATGCCCTGCCTGAGGGGATTGCCATGCTGCAATCCCTTTGCCACGGAGGGAC
GGAAATTGTCCTGTTTGAAAGCCTGGCACTAAGCCCACTGTCGCTATTAACGGTGTTGTTGTTACAACATCCCAATGGTT
TTAGGGATCAACGGCAAGGGGCACTTTCGCCGCTCTTGGATTTACCCGCCTGGCAGTCGTTGTTAACGGATTCAGGTATT
GCCATCCAGCAACTCAGTATTATTGAACCGTATTCTGCACTCTTTGTCTGTCAACCACAGATAACGAAAGTGCCCGTTTC
GCGTGAACAGATAAAGCAACATTTACAGCAACATTTACCCGCCTATATGGTGCCATCGTCTATCACGGTACTGGAGACAT
TGCCACTGACACCGAACGGCAAAATTGACCGGACATCGTTATATAAACAGGCCGTTGAGTATGGGCAGCTAAGCCATGAT
GGTGAAGCGCCTCGCGTGTTATCTGCCCAACAGAAGCCGCCAGATGAACGGGAACGGTCTGATAAACGAGAACTGTCTGA
TAAAAAAGAACAGTGCGTCGCTCGCCTTTGGCAGCAAGTGTTAGGGGTTACGCCGCAATCAGATAGCAACTTTTTCCTGT
GTGGTGGTGATAGCCTTCATGCCACGCGCATCGTGGCCTTGTTGGAAAAAGAGGGCACGGTTGGCGTGCCATTGTCTCAG
GTGTTTTTATTGCCGGTGTTAAGGGATTTTGCTCACAGTCTGGCGTTCCGCCATGCGCCTGTACAGGAGGCGCAATTAGT
TCATTGTGCCGCCCAACGTTATTCGCCCTTTGAGCTAACCGATGTGCAGCGAGCATATTTAATGGGGCGGCAATCGGGGT
TCCCACTGGGTGGCGTGGCAACGCACTATTATCAGGAATACGAGTATCAGGAATACGAATATCAGGAAAATGAAATTTAT
CAGGAACATGAAAGCCATCAGCAATATAAAGGCACACCGTTTGACCGGGAACGATTAGAGCGGGCCTTAACTCTGCTGGT
AGCTCGTCATGATGCGTTGCGTATTGTGTTTGATGAACAGGGTACACAGCGTGTGTTACCCCATCAACCGTCCCCGGCGC
TTCAGGTTATTCATTGCGGTGCTGTGGAGTGGGAAACCGTGACGGCGACTCAACGGGATCGGTTGTCACATTATGTCTCT
GAACCGACCCAATGGCCGTTGTTCCACGCGACCTTAATTCAGTCTGATGAGGGTAGAAATCGTTTTTGCCTTGGGCTGGA
TAATCTGGTGTTAGACGGTTTGAGTATGCAGATCTTCTTTAAAGAGTTGGCTGTCTTGTATGAGGACCATACCGCCACGC
TACCCTCCGTGGAGATTGGTTTCCGCGATTATCTGCTCGCTGAATCATCGTCACCTCATCGCCAAGTCTCTGAGGATTAT
TGGCGAGAAAGTCTCCCAATGTTACCGGATGCACCGCGCTTGCCATTGGTGTGCGATCCCGCCTTAGTGGGCACGCCTAA
ATTTAAGCGTTGGCAAGCTGTCTTGTCGGCCTCTGATTGGCAGATGTTATTGCATAAAGCCAAACAGCATCAAATTACAC
CCTCTTGCTTACTCCTGACTTGCTATGCCCAAGTTTTGGCGAAGTGGTCTGAATCAGCATCACTCACCATCAATGTCACC
TTGTTTGATCGCAAACCTTGTCATCCAGATATTAACCATATTATGGGCGATTTTACTTCTCTGCTCTTATTAGGTTGTCG
ACAAGAGAAAGGGGAAGGGTGGTTGGCAACGGCTCAGCGTATTCAGCAACAGCTATGGCGAGATCTGGAGCACCGTGAAG
TTTCCGCCGTCTGGGTGCTCAGGGAGTTAAATCGCCAGCGGGGAACAACCCATATTCACATGCCGGTGGTGTTTACCAGT
GCCTTGGGCGCACAAGTGGATGGTTACCCTGACAGCGCATTCCAAGCCCTCTTTGGGGATTTCTCAAGACACCGCAATTG
TGGATTGACCATCAGGTTTTCGAACGTGATGGCGAATTGCATTTTAACTGGGATGTCGTTGAGGCTTTATTTCCAGCTGG
CGTGA

Upstream 100 bases:

>100_bases
ACATGTCGTTCAAATCAAAGGAGAAAGCTATCGACTCAGACAGAAACGAAAGGCCGGGGTTATAGCAGAAGCTAATCCTG
AGTAAAACGGTGGATCAATA

Downstream 100 bases:

>100_bases
TTGACGCCATGTTCGCCGCTTACTGTCAGTTGTTGGAAAAACTTTGTGTCACAGAGCACTGGCATGACAGCGTTGAGATT
GCGTTACCTGCGCCGCAGCA

Product: nonribosomal peptide synthetase

Products: pyrophosphate; AMP; enterobactin; pyrophosphate; L-Seryl-AMP [C]

Alternate protein names: HMWP2 [H]

