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The map label for this gene is nrp2 [H]

Identifier: 148659864

GI number: 148659864

Start: 111665

End: 118897

Strand: Direct

Name: nrp2 [H]

Synonym: MRA_0106

Alternate gene names: 148659864

Gene position: 111665-118897 (Clockwise)

Preceding gene: 148659863

Following gene: 148659865

Centisome position: 2.53

GC content: 65.27

Gene sequence:

>7233_bases
GTGCGGCATACGGTGCACACCGACCCGAACGGGTATGTGACCGGTCTGGACGTTCACACCCACCACATCCTGCTGGACGG
CGGCGCGACCGGGACGATCGAAGCTGACCTGGCGCGTTACCTGACCACCGACCCGGCGGGCGAAACCCCCAGTGTCGGTG
CGGGTCTAGCCAAGCTCAGGGAGGCGCACCGTCGTGAGACGGCCAAGGTGGAAGAATCGCGGGGGCGCCTGTCGGCTGTC
GTGCAGCGTGAACTCGCCGACGAAGCATACCACGGCGGGCACGGGCACAGCGTTAGCGACGCTCCCGGGACCGCGGCCAA
GGGCGTCCTGCACGAATCGGCAACGATCTGCGGCAACGCGTTTGATGCCATCCTGACCCTTTCGGAAGCGCAGCGGGTCC
CGCTTAATGTGCTGGTGGCTGCGGCGGCCGTCGCGGTGGACGCGAGCCTTCGGCAGAACACCGAAACCCTCTTGGTGCAC
ACGGTGGACAACCGGTTCGGAGATTCTGATCTGAATGTCGCGACCTGTTTGGTCAATTCGGTTGCCCAGACCGTCCGGTT
TCCCCCATTTGCGTCGGTGTCCGATGTCGTTCGAACGCTTGACCGCGGCTATGTCAAGGCGGTAAGACGCCGGTGGCTTC
GTGAGGAGCATTACCGCCGAATGTATTTGGCGATCAACCGGACATCTCACGTGGAGGCGTTGACGCTAAATTTCATTCGC
GAGCCATGCGCACCTGGCCTGCGCCCGTTCTTGTCGGAGGTCCCGATTGCCACGGATATCGGTCCGGTCGAGGGCATGAC
GGTGGCGTCTGTTCTGGACGAAGAACAGCGCACACTGAACCTAGCCATCTGGAACCGAGCCGATCTGCCCGCGTGCAAGA
CACACCCCAAGGTCGCGGAACGGATAGCGGCAGCGTTGGAATCGATGGCGGCGATGTGGGATCGGCCGATCGCCATGATC
GTCAACGACTGGTTCGGGATCGGCCCGGACGGGACTCGCTGCCAAGGCGATTGGCCAGCCCGTCAGCCGTCGACGCCCGC
GTGGTTTCTCGATTCCGCAAGGGGCGTCCACCAATTTCTCGGCAGGCGCCGCTTCGTCTACCCGTGGGTCGCGTGGTTGG
TGCAACGCGGCGCCGCACCGGGTGATGTTCTGGTGTTCACCGACGACGACACCGACAAGACCATTGACCTGCTCATCGCG
TGTCACCTTGCGGGTTGCGGGTACAGCGTCTGCGACACCGCTGACGAAATTTCCGTGCGGACCAATGCGATTACCGAGCA
CGGCGATGGCATCTTGGTGACAGTGGTCGACGTGGCCGCCACCCAGCTGGCGGTTGTCGGCCATGACGAGCTGCGGAAGG
TCGTTGACGAGCGCGTCACACAGGTGACACACGACGCACTGCTGGCCACCAAGACCGCCTACATCATGCCGACCTCGGGA
ACTACCGGACAACCCAAGCTGGTGCGAATCTCACACGGCTCGCTCGCGGTTTTCTGTGATGCGATCAGCCGCGCCTACGG
TTGGGGAGCCCACGACACCGTTCTGCAGTGCGCTCCGTTGACATCGGACATCAGCGTCGAGGAGATTTTCGGTGGCGCGG
CCTGTGGCGCGCGACTGGTGCGATCCGCGGCTATGAAAACCGGCGACCTGGCGGCGCTGGTTGACGATCTCGTCGCCCGC
GAGACGACAATCGTCGACCTGCCGACCGCCGTCTGGCAGCTGTTGTGCGCCGACGGCGACGCCATTGACGCGATCGGCCG
CTCGCGCCTGCGGCAGATCGTAATCGGCGGTGAAGCCATCCGCTGTAGCGCCGTGGACAAGTGGCTTGAATCGGCTGCTT
CACAAGGGATCTCGCTGCTCTCGAGCTATGGTCCAACAGAAGCCACGGTCGTCGCCACCTTCTTGCCGATCGTTTGCGAC
CAGACCACCATGGACGGCGCACTGCTCAGGCTCGGCCGGCCGATCCTACCGAACACGGTGTTCCTCGCGTTCGGTGAAGT
CGTCATTGTCGGGGATTTAGTCGCCGACGGCTACCTCGGGATCGACGGCGACGGCTTCGGCACCGTGACGGCCGCAGACG
GTTCCCGACGCCGTGCCTTTGCCACTGGCGACCGGGTGACCGTCGACGCCGAAGGATTTCCGGTCTTCTCCGGACGCAAA
GACGCCGTCGTCAAGATCTCCGGCAAGCGTGTCGATATCGCTGAGGTAACCAGGCGCATCGCCGAAGACCCCGCGGTGTC
AGATGTCGCCGTCGAGTTGCACAGCGGAAGCCTCGGAGTGTGGTTCAAGAGCCAACGGACCCGCGAGGGCGAACAAGACG
CTGCCGCGGCGACCCGGATCAGGCTCGTCCTCGTGAGTCTGGGAGTGTCGTCGTTTTTCGTTGTCGGCGTGCCGAATATC
CCGAGGAAGCCCAACGGGAAGATCGACAGCGACAACCTGCCGAGGCTGCCTCAGTGGTCAGCTGCTGGGCTAAACACCGC
CGAGACGGGTCAGCGAGCGGCCGGCCTCTCGCAGATCTGGAGCCGGCAGCTCGGCCGGGCAATCGGGCCGGACTCGTCGC
TGCTTGGTGAGGGCATCGGCTCGTTGGATCTCATCAGAATACTGCCCGAGACGCGTAGGTATCTGGGGTGGCGCCTCTCG
CTGCTGGATCTGATCGGTGCCGATACCGCCGCCAATCTGGCCGATTACGCGCCAACGCCCGACGCGCCGACGGGCGAAGA
TCGGTTTAGGCCGCTGGTGGCCGCGCAACGGCCCGCGGCGATTCCGTTGTCGTTTGCCCAGCGGCGACTATGGTTTCTCG
ACCAGTTACAGCGACCCGCTCCGGTCTACAACATGGCGGTGGCGTTGCGGCTGCGCGGGTATCTCGATACCGAGGCGTTG
GGCGCGGCGGTCGCCGATGTCGTGGGCCGCCACGAAAGCCTACGGACGGTGTTTCCGGCGGTCGACGGGGTCCCTCGGCA
GCTGGTCATCGAAGCGCGGCGGGCAGATCTTGGCTGCGACATCGTCGATGCCACCGCATGGCCGGCTGACCGGCTGCAAC
GGGCCATCGAGGAGGCGGCGCGCCACAGCTTCGATTTGGCAACCGAGATACCTTTGCGGACGTGGCTTTTCCGGATCGCC
GACGACGAACATGTGCTGGTGGCGGTTGCACACCATATCGCCGCCGACGGCTGGTCGGTGGCTCCGCTGACGGCCGATCT
GAGTGCGGCATATGCCAGCCGTTGTGCGGGTCGGGCACCGGACTGGGCGCCATTGCCAGTGCAGTATGTCGATTACACGC
TGTGGCAGCGGGAAATCCTCGGTGATCTCGACGACAGCGACAGCCCGATCGCCGCGCAGCTGGCCTACTGGGAAAATGCG
TTGGCCGGTATGCCGGAACGGCTGCGGCTGCCCACCGCTCGGCCCTATCCACCGGTTGCCGATCAGCGCGGCGCCAGTTT
GGTGGTGGATTGGCCGGCGTCGGTGCAACAGCAGGTGCGTCGGATCGCCCGCCAGCACAACGCGACCAGCTTCATGGTGG
TAGCTGCCGGGCTTGCCGTGCTGCTGTCGAAACTCAGCGGAAGCCCCGATGTGGCGGTCGGATTTCCCATCGCCGGCCGC
AGCGATCCTGCGCTGGATAACTTGGTGGGCTTTTTTGTCAACACCTTGGTGTTGCGGGTCAACCTGGCCGGTGATCCCAG
CTTCGCCGAACTGCTGGGGCAGGTGCGAGCGCGCAGCCTGGCCGCCTACGAAAATCAAGACGTACCTTTCGAGGTGCTCG
TTGATCGCCTCAAACCCACTCGAGCCCTGACCCATCACCCGCTGATCCAGGTGATGTTGGCCTGGCAGGACAATCCGGTT
GGACAGCTGAATTTGGGTGATCTGCAGGCCACCCCGATGCCGATCGACACCCGCACCGCCCGCATGGACTTGGTGTTTTC
GTTAGCGGAACGCTTCAGCGAGGGTAGCGAACCTGCCGGGATCGGCGGAGCGGTGGAATACCGCACCGATGTGTTTGAAG
CCCAAGCAATCGACGTGCTTATCGAGCGGTTGCGGAAGGTGTTGGTGGCGGTGGCCGCTGCTCCGGAACGGACGGTGTCG
TCGATCGATGCGCTGGATGGGACCGAGCGTGCCCGGTTGGATGAGTGGGGTAACCGCGCTGTGCTGACTGCGCCCGCGCC
CACGCCGGTGTCGATCCCGCAGATGTTGGCCGCCCAGGTGGCACGTATCCCCGAAGCGGAGGCGGTGTGTTGCGGGGACG
CGTCGATGACGTATCGGGAACTCGACGAGGCGTCCAACCGGTTAGCGCATCGGCTGGCAGGTTGTGGGGCCGGCCCGGGC
GAGTGTGTGGCGCTGCTGTTCGAGCGGTGCGCGCCGGCGGTCGTGGCGATGGTGGCAGTGCTCAAAACCGGGGCGGCGTA
TCTGCCGATCGATCCGGCGAATCCTCCGCCGCGGGTGGCGTTCATGCTCGGCGACGCGGTGCCCGTGGCCGCGGTCACCA
CGGCTGGGCTGCGCTCCCGGTTGGCGGGACACGACTTGCCGATCATCGATGTCGTCGATGCTTTAGCGGCATATCCGGGC
ACGCCCCCACCCATGCCGGCCGCAGTGAACCTCGCCTACATCCTGTACACCTCGGGCACTACCGGCGAGCCCAAAGGCGT
GGGGATCACCCATCGCAACGTCACCAGGCTGTTCGCATCACTGCCGGCACGCTTGTCGGCGGCGCAGGTGTGGTCGCAGT
GTCATTCCTATGGCTTCGACGCCTCGGCGTGGGAGATCTGGGGCGCGTTGCTAGGTGGTGGGCGACTGGTGATCGTGCCC
GAGTCGGTGGCGGCCTCGCCGAACGACTTTCATGGGCTGCTCGTGGCCGAACACGTCAGCGTGCTGACTCAGACTCCGGC
TGCGGTGGCAATGTTGCCGACGCAGGGTTTGGAGTCGGTGGCGTTGGTGGTGGCCGGTGAGGCATGTCCGGCAGCGCTGG
TGGATCGGTGGGCGCCCGGGCGGGTGATGCTAAATGCTTATGGCCCAACCGAGACCACGATCTGTGCGGCGATAAGTGCG
CCGTTGCGACCGGGTTCGGGGATGCCGCCGATTGGTGTTCCGGTGTCGGGGGCGGCGTTGTTTGTGCTGGATAGCTGGTT
GCGCCCGGTACCGGCCGGGGTGGCCGGAGAGTTGTACATTGCCGGTGCGGGCGTCGGTGTTGGGTATTGGCGTCGGGCGG
GGCTGACCGCGTCACGGTTTGTGGCCTGCCCATTCGGCGGTTCCGGGGCACGCATGTATCGCACCGGGGATCTGGTGTGT
TGGCGCGCCGATGGCCAGTTGGAGTTCCTGGGGCGCACCGACGATCAGGTCAAGATCCGCGGGTATCGCATCGAGCTCGG
CGAGGTTGCGACCGCGCTGGCCGAGCTGGCTGGGGTAGGTCAAGCGGTTGTAATCGCCCGTGAAGACCGCCCTGGGGACA
AGCGCCTAGTCGGGTATGCCACCGAAATTGCCCCCGGGGCAGTGGACCCGGCCGGGCTGCGGGCGCAACTAGCCCAGCGA
TTGCCCGGTTACCTGGTGCCAGCCGCGGTGGTAGTGATCGATGCGCTTCCGTTGACGGTCAACGGCAAACTTGATCATCG
TGCGTTGCCGGCACCGGAATACGGTGATACCAACGGATATCGCGCTCCGGCCGGGCCGGTTGAGAAGACCGTGGCCGGCA
TCTTTGCCCGGGTGCTTGGGCTTGAGCGGGTCGGCGTCGACGACTCGTTCTTCGAGCTCGGCGGCGATTCGCTGGCGGCA
ATGCGGGTTATCGCCGCGATCAACACCACCCTAAACGCCGATCTGCCGGTGCGCGCGTTGCTGCACGCGTCGTCGACGAG
AGGTTTAAGCCAGCTGTTGGGGCGAGATGCCCGACCGACCAGCGATCCGCGCTTGGTGTCTGTGCACGGCGACAACCCCA
CCGAGGTGCATGCCAGCGACCTCACGCTGGACCGGTTCATCGACGCCGACACGCTGGCCACCGCCGTCAACCTGCCGGGC
CCGAGCCCCGAGCTACGGACGGTCCTGCTGACGGGCGCGACGGGTTTCCTCGGACGGTATCTGGTCCTTGAATTGCTGCG
GCGGCTGGACGTCGACGGCAGGCTGATCTGTTTGGTGCGGGCGGAGTCCGACGAGGATGCGCGGCGTCGTCTGGAGAAGA
CCTTCGATAGCGGTGACCCGGAATTGCTGCGGCACTTCAAGGAGCTTGCCGCCGACCGGCTGGAGGTCGTCGCAGGCGAC
AAGAGCGAACCCGACCTGGGCCTGGACCAACCGATGTGGCGGCGGCTGGCCGAAACCGTGGATTTGATTGTCGATTCCGC
GGCGATGGTCAACGCGTTTCCCTACCACGAATTGTTCGGGCCCAACGTCGCGGGCACCGCCGAGCTGATCCGAATCGCGC
TTACCACCAAGCTCAAACCCTTCACCTACGTGTCAACCGCCGACGTGGGTGCTGCGATCGAGCCGTCGGCGTTCACCGAG
GACGCCGACATCCGGGTAATCAGCCCCACCCGCACCGTCGACGGCGGCTGGGCTGGCGGCTACGGCACCAGCAAGTGGGC
CGGTGAGGTGCTGCTGCGCGAGGCCAACGACCTGTGCGCGCTGCCGGTCGCGGTGTTTCGCTGCGGGATGATCCTGGCCG
ACACCAGCTATGCCGGACAGCTCAACATGTCGGACTGGGTCACCCGGATGGTGTTGAGCTTGATGGCTACCGGCATCGCG
CCTCGTTCGTTCTACGAACCGGACTCCGAGGGCAATCGGCAACGCGCGCACTTCGACGGGCTGCCAGTCACCTTCGTTGC
CGAGGCGATCGCGGTGCTGGGCGCGCGGGTGGCCGGCTCATCGTTGGCGGGATTTGCGACCTATCACGTGATGAACCCGC
ACGACGACGGTATCGGGCTCGATGAGTATGTGGACTGGCTGATTGAGGCCGGCTACCCGATACGCCGCATCGATGACTTT
GCGGAGTGGTTGCAGCGGTTTGAGGCCAGCCTGGGCGCTCTGCCGGATCGGCAACGCCGGCACTCGGTGCTGCCGATGCT
GCTGGCGAGCAATTCCCAGCGATTGCAGCCGCTTAAGCCGACCAGGGGGTGCTCCGCGCCGACCGACCGATTCCGTGCCG
CGGTGCGAGCGGCGAAAGTCGGCTCCGACAAGGACAATCCAGACATCCCGCACGTGTCGGCGCCGACCATCATCAACTAC
GTCACCAACCTACAACTGCTCGGACTGCTGTAG