Number of amino acids: Translated: 2134; Mature: 2133

Protein sequence:

>2134_residues
MGRWWRYKWITFHPSLTIKPVTSIKSATSIKSVASIEPVASTTWLSDEEAVGWLPISAKTEAALLATARQLAEVLSQHTA
LARAVVAAWRTKRSHHFPIRALIQYHSLSDLIAQLHQVTGEKSDPRCRFEKAQSPKQWLAGGAFDWAAVTPSEGAVSAEV
LALLPLYPFTRQRYWAEGLLAESTPLSSPSVIAHPLDFSFVRTWVAETLAIASGALSDEDDLLSLGLDSLQMLDLVDECK
KRHITLTLARLFEKTTLGAWEQYWDSICRSGVCGESVSAVTPLTEEQTTDEYWQGEPFVLTPVQQAYWQGRQKGQTLGQV
ACQVYLELDCPSLADERLHQAVTQLFHRHELLRMRINEQGMGVIQEIEPVTVTQYHWDQLSARAGAKERYALRARLSHRM
ADLTDESGFQLIASHDGQNTRLHINVDMVIADAMSLQILLEELGLLLSSQNTPFAPLDYHFPQYLLEQKSTPSTGESEAY
WQQRLIAGLPLAPQLPLAIKPEQIDKPIFQHREWRLASEHWAKLQQIARQHRLTPSMLLAGCFAETLRGWAKLPDFSLNL
TIFNRRGAHPQLAKLVADFTSLLILACEVKENESLLDHFRRLNQQFMVDLDHGDYSAVHVLRQWSQQRGEQVTLPVVFTS
NLGRELLGENAPGALHYLVSQTPQVWLDCQVMEYQKALLISWDTVDALFPEGMLDQMFAFMQQLLQSIVENEQVLQSPVQ
AYVDDKVLAHRQQPLSGVHGVPFEAKTLHQGFWQQVALVPNNIAVINASGVLTYREMAIRVGDLAGYLQQRIARQGHVGI
CLPKGIEQVIAVLAVLSIGAVYVPLDITAPSERLQQLIAQADIGVLISDHEISANCDTVNINITGGFPSPFTPSVFTSSA
AAPSIFVPSIFVQPDEPAYLIFTSGSTGVPKAVVVTHQAAMNTIDEINRRYVDDGKIILFALSALNFDLSVYDIFGPLSV
GGSLVLPNAGDEKEAKQWLSALHQHQVTHWNSVPALFEMLLIAAEQGTQALPRSLQQVLLSGDWIGLDLLPRLRALGSQA
RFTTLGGATEAAIWSNALDIAVIPEEWVSIPYGYPLAHQYYRVVDQAGRDCPDWVTGELWIGGRGVALGYYREPEKTAAQ
FVSVHRAGFYRTGDYGRFWPNGCLEFLGRQDRQIKLHGYRIELAEIEAVAEHLATIKRAVVLYLDQPQKHLYLFVEPQNQ
VSTLFSATVDDVLPETRLVTDIREQENTITAFLLCHVLSNVLKLDLAEYQSTQVLQEKGGISEAYQPLFLAWLHWLVEQG
VLLSRDDQFKTTGIQPVRPEVTEPHLLPLLMTLEQKASWIGEVVTGRGNPLLLLDDTLLSPEILVANTHDAQVVIDVLCQ
RIARLSRQLQRPVNVTELNGRTGLFASRVLSRLGTEVLSYCLLESANSLRQHAKYRLSGYSHETDVIATPDEQQQLADIL
IVNNSLHRFDALPEGIAMLQSLCHGGTEIVLFESLALSPLSLLTVLLLQHPNGFRDQRQGALSPLLDLPAWQSLLTDSGI
AIQQLSIIEPYSALFVCQPQITKVPVSREQIKQHLQQHLPAYMVPSSITVLETLPLTPNGKIDRTSLYKQAVEYGQLSHD
GEAPRVLSAQQKPPDERERSDKRELSDKKEQCVARLWQQVLGVTPQSDSNFFLCGGDSLHATRIVALLEKEGTVGVPLSQ
VFLLPVLRDFAHSLAFRHAPVQEAQLVHCAAQRYSPFELTDVQRAYLMGRQSGFPLGGVATHYYQEYEYQEYEYQENEIY
QEHESHQQYKGTPFDRERLERALTLLVARHDALRIVFDEQGTQRVLPHQPSPALQVIHCGAVEWETVTATQRDRLSHYVS
EPTQWPLFHATLIQSDEGRNRFCLGLDNLVLDGLSMQIFFKELAVLYEDHTATLPSVEIGFRDYLLAESSSPHRQVSEDY
WRESLPMLPDAPRLPLVCDPALVGTPKFKRWQAVLSASDWQMLLHKAKQHQITPSCLLLTCYAQVLAKWSESASLTINVT
LFDRKPCHPDINHIMGDFTSLLLLGCRQEKGEGWLATAQRIQQQLWRDLEHREVSAVWVLRELNRQRGTTHIHMPVVFTS
ALGAQVDGYPDSAFQALFGDFSRHRNCGLTIRFSNVMANCILTGMSLRLYFQLA

Sequences:

>Translated_2134_residues
MGRWWRYKWITFHPSLTIKPVTSIKSATSIKSVASIEPVASTTWLSDEEAVGWLPISAKTEAALLATARQLAEVLSQHTA
LARAVVAAWRTKRSHHFPIRALIQYHSLSDLIAQLHQVTGEKSDPRCRFEKAQSPKQWLAGGAFDWAAVTPSEGAVSAEV
LALLPLYPFTRQRYWAEGLLAESTPLSSPSVIAHPLDFSFVRTWVAETLAIASGALSDEDDLLSLGLDSLQMLDLVDECK
KRHITLTLARLFEKTTLGAWEQYWDSICRSGVCGESVSAVTPLTEEQTTDEYWQGEPFVLTPVQQAYWQGRQKGQTLGQV
ACQVYLELDCPSLADERLHQAVTQLFHRHELLRMRINEQGMGVIQEIEPVTVTQYHWDQLSARAGAKERYALRARLSHRM
ADLTDESGFQLIASHDGQNTRLHINVDMVIADAMSLQILLEELGLLLSSQNTPFAPLDYHFPQYLLEQKSTPSTGESEAY
WQQRLIAGLPLAPQLPLAIKPEQIDKPIFQHREWRLASEHWAKLQQIARQHRLTPSMLLAGCFAETLRGWAKLPDFSLNL
TIFNRRGAHPQLAKLVADFTSLLILACEVKENESLLDHFRRLNQQFMVDLDHGDYSAVHVLRQWSQQRGEQVTLPVVFTS
NLGRELLGENAPGALHYLVSQTPQVWLDCQVMEYQKALLISWDTVDALFPEGMLDQMFAFMQQLLQSIVENEQVLQSPVQ
AYVDDKVLAHRQQPLSGVHGVPFEAKTLHQGFWQQVALVPNNIAVINASGVLTYREMAIRVGDLAGYLQQRIARQGHVGI
CLPKGIEQVIAVLAVLSIGAVYVPLDITAPSERLQQLIAQADIGVLISDHEISANCDTVNINITGGFPSPFTPSVFTSSA
AAPSIFVPSIFVQPDEPAYLIFTSGSTGVPKAVVVTHQAAMNTIDEINRRYVDDGKIILFALSALNFDLSVYDIFGPLSV
GGSLVLPNAGDEKEAKQWLSALHQHQVTHWNSVPALFEMLLIAAEQGTQALPRSLQQVLLSGDWIGLDLLPRLRALGSQA
RFTTLGGATEAAIWSNALDIAVIPEEWVSIPYGYPLAHQYYRVVDQAGRDCPDWVTGELWIGGRGVALGYYREPEKTAAQ
FVSVHRAGFYRTGDYGRFWPNGCLEFLGRQDRQIKLHGYRIELAEIEAVAEHLATIKRAVVLYLDQPQKHLYLFVEPQNQ
VSTLFSATVDDVLPETRLVTDIREQENTITAFLLCHVLSNVLKLDLAEYQSTQVLQEKGGISEAYQPLFLAWLHWLVEQG
VLLSRDDQFKTTGIQPVRPEVTEPHLLPLLMTLEQKASWIGEVVTGRGNPLLLLDDTLLSPEILVANTHDAQVVIDVLCQ
RIARLSRQLQRPVNVTELNGRTGLFASRVLSRLGTEVLSYCLLESANSLRQHAKYRLSGYSHETDVIATPDEQQQLADIL
IVNNSLHRFDALPEGIAMLQSLCHGGTEIVLFESLALSPLSLLTVLLLQHPNGFRDQRQGALSPLLDLPAWQSLLTDSGI
AIQQLSIIEPYSALFVCQPQITKVPVSREQIKQHLQQHLPAYMVPSSITVLETLPLTPNGKIDRTSLYKQAVEYGQLSHD
GEAPRVLSAQQKPPDERERSDKRELSDKKEQCVARLWQQVLGVTPQSDSNFFLCGGDSLHATRIVALLEKEGTVGVPLSQ
VFLLPVLRDFAHSLAFRHAPVQEAQLVHCAAQRYSPFELTDVQRAYLMGRQSGFPLGGVATHYYQEYEYQEYEYQENEIY
QEHESHQQYKGTPFDRERLERALTLLVARHDALRIVFDEQGTQRVLPHQPSPALQVIHCGAVEWETVTATQRDRLSHYVS
EPTQWPLFHATLIQSDEGRNRFCLGLDNLVLDGLSMQIFFKELAVLYEDHTATLPSVEIGFRDYLLAESSSPHRQVSEDY
WRESLPMLPDAPRLPLVCDPALVGTPKFKRWQAVLSASDWQMLLHKAKQHQITPSCLLLTCYAQVLAKWSESASLTINVT
LFDRKPCHPDINHIMGDFTSLLLLGCRQEKGEGWLATAQRIQQQLWRDLEHREVSAVWVLRELNRQRGTTHIHMPVVFTS
ALGAQVDGYPDSAFQALFGDFSRHRNCGLTIRFSNVMANCILTGMSLRLYFQLA