Upstream 100 bases:

>100_bases
TCTGGTGCCGCGGCTACGGTTCGGCGACATCGTGCGGGTGGGGTCAGCCGATGAGCACCTGCAGAGCACATAGTGTTCGG
GCATCCTGGGCAAGCCACTG

Downstream 100 bases:

>100_bases
TTGCTCGGCGATAAAGAGCGCAGCCATGGTCGGGGGAGATCATGTGGTCACTTTCGGGTCGGCATCGATTCTGCGAGCAG
AATATGTGGTTGATGGCCAC

Product: putative peptide synthetase

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

Alternate protein names: NA

Number of amino acids: Translated: 2410; Mature: 2410

Protein sequence:

>2410_residues
MRHTVHTDPNGYVTGLDVHTHHILLDGGATGTIEADLARYLTTDPAGETPSVGAGLAKLREAHRRETAKVEESRGRLSAV
VQRELADEAYHGGHGHSVSDAPGTAAKGVLHESATICGNAFDAILTLSEAQRVPLNVLVAAAAVAVDASLRQNTETLLVH
TVDNRFGDSDLNVATCLVNSVAQTVRFPPFASVSDVVRTLDRGYVKAVRRRWLREEHYRRMYLAINRTSHVEALTLNFIR
EPCAPGLRPFLSEVPIATDIGPVEGMTVASVLDEEQRTLNLAIWNRADLPACKTHPKVAERIAAALESMAAMWDRPIAMI
VNDWFGIGPDGTRCQGDWPARQPSTPAWFLDSARGVHQFLGRRRFVYPWVAWLVQRGAAPGDVLVFTDDDTDKTIDLLIA
CHLAGCGYSVCDTADEISVRTNAITEHGDGILVTVVDVAATQLAVVGHDELRKVVDERVTQVTHDALLATKTAYIMPTSG
TTGQPKLVRISHGSLAVFCDAISRAYGWGAHDTVLQCAPLTSDISVEEIFGGAACGARLVRSAAMKTGDLAALVDDLVAR
ETTIVDLPTAVWQLLCADGDAIDAIGRSRLRQIVIGGEAIRCSAVDKWLESAASQGISLLSSYGPTEATVVATFLPIVCD
QTTMDGALLRLGRPILPNTVFLAFGEVVIVGDLVADGYLGIDGDGFGTVTAADGSRRRAFATGDRVTVDAEGFPVFSGRK
DAVVKISGKRVDIAEVTRRIAEDPAVSDVAVELHSGSLGVWFKSQRTREGEQDAAAATRIRLVLVSLGVSSFFVVGVPNI
PRKPNGKIDSDNLPRLPQWSAAGLNTAETGQRAAGLSQIWSRQLGRAIGPDSSLLGEGIGSLDLIRILPETRRYLGWRLS
LLDLIGADTAANLADYAPTPDAPTGEDRFRPLVAAQRPAAIPLSFAQRRLWFLDQLQRPAPVYNMAVALRLRGYLDTEAL
GAAVADVVGRHESLRTVFPAVDGVPRQLVIEARRADLGCDIVDATAWPADRLQRAIEEAARHSFDLATEIPLRTWLFRIA
DDEHVLVAVAHHIAADGWSVAPLTADLSAAYASRCAGRAPDWAPLPVQYVDYTLWQREILGDLDDSDSPIAAQLAYWENA
LAGMPERLRLPTARPYPPVADQRGASLVVDWPASVQQQVRRIARQHNATSFMVVAAGLAVLLSKLSGSPDVAVGFPIAGR
SDPALDNLVGFFVNTLVLRVNLAGDPSFAELLGQVRARSLAAYENQDVPFEVLVDRLKPTRALTHHPLIQVMLAWQDNPV
GQLNLGDLQATPMPIDTRTARMDLVFSLAERFSEGSEPAGIGGAVEYRTDVFEAQAIDVLIERLRKVLVAVAAAPERTVS
SIDALDGTERARLDEWGNRAVLTAPAPTPVSIPQMLAAQVARIPEAEAVCCGDASMTYRELDEASNRLAHRLAGCGAGPG
ECVALLFERCAPAVVAMVAVLKTGAAYLPIDPANPPPRVAFMLGDAVPVAAVTTAGLRSRLAGHDLPIIDVVDALAAYPG
TPPPMPAAVNLAYILYTSGTTGEPKGVGITHRNVTRLFASLPARLSAAQVWSQCHSYGFDASAWEIWGALLGGGRLVIVP
ESVAASPNDFHGLLVAEHVSVLTQTPAAVAMLPTQGLESVALVVAGEACPAALVDRWAPGRVMLNAYGPTETTICAAISA
PLRPGSGMPPIGVPVSGAALFVLDSWLRPVPAGVAGELYIAGAGVGVGYWRRAGLTASRFVACPFGGSGARMYRTGDLVC
WRADGQLEFLGRTDDQVKIRGYRIELGEVATALAELAGVGQAVVIAREDRPGDKRLVGYATEIAPGAVDPAGLRAQLAQR
LPGYLVPAAVVVIDALPLTVNGKLDHRALPAPEYGDTNGYRAPAGPVEKTVAGIFARVLGLERVGVDDSFFELGGDSLAA
MRVIAAINTTLNADLPVRALLHASSTRGLSQLLGRDARPTSDPRLVSVHGDNPTEVHASDLTLDRFIDADTLATAVNLPG
PSPELRTVLLTGATGFLGRYLVLELLRRLDVDGRLICLVRAESDEDARRRLEKTFDSGDPELLRHFKELAADRLEVVAGD
KSEPDLGLDQPMWRRLAETVDLIVDSAAMVNAFPYHELFGPNVAGTAELIRIALTTKLKPFTYVSTADVGAAIEPSAFTE
DADIRVISPTRTVDGGWAGGYGTSKWAGEVLLREANDLCALPVAVFRCGMILADTSYAGQLNMSDWVTRMVLSLMATGIA
PRSFYEPDSEGNRQRAHFDGLPVTFVAEAIAVLGARVAGSSLAGFATYHVMNPHDDGIGLDEYVDWLIEAGYPIRRIDDF
AEWLQRFEASLGALPDRQRRHSVLPMLLASNSQRLQPLKPTRGCSAPTDRFRAAVRAAKVGSDKDNPDIPHVSAPTIINY
VTNLQLLGLL