>Mature_2133_residues
GRWWRYKWITFHPSLTIKPVTSIKSATSIKSVASIEPVASTTWLSDEEAVGWLPISAKTEAALLATARQLAEVLSQHTAL
ARAVVAAWRTKRSHHFPIRALIQYHSLSDLIAQLHQVTGEKSDPRCRFEKAQSPKQWLAGGAFDWAAVTPSEGAVSAEVL
ALLPLYPFTRQRYWAEGLLAESTPLSSPSVIAHPLDFSFVRTWVAETLAIASGALSDEDDLLSLGLDSLQMLDLVDECKK
RHITLTLARLFEKTTLGAWEQYWDSICRSGVCGESVSAVTPLTEEQTTDEYWQGEPFVLTPVQQAYWQGRQKGQTLGQVA
CQVYLELDCPSLADERLHQAVTQLFHRHELLRMRINEQGMGVIQEIEPVTVTQYHWDQLSARAGAKERYALRARLSHRMA
DLTDESGFQLIASHDGQNTRLHINVDMVIADAMSLQILLEELGLLLSSQNTPFAPLDYHFPQYLLEQKSTPSTGESEAYW
QQRLIAGLPLAPQLPLAIKPEQIDKPIFQHREWRLASEHWAKLQQIARQHRLTPSMLLAGCFAETLRGWAKLPDFSLNLT
IFNRRGAHPQLAKLVADFTSLLILACEVKENESLLDHFRRLNQQFMVDLDHGDYSAVHVLRQWSQQRGEQVTLPVVFTSN
LGRELLGENAPGALHYLVSQTPQVWLDCQVMEYQKALLISWDTVDALFPEGMLDQMFAFMQQLLQSIVENEQVLQSPVQA
YVDDKVLAHRQQPLSGVHGVPFEAKTLHQGFWQQVALVPNNIAVINASGVLTYREMAIRVGDLAGYLQQRIARQGHVGIC
LPKGIEQVIAVLAVLSIGAVYVPLDITAPSERLQQLIAQADIGVLISDHEISANCDTVNINITGGFPSPFTPSVFTSSAA
APSIFVPSIFVQPDEPAYLIFTSGSTGVPKAVVVTHQAAMNTIDEINRRYVDDGKIILFALSALNFDLSVYDIFGPLSVG
GSLVLPNAGDEKEAKQWLSALHQHQVTHWNSVPALFEMLLIAAEQGTQALPRSLQQVLLSGDWIGLDLLPRLRALGSQAR
FTTLGGATEAAIWSNALDIAVIPEEWVSIPYGYPLAHQYYRVVDQAGRDCPDWVTGELWIGGRGVALGYYREPEKTAAQF
VSVHRAGFYRTGDYGRFWPNGCLEFLGRQDRQIKLHGYRIELAEIEAVAEHLATIKRAVVLYLDQPQKHLYLFVEPQNQV
STLFSATVDDVLPETRLVTDIREQENTITAFLLCHVLSNVLKLDLAEYQSTQVLQEKGGISEAYQPLFLAWLHWLVEQGV
LLSRDDQFKTTGIQPVRPEVTEPHLLPLLMTLEQKASWIGEVVTGRGNPLLLLDDTLLSPEILVANTHDAQVVIDVLCQR
IARLSRQLQRPVNVTELNGRTGLFASRVLSRLGTEVLSYCLLESANSLRQHAKYRLSGYSHETDVIATPDEQQQLADILI
VNNSLHRFDALPEGIAMLQSLCHGGTEIVLFESLALSPLSLLTVLLLQHPNGFRDQRQGALSPLLDLPAWQSLLTDSGIA
IQQLSIIEPYSALFVCQPQITKVPVSREQIKQHLQQHLPAYMVPSSITVLETLPLTPNGKIDRTSLYKQAVEYGQLSHDG
EAPRVLSAQQKPPDERERSDKRELSDKKEQCVARLWQQVLGVTPQSDSNFFLCGGDSLHATRIVALLEKEGTVGVPLSQV
FLLPVLRDFAHSLAFRHAPVQEAQLVHCAAQRYSPFELTDVQRAYLMGRQSGFPLGGVATHYYQEYEYQEYEYQENEIYQ
EHESHQQYKGTPFDRERLERALTLLVARHDALRIVFDEQGTQRVLPHQPSPALQVIHCGAVEWETVTATQRDRLSHYVSE
PTQWPLFHATLIQSDEGRNRFCLGLDNLVLDGLSMQIFFKELAVLYEDHTATLPSVEIGFRDYLLAESSSPHRQVSEDYW
RESLPMLPDAPRLPLVCDPALVGTPKFKRWQAVLSASDWQMLLHKAKQHQITPSCLLLTCYAQVLAKWSESASLTINVTL
FDRKPCHPDINHIMGDFTSLLLLGCRQEKGEGWLATAQRIQQQLWRDLEHREVSAVWVLRELNRQRGTTHIHMPVVFTSA
LGAQVDGYPDSAFQALFGDFSRHRNCGLTIRFSNVMANCILTGMSLRLYFQLA