Sequences:

>Translated_2410_residues
MRHTVHTDPNGYVTGLDVHTHHILLDGGATGTIEADLARYLTTDPAGETPSVGAGLAKLREAHRRETAKVEESRGRLSAV
VQRELADEAYHGGHGHSVSDAPGTAAKGVLHESATICGNAFDAILTLSEAQRVPLNVLVAAAAVAVDASLRQNTETLLVH
TVDNRFGDSDLNVATCLVNSVAQTVRFPPFASVSDVVRTLDRGYVKAVRRRWLREEHYRRMYLAINRTSHVEALTLNFIR
EPCAPGLRPFLSEVPIATDIGPVEGMTVASVLDEEQRTLNLAIWNRADLPACKTHPKVAERIAAALESMAAMWDRPIAMI
VNDWFGIGPDGTRCQGDWPARQPSTPAWFLDSARGVHQFLGRRRFVYPWVAWLVQRGAAPGDVLVFTDDDTDKTIDLLIA
CHLAGCGYSVCDTADEISVRTNAITEHGDGILVTVVDVAATQLAVVGHDELRKVVDERVTQVTHDALLATKTAYIMPTSG
TTGQPKLVRISHGSLAVFCDAISRAYGWGAHDTVLQCAPLTSDISVEEIFGGAACGARLVRSAAMKTGDLAALVDDLVAR
ETTIVDLPTAVWQLLCADGDAIDAIGRSRLRQIVIGGEAIRCSAVDKWLESAASQGISLLSSYGPTEATVVATFLPIVCD
QTTMDGALLRLGRPILPNTVFLAFGEVVIVGDLVADGYLGIDGDGFGTVTAADGSRRRAFATGDRVTVDAEGFPVFSGRK
DAVVKISGKRVDIAEVTRRIAEDPAVSDVAVELHSGSLGVWFKSQRTREGEQDAAAATRIRLVLVSLGVSSFFVVGVPNI
PRKPNGKIDSDNLPRLPQWSAAGLNTAETGQRAAGLSQIWSRQLGRAIGPDSSLLGEGIGSLDLIRILPETRRYLGWRLS
LLDLIGADTAANLADYAPTPDAPTGEDRFRPLVAAQRPAAIPLSFAQRRLWFLDQLQRPAPVYNMAVALRLRGYLDTEAL
GAAVADVVGRHESLRTVFPAVDGVPRQLVIEARRADLGCDIVDATAWPADRLQRAIEEAARHSFDLATEIPLRTWLFRIA
DDEHVLVAVAHHIAADGWSVAPLTADLSAAYASRCAGRAPDWAPLPVQYVDYTLWQREILGDLDDSDSPIAAQLAYWENA
LAGMPERLRLPTARPYPPVADQRGASLVVDWPASVQQQVRRIARQHNATSFMVVAAGLAVLLSKLSGSPDVAVGFPIAGR
SDPALDNLVGFFVNTLVLRVNLAGDPSFAELLGQVRARSLAAYENQDVPFEVLVDRLKPTRALTHHPLIQVMLAWQDNPV
GQLNLGDLQATPMPIDTRTARMDLVFSLAERFSEGSEPAGIGGAVEYRTDVFEAQAIDVLIERLRKVLVAVAAAPERTVS
SIDALDGTERARLDEWGNRAVLTAPAPTPVSIPQMLAAQVARIPEAEAVCCGDASMTYRELDEASNRLAHRLAGCGAGPG
ECVALLFERCAPAVVAMVAVLKTGAAYLPIDPANPPPRVAFMLGDAVPVAAVTTAGLRSRLAGHDLPIIDVVDALAAYPG
TPPPMPAAVNLAYILYTSGTTGEPKGVGITHRNVTRLFASLPARLSAAQVWSQCHSYGFDASAWEIWGALLGGGRLVIVP
ESVAASPNDFHGLLVAEHVSVLTQTPAAVAMLPTQGLESVALVVAGEACPAALVDRWAPGRVMLNAYGPTETTICAAISA
PLRPGSGMPPIGVPVSGAALFVLDSWLRPVPAGVAGELYIAGAGVGVGYWRRAGLTASRFVACPFGGSGARMYRTGDLVC
WRADGQLEFLGRTDDQVKIRGYRIELGEVATALAELAGVGQAVVIAREDRPGDKRLVGYATEIAPGAVDPAGLRAQLAQR
LPGYLVPAAVVVIDALPLTVNGKLDHRALPAPEYGDTNGYRAPAGPVEKTVAGIFARVLGLERVGVDDSFFELGGDSLAA
MRVIAAINTTLNADLPVRALLHASSTRGLSQLLGRDARPTSDPRLVSVHGDNPTEVHASDLTLDRFIDADTLATAVNLPG
PSPELRTVLLTGATGFLGRYLVLELLRRLDVDGRLICLVRAESDEDARRRLEKTFDSGDPELLRHFKELAADRLEVVAGD
KSEPDLGLDQPMWRRLAETVDLIVDSAAMVNAFPYHELFGPNVAGTAELIRIALTTKLKPFTYVSTADVGAAIEPSAFTE
DADIRVISPTRTVDGGWAGGYGTSKWAGEVLLREANDLCALPVAVFRCGMILADTSYAGQLNMSDWVTRMVLSLMATGIA
PRSFYEPDSEGNRQRAHFDGLPVTFVAEAIAVLGARVAGSSLAGFATYHVMNPHDDGIGLDEYVDWLIEAGYPIRRIDDF
AEWLQRFEASLGALPDRQRRHSVLPMLLASNSQRLQPLKPTRGCSAPTDRFRAAVRAAKVGSDKDNPDIPHVSAPTIINY
VTNLQLLGLL
>Mature_2410_residues
MRHTVHTDPNGYVTGLDVHTHHILLDGGATGTIEADLARYLTTDPAGETPSVGAGLAKLREAHRRETAKVEESRGRLSAV
VQRELADEAYHGGHGHSVSDAPGTAAKGVLHESATICGNAFDAILTLSEAQRVPLNVLVAAAAVAVDASLRQNTETLLVH
TVDNRFGDSDLNVATCLVNSVAQTVRFPPFASVSDVVRTLDRGYVKAVRRRWLREEHYRRMYLAINRTSHVEALTLNFIR
EPCAPGLRPFLSEVPIATDIGPVEGMTVASVLDEEQRTLNLAIWNRADLPACKTHPKVAERIAAALESMAAMWDRPIAMI
VNDWFGIGPDGTRCQGDWPARQPSTPAWFLDSARGVHQFLGRRRFVYPWVAWLVQRGAAPGDVLVFTDDDTDKTIDLLIA
CHLAGCGYSVCDTADEISVRTNAITEHGDGILVTVVDVAATQLAVVGHDELRKVVDERVTQVTHDALLATKTAYIMPTSG
TTGQPKLVRISHGSLAVFCDAISRAYGWGAHDTVLQCAPLTSDISVEEIFGGAACGARLVRSAAMKTGDLAALVDDLVAR
ETTIVDLPTAVWQLLCADGDAIDAIGRSRLRQIVIGGEAIRCSAVDKWLESAASQGISLLSSYGPTEATVVATFLPIVCD
QTTMDGALLRLGRPILPNTVFLAFGEVVIVGDLVADGYLGIDGDGFGTVTAADGSRRRAFATGDRVTVDAEGFPVFSGRK
DAVVKISGKRVDIAEVTRRIAEDPAVSDVAVELHSGSLGVWFKSQRTREGEQDAAAATRIRLVLVSLGVSSFFVVGVPNI
PRKPNGKIDSDNLPRLPQWSAAGLNTAETGQRAAGLSQIWSRQLGRAIGPDSSLLGEGIGSLDLIRILPETRRYLGWRLS
LLDLIGADTAANLADYAPTPDAPTGEDRFRPLVAAQRPAAIPLSFAQRRLWFLDQLQRPAPVYNMAVALRLRGYLDTEAL
GAAVADVVGRHESLRTVFPAVDGVPRQLVIEARRADLGCDIVDATAWPADRLQRAIEEAARHSFDLATEIPLRTWLFRIA
DDEHVLVAVAHHIAADGWSVAPLTADLSAAYASRCAGRAPDWAPLPVQYVDYTLWQREILGDLDDSDSPIAAQLAYWENA
LAGMPERLRLPTARPYPPVADQRGASLVVDWPASVQQQVRRIARQHNATSFMVVAAGLAVLLSKLSGSPDVAVGFPIAGR
SDPALDNLVGFFVNTLVLRVNLAGDPSFAELLGQVRARSLAAYENQDVPFEVLVDRLKPTRALTHHPLIQVMLAWQDNPV
GQLNLGDLQATPMPIDTRTARMDLVFSLAERFSEGSEPAGIGGAVEYRTDVFEAQAIDVLIERLRKVLVAVAAAPERTVS
SIDALDGTERARLDEWGNRAVLTAPAPTPVSIPQMLAAQVARIPEAEAVCCGDASMTYRELDEASNRLAHRLAGCGAGPG
ECVALLFERCAPAVVAMVAVLKTGAAYLPIDPANPPPRVAFMLGDAVPVAAVTTAGLRSRLAGHDLPIIDVVDALAAYPG
TPPPMPAAVNLAYILYTSGTTGEPKGVGITHRNVTRLFASLPARLSAAQVWSQCHSYGFDASAWEIWGALLGGGRLVIVP
ESVAASPNDFHGLLVAEHVSVLTQTPAAVAMLPTQGLESVALVVAGEACPAALVDRWAPGRVMLNAYGPTETTICAAISA
PLRPGSGMPPIGVPVSGAALFVLDSWLRPVPAGVAGELYIAGAGVGVGYWRRAGLTASRFVACPFGGSGARMYRTGDLVC
WRADGQLEFLGRTDDQVKIRGYRIELGEVATALAELAGVGQAVVIAREDRPGDKRLVGYATEIAPGAVDPAGLRAQLAQR
LPGYLVPAAVVVIDALPLTVNGKLDHRALPAPEYGDTNGYRAPAGPVEKTVAGIFARVLGLERVGVDDSFFELGGDSLAA
MRVIAAINTTLNADLPVRALLHASSTRGLSQLLGRDARPTSDPRLVSVHGDNPTEVHASDLTLDRFIDADTLATAVNLPG
PSPELRTVLLTGATGFLGRYLVLELLRRLDVDGRLICLVRAESDEDARRRLEKTFDSGDPELLRHFKELAADRLEVVAGD
KSEPDLGLDQPMWRRLAETVDLIVDSAAMVNAFPYHELFGPNVAGTAELIRIALTTKLKPFTYVSTADVGAAIEPSAFTE
DADIRVISPTRTVDGGWAGGYGTSKWAGEVLLREANDLCALPVAVFRCGMILADTSYAGQLNMSDWVTRMVLSLMATGIA
PRSFYEPDSEGNRQRAHFDGLPVTFVAEAIAVLGARVAGSSLAGFATYHVMNPHDDGIGLDEYVDWLIEAGYPIRRIDDF
AEWLQRFEASLGALPDRQRRHSVLPMLLASNSQRLQPLKPTRGCSAPTDRFRAAVRAAKVGSDKDNPDIPHVSAPTIINY
VTNLQLLGLL

Specific function: Specifically adenylates threonine and glycine, and loads them onto their corresponding peptidyl carrier domains [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 1 acyl carrier domain [H]

Homologues:

Organism=Homo sapiens, GI45580730, Length=439, Percent_Identity=27.7904328018223, Blast_Score=114, Evalue=9e-25,
Organism=Homo sapiens, GI28416953, Length=553, Percent_Identity=25.1356238698011, Blast_Score=78, Evalue=1e-13,
Organism=Homo sapiens, GI38505220, Length=518, Percent_Identity=22.5868725868726, Blast_Score=74, Evalue=1e-12,
Organism=Escherichia coli, GI1786801, Length=1106, Percent_Identity=28.4810126582279, Blast_Score=298, Evalue=3e-81,
Organism=Escherichia coli, GI1788107, Length=569, Percent_Identity=24.4288224956063, Blast_Score=92, Evalue=6e-19,
Organism=Caenorhabditis elegans, GI17556356, Length=594, Percent_Identity=27.7777777777778, Blast_Score=161, Evalue=3e-39,
Organism=Caenorhabditis elegans, GI17560308, Length=356, Percent_Identity=25.2808988764045, Blast_Score=81, Evalue=6e-15,
Organism=Saccharomyces cerevisiae, GI6319591, Length=1299, Percent_Identity=24.0184757505774, Blast_Score=253, Evalue=4e-67,
Organism=Drosophila melanogaster, GI24648676, Length=576, Percent_Identity=28.8194444444444, Blast_Score=174, Evalue=6e-43,
Organism=Drosophila melanogaster, GI281361942, Length=233, Percent_Identity=29.1845493562232, Blast_Score=78, Evalue=6e-14,
Organism=Drosophila melanogaster, GI28572029, Length=245, Percent_Identity=26.1224489795918, Blast_Score=71, Evalue=8e-12,
Organism=Drosophila melanogaster, GI19920962, Length=246, Percent_Identity=29.2682926829268, Blast_Score=71, Evalue=8e-12,
Organism=Drosophila melanogaster, GI24647494, Length=231, Percent_Identity=30.3030303030303, Blast_Score=70, Evalue=2e-11,