Specific function: Unknown. May be involved in the nonribosomal synthesis of small peptides [H]

COG id: COG1020

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

Gene ontology:

Cell location: Cytoplasm [C]

Metaboloic importance: Non_Essential [C]

Operon status: Not Known

Operon components: None

Similarity: Contains 3 acyl carrier domains [H]

Homologues:

Organism=Homo sapiens, GI45580730, Length=475, Percent_Identity=24.6315789473684, Blast_Score=99, Evalue=6e-20,
Organism=Escherichia coli, GI1786801, Length=439, Percent_Identity=32.3462414578588, Blast_Score=192, Evalue=2e-49,
Organism=Escherichia coli, GI1786810, Length=473, Percent_Identity=25.1585623678647, Blast_Score=86, Evalue=4e-17,
Organism=Saccharomyces cerevisiae, GI6319591, Length=501, Percent_Identity=25.3493013972056, Blast_Score=113, Evalue=4e-25,
Organism=Drosophila melanogaster, GI24648676, Length=492, Percent_Identity=26.4227642276423, Blast_Score=129, Evalue=3e-29,
Organism=Drosophila melanogaster, GI24656500, Length=289, Percent_Identity=26.2975778546713, Blast_Score=78, Evalue=9e-14,
Organism=Drosophila melanogaster, GI24581924, Length=279, Percent_Identity=24.7311827956989, Blast_Score=72, Evalue=4e-12,

Paralogues:

None

Copy number: NA

Swissprot (AC and ID): NA

Other databases:

- InterPro:   IPR010071
- InterPro:   IPR009081
- InterPro:   IPR020845
- InterPro:   IPR000873
- InterPro:   IPR001242
- InterPro:   IPR013217
- InterPro:   IPR013624
- InterPro:   IPR006163
- InterPro:   IPR006162 [H]

Pfam domain/function: PF00501 AMP-binding; PF00668 Condensation; PF08242 Methyltransf_12; PF08415 NRPS; PF00550 PP-binding [H]

EC number: 2.7.7.- [C]

Molecular weight: Translated: 239465; Mature: 239334

Theoretical pI: Translated: 5.97; Mature: 5.97

Prosite motif: PS00012 PHOSPHOPANTETHEINE ; PS50075 ACP_DOMAIN ; PS00455 AMP_BINDING

Important sites: NA

Signals:

None

Transmembrane regions:

None

Cys/Met content:

1.4 %Cys     (Translated Protein)
1.3 %Met     (Translated Protein)
2.7 %Cys+Met (Translated Protein)
1.4 %Cys     (Mature Protein)
1.2 %Met     (Mature Protein)
2.6 %Cys+Met (Mature Protein)

Secondary structure:

>Translated Secondary Structure
MGRWWRYKWITFHPSLTIKPVTSIKSATSIKSVASIEPVASTTWLSDEEAVGWLPISAKT
CCCEEEEEEEEECCCEEEEEHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCEEEECCCCC
EAALLATARQLAEVLSQHTALARAVVAAWRTKRSHHFPIRALIQYHSLSDLIAQLHQVTG
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHHHHC
EKSDPRCRFEKAQSPKQWLAGGAFDWAAVTPSEGAVSAEVLALLPLYPFTRQRYWAEGLL
CCCCCCCHHHHCCCCHHHHCCCCCCCEEECCCCCCHHHHHHHHHCCCCHHHHHHHHHCCC
AESTPLSSPSVIAHPLDFSFVRTWVAETLAIASGALSDEDDLLSLGLDSLQMLDLVDECK
CCCCCCCCCCEEECCCCHHHHHHHHHHHHHHHCCCCCCCCHHHHHCHHHHHHHHHHHHHH
KRHITLTLARLFEKTTLGAWEQYWDSICRSGVCGESVSAVTPLTEEQTTDEYWQGEPFVL
HCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCHHHHCCCCEEE
TPVQQAYWQGRQKGQTLGQVACQVYLELDCPSLADERLHQAVTQLFHRHELLRMRINEQG
CCHHHHHHCCHHCCCHHHHHHHEEEEEECCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCC
MGVIQEIEPVTVTQYHWDQLSARAGAKERYALRARLSHRMADLTDESGFQLIASHDGQNT
CCHHHHCCCCEEEEEHHHHHHHHCCCHHHHHHHHHHHHHHHHCCCCCCCEEEEECCCCCC
RLHINVDMVIADAMSLQILLEELGLLLSSQNTPFAPLDYHFPQYLLEQKSTPSTGESEAY
EEEEEEEEEEHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCHHHHHHCCCCCCCCCHHHH
WQQRLIAGLPLAPQLPLAIKPEQIDKPIFQHREWRLASEHWAKLQQIARQHRLTPSMLLA
HHHHHHHCCCCCCCCCCEECHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHH
GCFAETLRGWAKLPDFSLNLTIFNRRGAHPQLAKLVADFTSLLILACEVKENESLLDHFR
HHHHHHHHHHHCCCCCEEEEEEEECCCCCHHHHHHHHHHHHHHHEEECCCCCHHHHHHHH
RLNQQFMVDLDHGDYSAVHVLRQWSQQRGEQVTLPVVFTSNLGRELLGENAPGALHYLVS
HCCHHEEEEECCCCHHHHHHHHHHHHHCCCEEEEEEEEECCCCHHHHCCCCCHHHHHHHH
QTPQVWLDCQVMEYQKALLISWDTVDALFPEGMLDQMFAFMQQLLQSIVENEQVLQSPVQ
CCCCEEEEEEHHHHCCHHEEEECHHHHHCCCCHHHHHHHHHHHHHHHHHCCHHHHHHHHH
AYVDDKVLAHRQQPLSGVHGVPFEAKTLHQGFWQQVALVPNNIAVINASGVLTYREMAIR
HHHHHHHHHHHCCCCCCCCCCCCCHHHHHHHHHHHHHCCCCCEEEEECCCCHHHHHHHHH
VGDLAGYLQQRIARQGHVGICLPKGIEQVIAVLAVLSIGAVYVPLDITAPSERLQQLIAQ
HHHHHHHHHHHHHHCCCCEEECCHHHHHHHHHHHHHHCCCEEEEEECCCCHHHHHHHHHH
ADIGVLISDHEISANCDTVNINITGGFPSPFTPSVFTSSAAAPSIFVPSIFVQPDEPAYL
CCCCEEEECCCCCCCCCEEEEEEECCCCCCCCCHHHCCCCCCCCEECCEEEECCCCCEEE
IFTSGSTGVPKAVVVTHQAAMNTIDEINRRYVDDGKIILFALSALNFDLSVYDIFGPLSV
EEECCCCCCCCEEEEEHHHHHHHHHHHHHHCCCCCCEEEEEEEHHCCCEEEEEECCHHHC
GGSLVLPNAGDEKEAKQWLSALHQHQVTHWNSVPALFEMLLIAAEQGTQALPRSLQQVLL
CCEEEECCCCCHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHCCCHHHHHHHHHHHH
SGDWIGLDLLPRLRALGSQARFTTLGGATEAAIWSNALDIAVIPEEWVSIPYGYPLAHQY
CCCCCCHHHHHHHHHCCCCCCEEECCCCHHHHHHCCCCEEEEECHHHHCCCCCCCHHHHH
YRVVDQAGRDCPDWVTGELWIGGRGVALGYYREPEKTAAQFVSVHRAGFYRTGDYGRFWP
HHHHHHCCCCCCCCCCCEEEECCCEEEEEECCCCHHHHHHHHHHHHCCCEEECCCCCCCH
NGCLEFLGRQDRQIKLHGYRIELAEIEAVAEHLATIKRAVVLYLDQPQKHLYLFVEPQNQ
HHHHHHCCCCCCEEEEEEEEEEHHHHHHHHHHHHHHHHHHEEEECCCCCEEEEEECCCHH
VSTLFSATVDDVLPETRLVTDIREQENTITAFLLCHVLSNVLKLDLAEYQSTQVLQEKGG
HHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCC
ISEAYQPLFLAWLHWLVEQGVLLSRDDQFKTTGIQPVRPEVTEPHLLPLLMTLEQKASWI
HHHHHHHHHHHHHHHHHHCCCEECCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHH
GEVVTGRGNPLLLLDDTLLSPEILVANTHDAQVVIDVLCQRIARLSRQLQRPVNVTELNG
HHHHCCCCCEEEEEECCCCCCEEEEECCCCHHHHHHHHHHHHHHHHHHHHCCCCEEEECC
RTGLFASRVLSRLGTEVLSYCLLESANSLRQHAKYRLSGYSHETDVIATPDEQQQLADIL
CCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCEEECCCHHHHHHHHH
IVNNSLHRFDALPEGIAMLQSLCHGGTEIVLFESLALSPLSLLTVLLLQHPNGFRDQRQG
EECCCHHHHHCCHHHHHHHHHHHCCCCEEEEEHHHHCCHHHHHHHHHHHCCCCCCHHHHH
ALSPLLDLPAWQSLLTDSGIAIQQLSIIEPYSALFVCQPQITKVPVSREQIKQHLQQHLP