Paralogues:

None

Copy number: NA

Swissprot (AC and ID): NA

Other databases:

- InterPro:   IPR010071
- InterPro:   IPR009081
- InterPro:   IPR020845
- InterPro:   IPR000873
- InterPro:   IPR001242
- InterPro:   IPR006163
- InterPro:   IPR020806
- InterPro:   IPR001031 [H]

Pfam domain/function: PF00501 AMP-binding; PF00668 Condensation; PF00550 PP-binding; PF00975 Thioesterase [H]

EC number: 2.7.7.- [C]

Molecular weight: Translated: 257871; Mature: 257871

Theoretical pI: Translated: 5.31; Mature: 5.31

Prosite motif: PS00012 PHOSPHOPANTETHEINE ; PS50075 ACP_DOMAIN ; PS00455 AMP_BINDING ; PS00300 SRP54

Important sites: NA

Signals:

None

Transmembrane regions:

None

Cys/Met content:

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

Secondary structure:

>Translated Secondary Structure
MRHTVHTDPNGYVTGLDVHTHHILLDGGATGTIEADLARYLTTDPAGETPSVGAGLAKLR
CCCCEECCCCCEEEEEEEEEEEEEEECCCCCCCHHHHHHHHCCCCCCCCCCCHHHHHHHH
EAHRRETAKVEESRGRLSAVVQRELADEAYHGGHGHSVSDAPGTAAKGVLHESATICGNA
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCHHHHHHHHHHHHHCCH
FDAILTLSEAQRVPLNVLVAAAAVAVDASLRQNTETLLVHTVDNRFGDSDLNVATCLVNS
HHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHCCCCEEEEEEECCCCCCCCCHHHHHHHHH
VAQTVRFPPFASVSDVVRTLDRGYVKAVRRRWLREEHYRRMYLAINRTSHVEALTLNFIR
HHHHHCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCEEEEEEECCCCHHHHHHHHHH
EPCAPGLRPFLSEVPIATDIGPVEGMTVASVLDEEQRTLNLAIWNRADLPACKTHPKVAE
HCCCCCHHHHHHHCCCCCCCCCCCCCHHHHHHCCHHHEEEEEEECCCCCCCCCCCHHHHH
RIAAALESMAAMWDRPIAMIVNDWFGIGPDGTRCQGDWPARQPSTPAWFLDSARGVHQFL
HHHHHHHHHHHHHCCCCEEEHHHCCCCCCCCCCCCCCCCCCCCCCCHHHHHCHHHHHHHH
GRRRFVYPWVAWLVQRGAAPGDVLVFTDDDTDKTIDLLIACHLAGCGYSVCDTADEISVR
CCCCCHHHHHHHHHHCCCCCCCEEEEECCCCCHHHHHHHHHHHCCCCCHHHCCCHHCEEE
TNAITEHGDGILVTVVDVAATQLAVVGHDELRKVVDERVTQVTHDALLATKTAYIMPTSG
HHHEEECCCEEEEEEEHHHHHHEEEECHHHHHHHHHHHHHHHHHHHHHHCCEEEEEECCC
TTGQPKLVRISHGSLAVFCDAISRAYGWGAHDTVLQCAPLTSDISVEEIFGGAACGARLV
CCCCCEEEEEECCCHHHHHHHHHHHHCCCCCCCCEEECCCCCCCCHHHHHCCHHHHHHHH
RSAAMKTGDLAALVDDLVARETTIVDLPTAVWQLLCADGDAIDAIGRSRLRQIVIGGEAI
HHHHHCCCHHHHHHHHHHHCCCEEEECHHHHHHHHHCCCCHHHHHHHHHHHEEEECCCEE
RCSAVDKWLESAASQGISLLSSYGPTEATVVATFLPIVCDQTTMDGALLRLGRPILPNTV
EHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHCCCCCCCHHHHHHCCCCCCCHH
FLAFGEVVIVGDLVADGYLGIDGDGFGTVTAADGSRRRAFATGDRVTVDAEGFPVFSGRK
HEECCCEEEEEEHHHCCEEEECCCCCEEEEECCCCCCCEEECCCEEEEECCCCEEECCCC
DAVVKISGKRVDIAEVTRRIAEDPAVSDVAVELHSGSLGVWFKSQRTREGEQDAAAATRI
CEEEEECCCEECHHHHHHHHHCCCCCCEEEEEEECCCEEEEEECCCCCCCCHHHHHHHHH
RLVLVSLGVSSFFVVGVPNIPRKPNGKIDSDNLPRLPQWSAAGLNTAETGQRAAGLSQIW
HHHHHHHCCCCEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHCCHHHHHHHHHH
SRQLGRAIGPDSSLLGEGIGSLDLIRILPETRRYLGWRLSLLDLIGADTAANLADYAPTP
HHHHHHHCCCCHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHHHCCCCC
DAPTGEDRFRPLVAAQRPAAIPLSFAQRRLWFLDQLQRPAPVYNMAVALRLRGYLDTEAL
CCCCCHHHHCHHHHCCCCCCCCHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHCCCCHHHH
GAAVADVVGRHESLRTVFPAVDGVPRQLVIEARRADLGCDIVDATAWPADRLQRAIEEAA
HHHHHHHHHCHHHHHHHHHHCCCCCHHHHHHHHHCCCCCCEEECCCCCHHHHHHHHHHHH
RHSFDLATEIPLRTWLFRIADDEHVLVAVAHHIAADGWSVAPLTADLSAAYASRCAGRAP
HCCCCCHHCCCHHHHHHEECCCCEEEEHHHHHHHCCCCEECCCHHHHHHHHHHHHCCCCC
DWAPLPVQYVDYTLWQREILGDLDDSDSPIAAQLAYWENALAGMPERLRLPTARPYPPVA
CCCCCCHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHCCCHHHCCCCCCCCCCCC
DQRGASLVVDWPASVQQQVRRIARQHNATSFMVVAAGLAVLLSKLSGSPDVAVGFPIAGR
CCCCCEEEEECCHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHCCCCCEEEECCCCCC
SDPALDNLVGFFVNTLVLRVNLAGDPSFAELLGQVRARSLAAYENQDVPFEVLVDRLKPT
CCCHHHHHHHHHHHHHHEEEECCCCCHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHCHH
RALTHHPLIQVMLAWQDNPVGQLNLGDLQATPMPIDTRTARMDLVFSLAERFSEGSEPAG
HHHHHCHHHHEEEEECCCCCCEEECCCCCCCCCCCCCHHHHHHHHHHHHHHHCCCCCCCC
IGGAVEYRTDVFEAQAIDVLIERLRKVLVAVAAAPERTVSSIDALDGTERARLDEWGNRA
CCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHHHHHCCCCHHHHHHHCCCEE
VLTAPAPTPVSIPQMLAAQVARIPEAEAVCCGDASMTYRELDEASNRLAHRLAGCGAGPG
EEECCCCCCCCHHHHHHHHHHHCCCCCEEEECCCCHHHHHHHHHHHHHHHHHHCCCCCHH
ECVALLFERCAPAVVAMVAVLKTGAAYLPIDPANPPPRVAFMLGDAVPVAAVTTAGLRSR
HHHHHHHHHHHHHHHHHHHHHHCCCEEEECCCCCCCCCEEEEECCCCCHHHHHHHHHHHH
LAGHDLPIIDVVDALAAYPGTPPPMPAAVNLAYILYTSGTTGEPKGVGITHRNVTRLFAS
HCCCCCCHHHHHHHHHHCCCCCCCCCCCEEEEEEEEECCCCCCCCCCCCCHHHHHHHHHH
LPARLSAAQVWSQCHSYGFDASAWEIWGALLGGGRLVIVPESVAASPNDFHGLLVAEHVS
HHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHCCCEEEEEECHHCCCCCCCHHHHHHHHHH
VLTQTPAAVAMLPTQGLESVALVVAGEACPAALVDRWAPGRVMLNAYGPTETTICAAISA
HHHCCCCCEEECCCCCCCCEEEEEECCCCCHHHHHCCCCCEEEEEECCCCCHHHHHHHCC
PLRPGSGMPPIGVPVSGAALFVLDSWLRPVPAGVAGELYIAGAGVGVGYWRRAGLTASRF
CCCCCCCCCCCCCCCCCHHHHHHHHHHCCCCCCCCCEEEEEECCCCHHHHHHCCCCHHHE
VACPFGGSGARMYRTGDLVCWRADGQLEFLGRTDDQVKIRGYRIELGEVATALAELAGVG
EECCCCCCCCEEEEECCEEEEECCCCEEEECCCCCEEEEEEEEEEHHHHHHHHHHHHCCC
QAVVIAREDRPGDKRLVGYATEIAPGAVDPAGLRAQLAQRLPGYLVPAAVVVIDALPLTV
CEEEEEECCCCCCCEEEEEEHHCCCCCCCCHHHHHHHHHHCCCHHHHHHHHHHHCCCEEE
NGKLDHRALPAPEYGDTNGYRAPAGPVEKTVAGIFARVLGLERVGVDDSFFELGGDSLAA
CCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHCCCCCHHHHCCCCHHHH
MRVIAAINTTLNADLPVRALLHASSTRGLSQLLGRDARPTSDPRLVSVHGDNPTEVHASD
HHHHHHHHHCCCCCCCHHHHHHHHCCCCHHHHHCCCCCCCCCCEEEEEECCCCCEEEECC
LTLDRFIDADTLATAVNLPGPSPELRTVLLTGATGFLGRYLVLELLRRLDVDGRLICLVR
CHHHHHCCHHHHHHEEECCCCCCCCEEEEEECCHHHHHHHHHHHHHHHCCCCCCEEEEEE
AESDEDARRRLEKTFDSGDPELLRHFKELAADRLEVVAGDKSEPDLGLDQPMWRRLAETV
CCCCHHHHHHHHHHHCCCCHHHHHHHHHHHHHHEEEEECCCCCCCCCCCCHHHHHHHHHH
DLIVDSAAMVNAFPYHELFGPNVAGTAELIRIALTTKLKPFTYVSTADVGAAIEPSAFTE
HHHHCCHHHHHCCCCHHHCCCCCCCHHHHHHHHHHHCCCCEEEEECCCCCCCCCCCCCCC
DADIRVISPTRTVDGGWAGGYGTSKWAGEVLLREANDLCALPVAVFRCGMILADTSYAGQ
CCCEEEECCCCCCCCCCCCCCCCCHHHHHHHHHHCCCHHHHHHHHHHCCHHEECCCCCCC
LNMSDWVTRMVLSLMATGIAPRSFYEPDSEGNRQRAHFDGLPVTFVAEAIAVLGARVAGS
CCHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHCCC
SLAGFATYHVMNPHDDGIGLDEYVDWLIEAGYPIRRIDDFAEWLQRFEASLGALPDRQRR
CCCCEEEEEEECCCCCCCCHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHCCCCCHHHH
HSVLPMLLASNSQRLQPLKPTRGCSAPTDRFRAAVRAAKVGSDKDNPDIPHVSAPTIINY
HHHHHHHHCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHCCCCCCCCCCCCCCCHHHHHH
VTNLQLLGLL
HHHHHHCCCC
>Mature Secondary Structure
MRHTVHTDPNGYVTGLDVHTHHILLDGGATGTIEADLARYLTTDPAGETPSVGAGLAKLR
CCCCEECCCCCEEEEEEEEEEEEEEECCCCCCCHHHHHHHHCCCCCCCCCCCHHHHHHHH
EAHRRETAKVEESRGRLSAVVQRELADEAYHGGHGHSVSDAPGTAAKGVLHESATICGNA
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCHHHHHHHHHHHHHCCH
FDAILTLSEAQRVPLNVLVAAAAVAVDASLRQNTETLLVHTVDNRFGDSDLNVATCLVNS
HHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHCCCCEEEEEEECCCCCCCCCHHHHHHHHH
VAQTVRFPPFASVSDVVRTLDRGYVKAVRRRWLREEHYRRMYLAINRTSHVEALTLNFIR
HHHHHCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCEEEEEEECCCCHHHHHHHHHH
EPCAPGLRPFLSEVPIATDIGPVEGMTVASVLDEEQRTLNLAIWNRADLPACKTHPKVAE
HCCCCCHHHHHHHCCCCCCCCCCCCCHHHHHHCCHHHEEEEEEECCCCCCCCCCCHHHHH
RIAAALESMAAMWDRPIAMIVNDWFGIGPDGTRCQGDWPARQPSTPAWFLDSARGVHQFL
HHHHHHHHHHHHHCCCCEEEHHHCCCCCCCCCCCCCCCCCCCCCCCHHHHHCHHHHHHHH
GRRRFVYPWVAWLVQRGAAPGDVLVFTDDDTDKTIDLLIACHLAGCGYSVCDTADEISVR
CCCCCHHHHHHHHHHCCCCCCCEEEEECCCCCHHHHHHHHHHHCCCCCHHHCCCHHCEEE
TNAITEHGDGILVTVVDVAATQLAVVGHDELRKVVDERVTQVTHDALLATKTAYIMPTSG
HHHEEECCCEEEEEEEHHHHHHEEEECHHHHHHHHHHHHHHHHHHHHHHCCEEEEEECCC
TTGQPKLVRISHGSLAVFCDAISRAYGWGAHDTVLQCAPLTSDISVEEIFGGAACGARLV
CCCCCEEEEEECCCHHHHHHHHHHHHCCCCCCCCEEECCCCCCCCHHHHHCCHHHHHHHH
RSAAMKTGDLAALVDDLVARETTIVDLPTAVWQLLCADGDAIDAIGRSRLRQIVIGGEAI
HHHHHCCCHHHHHHHHHHHCCCEEEECHHHHHHHHHCCCCHHHHHHHHHHHEEEECCCEE
RCSAVDKWLESAASQGISLLSSYGPTEATVVATFLPIVCDQTTMDGALLRLGRPILPNTV
EHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHCCCCCCCHHHHHHCCCCCCCHH
FLAFGEVVIVGDLVADGYLGIDGDGFGTVTAADGSRRRAFATGDRVTVDAEGFPVFSGRK
HEECCCEEEEEEHHHCCEEEECCCCCEEEEECCCCCCCEEECCCEEEEECCCCEEECCCC