HHHHHHCCHHHHHHHCCCCCEEEHHHHCCCCCEEEEECCCCCCCCCCHHHHHHHHHHCCC
AYMVPSSITVLETLPLTPNGKIDRTSLYKQAVEYGQLSHDGEAPRVLSAQQKPPDERERS
CEECCCCEEEEEEECCCCCCCCCHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCHHHHH
DKRELSDKKEQCVARLWQQVLGVTPQSDSNFFLCGGDSLHATRIVALLEKEGTVGVPLSQ
HHHHHHHHHHHHHHHHHHHHHCCCCCCCCCEEEECCCCHHHHHHHHHHHCCCCCCCCHHH
VFLLPVLRDFAHSLAFRHAPVQEAQLVHCAAQRYSPFELTDVQRAYLMGRQSGFPLGGVA
HHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHCCCCCCHHHHHHHHHHCCCCCCCCCHHH
THYYQEYEYQEYEYQENEIYQEHESHQQYKGTPFDRERLERALTLLVARHDALRIVFDEQ
HHHHHHHCCCHHHCCHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHCCCEEEEEECCC
GTQRVLPHQPSPALQVIHCGAVEWETVTATQRDRLSHYVSEPTQWPLFHATLIQSDEGRN
CCCCCCCCCCCCCEEEEECCCEEEEEECHHHHHHHHHHHCCCCCCCEEEEEEEECCCCCC
RFCLGLDNLVLDGLSMQIFFKELAVLYEDHTATLPSVEIGFRDYLLAESSSPHRQVSEDY
EEEEEHHHHHHCCCHHHHHHHHHHHHHCCCCCCCCCEEECHHHHEEECCCCCHHHHHHHH
WRESLPMLPDAPRLPLVCDPALVGTPKFKRWQAVLSASDWQMLLHKAKQHQITPSCLLLT
HHHCCCCCCCCCCCCEEECCCCCCCCCHHHHHHHHCCCHHHHHHHHHHHCCCCHHHHHHH
CYAQVLAKWSESASLTINVTLFDRKPCHPDINHIMGDFTSLLLLGCRQEKGEGWLATAQR
HHHHHHHHCCCCCEEEEEEEEECCCCCCCCHHHHHHHHHHHHHHHCCCCCCCCHHHHHHH
IQQQLWRDLEHREVSAVWVLRELNRQRGTTHIHMPVVFTSALGAQVDGYPDSAFQALFGD
HHHHHHHHHHHHHHHHHHHHHHHHHHCCCEEEEEHHHHHHHHCCCCCCCCCHHHHHHHHH
FSRHRNCGLTIRFSNVMANCILTGMSLRLYFQLA
HHHCCCCCEEEEEHHHHHHHHHHCCEEEEEEEEC
>Mature Secondary Structure 
GRWWRYKWITFHPSLTIKPVTSIKSATSIKSVASIEPVASTTWLSDEEAVGWLPISAKT
CCEEEEEEEEECCCEEEEEHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCEEEECCCCC
EAALLATARQLAEVLSQHTALARAVVAAWRTKRSHHFPIRALIQYHSLSDLIAQLHQVTG
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHHHHC
EKSDPRCRFEKAQSPKQWLAGGAFDWAAVTPSEGAVSAEVLALLPLYPFTRQRYWAEGLL
CCCCCCCHHHHCCCCHHHHCCCCCCCEEECCCCCCHHHHHHHHHCCCCHHHHHHHHHCCC
AESTPLSSPSVIAHPLDFSFVRTWVAETLAIASGALSDEDDLLSLGLDSLQMLDLVDECK
CCCCCCCCCCEEECCCCHHHHHHHHHHHHHHHCCCCCCCCHHHHHCHHHHHHHHHHHHHH
KRHITLTLARLFEKTTLGAWEQYWDSICRSGVCGESVSAVTPLTEEQTTDEYWQGEPFVL
HCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCHHHHCCCCEEE
TPVQQAYWQGRQKGQTLGQVACQVYLELDCPSLADERLHQAVTQLFHRHELLRMRINEQG
CCHHHHHHCCHHCCCHHHHHHHEEEEEECCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCC
MGVIQEIEPVTVTQYHWDQLSARAGAKERYALRARLSHRMADLTDESGFQLIASHDGQNT
CCHHHHCCCCEEEEEHHHHHHHHCCCHHHHHHHHHHHHHHHHCCCCCCCEEEEECCCCCC
RLHINVDMVIADAMSLQILLEELGLLLSSQNTPFAPLDYHFPQYLLEQKSTPSTGESEAY
EEEEEEEEEEHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCHHHHHHCCCCCCCCCHHHH
WQQRLIAGLPLAPQLPLAIKPEQIDKPIFQHREWRLASEHWAKLQQIARQHRLTPSMLLA
HHHHHHHCCCCCCCCCCEECHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHH
GCFAETLRGWAKLPDFSLNLTIFNRRGAHPQLAKLVADFTSLLILACEVKENESLLDHFR
HHHHHHHHHHHCCCCCEEEEEEEECCCCCHHHHHHHHHHHHHHHEEECCCCCHHHHHHHH
RLNQQFMVDLDHGDYSAVHVLRQWSQQRGEQVTLPVVFTSNLGRELLGENAPGALHYLVS
HCCHHEEEEECCCCHHHHHHHHHHHHHCCCEEEEEEEEECCCCHHHHCCCCCHHHHHHHH
QTPQVWLDCQVMEYQKALLISWDTVDALFPEGMLDQMFAFMQQLLQSIVENEQVLQSPVQ
CCCCEEEEEEHHHHCCHHEEEECHHHHHCCCCHHHHHHHHHHHHHHHHHCCHHHHHHHHH
AYVDDKVLAHRQQPLSGVHGVPFEAKTLHQGFWQQVALVPNNIAVINASGVLTYREMAIR
HHHHHHHHHHHCCCCCCCCCCCCCHHHHHHHHHHHHHCCCCCEEEEECCCCHHHHHHHHH
VGDLAGYLQQRIARQGHVGICLPKGIEQVIAVLAVLSIGAVYVPLDITAPSERLQQLIAQ
HHHHHHHHHHHHHHCCCCEEECCHHHHHHHHHHHHHHCCCEEEEEECCCCHHHHHHHHHH
ADIGVLISDHEISANCDTVNINITGGFPSPFTPSVFTSSAAAPSIFVPSIFVQPDEPAYL
CCCCEEEECCCCCCCCCEEEEEEECCCCCCCCCHHHCCCCCCCCEECCEEEECCCCCEEE
IFTSGSTGVPKAVVVTHQAAMNTIDEINRRYVDDGKIILFALSALNFDLSVYDIFGPLSV