DAVVKISGKRVDIAEVTRRIAEDPAVSDVAVELHSGSLGVWFKSQRTREGEQDAAAATRI
CEEEEECCCEECHHHHHHHHHCCCCCCEEEEEEECCCEEEEEECCCCCCCCHHHHHHHHH
RLVLVSLGVSSFFVVGVPNIPRKPNGKIDSDNLPRLPQWSAAGLNTAETGQRAAGLSQIW
HHHHHHHCCCCEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHCCHHHHHHHHHH
SRQLGRAIGPDSSLLGEGIGSLDLIRILPETRRYLGWRLSLLDLIGADTAANLADYAPTP
HHHHHHHCCCCHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHHHCCCCC
DAPTGEDRFRPLVAAQRPAAIPLSFAQRRLWFLDQLQRPAPVYNMAVALRLRGYLDTEAL
CCCCCHHHHCHHHHCCCCCCCCHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHCCCCHHHH
GAAVADVVGRHESLRTVFPAVDGVPRQLVIEARRADLGCDIVDATAWPADRLQRAIEEAA
HHHHHHHHHCHHHHHHHHHHCCCCCHHHHHHHHHCCCCCCEEECCCCCHHHHHHHHHHHH
RHSFDLATEIPLRTWLFRIADDEHVLVAVAHHIAADGWSVAPLTADLSAAYASRCAGRAP
HCCCCCHHCCCHHHHHHEECCCCEEEEHHHHHHHCCCCEECCCHHHHHHHHHHHHCCCCC
DWAPLPVQYVDYTLWQREILGDLDDSDSPIAAQLAYWENALAGMPERLRLPTARPYPPVA
CCCCCCHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHCCCHHHCCCCCCCCCCCC
DQRGASLVVDWPASVQQQVRRIARQHNATSFMVVAAGLAVLLSKLSGSPDVAVGFPIAGR
CCCCCEEEEECCHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHCCCCCEEEECCCCCC
SDPALDNLVGFFVNTLVLRVNLAGDPSFAELLGQVRARSLAAYENQDVPFEVLVDRLKPT
CCCHHHHHHHHHHHHHHEEEECCCCCHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHCHH
RALTHHPLIQVMLAWQDNPVGQLNLGDLQATPMPIDTRTARMDLVFSLAERFSEGSEPAG
HHHHHCHHHHEEEEECCCCCCEEECCCCCCCCCCCCCHHHHHHHHHHHHHHHCCCCCCCC
IGGAVEYRTDVFEAQAIDVLIERLRKVLVAVAAAPERTVSSIDALDGTERARLDEWGNRA
CCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHHHHHCCCCHHHHHHHCCCEE
VLTAPAPTPVSIPQMLAAQVARIPEAEAVCCGDASMTYRELDEASNRLAHRLAGCGAGPG
EEECCCCCCCCHHHHHHHHHHHCCCCCEEEECCCCHHHHHHHHHHHHHHHHHHCCCCCHH
ECVALLFERCAPAVVAMVAVLKTGAAYLPIDPANPPPRVAFMLGDAVPVAAVTTAGLRSR
HHHHHHHHHHHHHHHHHHHHHHCCCEEEECCCCCCCCCEEEEECCCCCHHHHHHHHHHHH
LAGHDLPIIDVVDALAAYPGTPPPMPAAVNLAYILYTSGTTGEPKGVGITHRNVTRLFAS
HCCCCCCHHHHHHHHHHCCCCCCCCCCCEEEEEEEEECCCCCCCCCCCCCHHHHHHHHHH
LPARLSAAQVWSQCHSYGFDASAWEIWGALLGGGRLVIVPESVAASPNDFHGLLVAEHVS
HHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHCCCEEEEEECHHCCCCCCCHHHHHHHHHH
VLTQTPAAVAMLPTQGLESVALVVAGEACPAALVDRWAPGRVMLNAYGPTETTICAAISA
HHHCCCCCEEECCCCCCCCEEEEEECCCCCHHHHHCCCCCEEEEEECCCCCHHHHHHHCC
PLRPGSGMPPIGVPVSGAALFVLDSWLRPVPAGVAGELYIAGAGVGVGYWRRAGLTASRF
CCCCCCCCCCCCCCCCCHHHHHHHHHHCCCCCCCCCEEEEEECCCCHHHHHHCCCCHHHE
VACPFGGSGARMYRTGDLVCWRADGQLEFLGRTDDQVKIRGYRIELGEVATALAELAGVG
EECCCCCCCCEEEEECCEEEEECCCCEEEECCCCCEEEEEEEEEEHHHHHHHHHHHHCCC
QAVVIAREDRPGDKRLVGYATEIAPGAVDPAGLRAQLAQRLPGYLVPAAVVVIDALPLTV
CEEEEEECCCCCCCEEEEEEHHCCCCCCCCHHHHHHHHHHCCCHHHHHHHHHHHCCCEEE
NGKLDHRALPAPEYGDTNGYRAPAGPVEKTVAGIFARVLGLERVGVDDSFFELGGDSLAA
CCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHCCCCCHHHHCCCCHHHH
MRVIAAINTTLNADLPVRALLHASSTRGLSQLLGRDARPTSDPRLVSVHGDNPTEVHASD
HHHHHHHHHCCCCCCCHHHHHHHHCCCCHHHHHCCCCCCCCCCEEEEEECCCCCEEEECC
LTLDRFIDADTLATAVNLPGPSPELRTVLLTGATGFLGRYLVLELLRRLDVDGRLICLVR
CHHHHHCCHHHHHHEEECCCCCCCCEEEEEECCHHHHHHHHHHHHHHHCCCCCCEEEEEE
AESDEDARRRLEKTFDSGDPELLRHFKELAADRLEVVAGDKSEPDLGLDQPMWRRLAETV
CCCCHHHHHHHHHHHCCCCHHHHHHHHHHHHHHEEEEECCCCCCCCCCCCHHHHHHHHHH
DLIVDSAAMVNAFPYHELFGPNVAGTAELIRIALTTKLKPFTYVSTADVGAAIEPSAFTE
HHHHCCHHHHHCCCCHHHCCCCCCCHHHHHHHHHHHCCCCEEEEECCCCCCCCCCCCCCC
DADIRVISPTRTVDGGWAGGYGTSKWAGEVLLREANDLCALPVAVFRCGMILADTSYAGQ
CCCEEEECCCCCCCCCCCCCCCCCHHHHHHHHHHCCCHHHHHHHHHHCCHHEECCCCCCC
LNMSDWVTRMVLSLMATGIAPRSFYEPDSEGNRQRAHFDGLPVTFVAEAIAVLGARVAGS
CCHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHCCC
SLAGFATYHVMNPHDDGIGLDEYVDWLIEAGYPIRRIDDFAEWLQRFEASLGALPDRQRR
CCCCEEEEEEECCCCCCCCHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHCCCCCHHHH
HSVLPMLLASNSQRLQPLKPTRGCSAPTDRFRAAVRAAKVGSDKDNPDIPHVSAPTIINY
HHHHHHHHCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHCCCCCCCCCCCCCCCHHHHHH
VTNLQLLGLL
HHHHHHCCCC

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: 11112781; 9384377; 10568751; 8550523 [H]