EEECCCCCCCCEEEEEHHHHHHHHHHHHHHCCCCCCEEEEEEEHHCCCEEEEEECCHHHC
GGSLVLPNAGDEKEAKQWLSALHQHQVTHWNSVPALFEMLLIAAEQGTQALPRSLQQVLL
CCEEEECCCCCHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHCCCHHHHHHHHHHHH
SGDWIGLDLLPRLRALGSQARFTTLGGATEAAIWSNALDIAVIPEEWVSIPYGYPLAHQY
CCCCCCHHHHHHHHHCCCCCCEEECCCCHHHHHHCCCCEEEEECHHHHCCCCCCCHHHHH
YRVVDQAGRDCPDWVTGELWIGGRGVALGYYREPEKTAAQFVSVHRAGFYRTGDYGRFWP
HHHHHHCCCCCCCCCCCEEEECCCEEEEEECCCCHHHHHHHHHHHHCCCEEECCCCCCCH
NGCLEFLGRQDRQIKLHGYRIELAEIEAVAEHLATIKRAVVLYLDQPQKHLYLFVEPQNQ
HHHHHHCCCCCCEEEEEEEEEEHHHHHHHHHHHHHHHHHHEEEECCCCCEEEEEECCCHH
VSTLFSATVDDVLPETRLVTDIREQENTITAFLLCHVLSNVLKLDLAEYQSTQVLQEKGG
HHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCC
ISEAYQPLFLAWLHWLVEQGVLLSRDDQFKTTGIQPVRPEVTEPHLLPLLMTLEQKASWI
HHHHHHHHHHHHHHHHHHCCCEECCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHH
GEVVTGRGNPLLLLDDTLLSPEILVANTHDAQVVIDVLCQRIARLSRQLQRPVNVTELNG
HHHHCCCCCEEEEEECCCCCCEEEEECCCCHHHHHHHHHHHHHHHHHHHHCCCCEEEECC
RTGLFASRVLSRLGTEVLSYCLLESANSLRQHAKYRLSGYSHETDVIATPDEQQQLADIL
CCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCEEECCCHHHHHHHHH
IVNNSLHRFDALPEGIAMLQSLCHGGTEIVLFESLALSPLSLLTVLLLQHPNGFRDQRQG
EECCCHHHHHCCHHHHHHHHHHHCCCCEEEEEHHHHCCHHHHHHHHHHHCCCCCCHHHHH
ALSPLLDLPAWQSLLTDSGIAIQQLSIIEPYSALFVCQPQITKVPVSREQIKQHLQQHLP
HHHHHHCCHHHHHHHCCCCCEEEHHHHCCCCCEEEEECCCCCCCCCCHHHHHHHHHHCCC
AYMVPSSITVLETLPLTPNGKIDRTSLYKQAVEYGQLSHDGEAPRVLSAQQKPPDERERS
CEECCCCEEEEEEECCCCCCCCCHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCHHHHH
DKRELSDKKEQCVARLWQQVLGVTPQSDSNFFLCGGDSLHATRIVALLEKEGTVGVPLSQ
HHHHHHHHHHHHHHHHHHHHHCCCCCCCCCEEEECCCCHHHHHHHHHHHCCCCCCCCHHH
VFLLPVLRDFAHSLAFRHAPVQEAQLVHCAAQRYSPFELTDVQRAYLMGRQSGFPLGGVA
HHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHCCCCCCHHHHHHHHHHCCCCCCCCCHHH
THYYQEYEYQEYEYQENEIYQEHESHQQYKGTPFDRERLERALTLLVARHDALRIVFDEQ
HHHHHHHCCCHHHCCHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHCCCEEEEEECCC
GTQRVLPHQPSPALQVIHCGAVEWETVTATQRDRLSHYVSEPTQWPLFHATLIQSDEGRN
CCCCCCCCCCCCCEEEEECCCEEEEEECHHHHHHHHHHHCCCCCCCEEEEEEEECCCCCC
RFCLGLDNLVLDGLSMQIFFKELAVLYEDHTATLPSVEIGFRDYLLAESSSPHRQVSEDY
EEEEEHHHHHHCCCHHHHHHHHHHHHHCCCCCCCCCEEECHHHHEEECCCCCHHHHHHHH
WRESLPMLPDAPRLPLVCDPALVGTPKFKRWQAVLSASDWQMLLHKAKQHQITPSCLLLT
HHHCCCCCCCCCCCCEEECCCCCCCCCHHHHHHHHCCCHHHHHHHHHHHCCCCHHHHHHH
CYAQVLAKWSESASLTINVTLFDRKPCHPDINHIMGDFTSLLLLGCRQEKGEGWLATAQR
HHHHHHHHCCCCCEEEEEEEEECCCCCCCCHHHHHHHHHHHHHHHCCCCCCCCHHHHHHH
IQQQLWRDLEHREVSAVWVLRELNRQRGTTHIHMPVVFTSALGAQVDGYPDSAFQALFGD
HHHHHHHHHHHHHHHHHHHHHHHHHHCCCEEEEEHHHHHHHHCCCCCCCCCHHHHHHHHH
FSRHRNCGLTIRFSNVMANCILTGMSLRLYFQLA
HHHCCCCCEEEEEHHHHHHHHHHCCEEEEEEEEC

PDB accession: NA

Resolution: NA

Structure class: Unstructured

Cofactors: Phosphopantetheine. [C]

Metal ions: NA

Kcat value (1/min): NA

Specific activity: NA

Km value (mM): NA

Substrates: 6 ATP; L-serine; 2,3-dihydroxybenzoate [C]

Specific reaction: 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate = 6 pyrophosphate + 6 AMP + enterobactin ATP + L-serine = pyrophosphate + L-Seryl-AMP 6 ATP + 3 L-serine + 3 2,3-dihydroxybenzoate = 6 pyrophosphate + 6 AMP + enterobactin ATP + L-serine = pyrophosphate + L-Ser

General reaction: Transferases; Acyltransferases; Transferring groups other than amino-acyl groups [C]

Inhibitor: NA

Structure determination priority: 9.0

TargetDB status: NA

Availability: NA

References: 8366034 [H]