The gene/protein map for NC_003143 is currently unavailable.
Definition Yersinia pestis CO92 chromosome, complete genome.
Accession NC_003143
Length 4,653,728

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The map label for this gene is irp2 [H]

Identifier: 218927957

GI number: 218927957

Start: 842803

End: 848622

Strand: Reverse

Name: irp2 [H]

Synonym: YPO0776

Alternate gene names: 218927957

Gene position: 848622-842803 (Counterclockwise)

Preceding gene: 218927958

Following gene: 218927956

Centisome position: 18.24

GC content: 49.26

Gene sequence:

>5820_bases
ATGAATATTAATCTAGATTCATCTTCAGCAACACAGGCCACCGATCTACTCGTGAACCTTGAACAACAGGAGGTTCGTTT
CTGGTTAGAGGGTGAAAGGATCAAATTTCGTGCGCCAGAAGGGGTCATGACGGGGGCGGTGATGGCGTCCTTAAAAGCGC
TGAAACCCCAGTTGGTGGCAATTTTAGCCGTGAGGGAGCAGCAAGAAACCCTGCCTATCGATACAGAAAACCGTTTTGTG
GCTTTTCCGCTTAGCCATGTACAGGCTGCTTATTTTGTTGGGCGGCAGAGCGTGTTTGAATATGGCGGGGTTGGGTGTCA
TGGCTATTTTGAGATCCTCGCACCTTGTTGGGATAAGGCTAAGCTGGAATGCATCTGGGAACAGATGATTATTCGCCATG
ATATGTTGCGAGCCATTATCACGCCAAATGGTGAGCAGCGTATCCTGCCTTCTGTCGCGCCTTTCGTGATTGAGCAGGTT
GATGTTTCATCAGAAACCGTGCGTCAGGCTATGTCTCATCGGGTTTATCAAACCGATAAATGGCCATTGTTTGATCTCAA
AATCAGTCATCAGAACGGTAAAGATTGTTTGCATTTCAGTATTGATTTGCTGATTGCTGATTTCCTTAGCGTGCAGATTT
TGCTGGCGGAATTATTCAAGGGTTATCTCGGGCAAACTTTCCCCGCCGCGCCACTGACTGCGAGTTTCCGCGATGTGATT
TGCTATGAACGCCAGCAACAGAGTGGGCGTGCCTATGGTGATGCGCGCCAATATTGGTTTTCTCGACTCCCTACGTTACC
GGCATGTCCACAATTACCGACATGTGTACAGTTACCGACAGGTTCGCCATCACCGGCCATGCAAACAAACGCGTCAGAAA
TACCGCGATTTGTCCGTTATCGCCATCAACTCGCTCCTTCATGTTGGCGGCGCTTGCAGCAAGGTTGCCAGCAACAAGGT
GTTTCACCGTCAGCGTTTTTACTCACTGTTTTTAGTGAAGTGATTGGCCGATGGTCGGAGAACCGCCATTTTACCTTGAA
TCTCACGGTAATGAATCGTCCCAATATTCATAAAGATATCGACAAATTGGTGGGTGATTTTACCTCAGTCAGCTTATTGG
AAGTCGATTTACGCTCACCCAAGACGGTGTATGAGCGAGTTAAACAGATCCAGAAGCAGCTTTGGCAAGATCTGGAACAC
CGAACATTTTCTGGCATTGAAGTTATGCGTGAATGGGGGCGGCAACAAGGCGTGGGGCACGCCAGAATGCCCATCGTTTT
CACCAGTGCTTTAGTCGGAGAGGGCAAAAATCAGGTACAAGAAGCGATCAGCGAGACTCAACTGGATCTGGTTTTCGACT
ATGGTATTAGCCAAACGCCGCAGGTCTGGATTGATTGTCAAATCATGGTGTTACAAGGGAGGTTACAGCTAAATTGGGAT
GTGATGGCCGATGTTTTCCCCAAGGGCGTCGTCGCCGCCATGTTTTCTACGTTTATTGACAGTGTTGAGCGTATTGACAG
TGTTGAGTGTATTGACAGTATTGAGTGTATTGATCGTGTTAAGTGCCTCTGTATGGAGGAGGTCGGCACGGGAGAGGCAC
TTTGTGACTCGCCCTTGTTTTGGCATTCAGCATTATCGTTGCCCTTGCCCGAGAGCCAACAGCAACGGCGCAAGCAGGTC
AATGCTACGGAAAAAACACTGACACCCCGTTGCCTTCATGATGGGATATTAGCCCGCGCAGCACAGCAACCACAGGCCAT
TGCGCTAGTGGATCCACAACACTGCCTTACTTACGCGGCCTTAATCACCCGTGCGCAGGCGTTGGCCGCTAAACTTAATA
GTCACCAACGCTATGCGGTATTGATGGAAAAACGCCATGAGCAAGTGGTGGCCGTGTTGGGGATTTTCATCGCGGGAAGT
GCCTATGTGCCGGTGGACATCCACCAACCGCCCGCAAGGATTTTAACAATACTGTCCGATGCGGCGGTCAGTGGGGTGGT
GACGGCATCGCCACAAGCCTGTTTGGCTGATGCCCATTTTAGGGAGATCAATCTGTCGCTATTAGCACAGATACCCGATG
CCATTGAAGCAAAAATACTGCCCTTGCCTCATGATCTGGCTTATGTCATTTACACCTCTGGGAGTACAGGCCAACCGAAA
GGCGTGATGATCAGCCATGATGCGGCCTATAACACCCTTGCCGATATGCAACAGAGGATGGCCCTCACCCCTGATGATCG
CGTGCTGGCATTGGCGCGCTTAAGTTTTGATCTATCCGTTTTTGATATTTTTGGTGTGTTGGGCGCGGGAGGGGCATTGA
TTTTCCCTGACGAGGGCGATCTACAGAATCCGGCTCGTTGGGCGCATGACATTGCCCAGCACCAGATAACCCTGTGGAAC
TCGGTTCCTGCACAAATGAAGATGTTAACGGACTATCTGCGGGCCGAGCAGATAACGCTGCCATCACTGCGTTATATCTT
GCTTTCCGGGGATTGGATCCCCGTTAACTTACCTCCAGCGATCGCCCAGATTGCGCCACATTGTACTCAATTGGCATTGG
GCGGTGCGACCGAAGCGGCGATTTGGTCGAACTACTGGCGGATAGATCCGCAAATAACCTACCCCGTCAGTATTCCTTAT
GGTGTTCCGCTAACCAATCAACAATTTAGGGTAGTAAACCCTTGGGGAGAGGATTGCCCGGATTGGGGGGCGGGGGAGCT
GTTGATTGGGGGCCGAGGGGTTGCTCAAGGCTATTGGCAGGATGAGGCTAAAACACAAGCGCATTTCTTCATTGATACGC
AAGGTTTGCGTTGGTATCGAACCGGAGATTTAGGGCGTTATACCTCAGAAGGTGTCATTGAATTTTTAGGGCGTCGTGAC
CACCAAATCAAAGTGCGTGGCTACCGTGTTGAGACGGGCGAAATTGAAGCACAGTTATTGAAATTACCTGAGGTGGCGCA
GGCTGTCGTCATGCAGACCACACAAGCTATACAAACCGAACAAGCCGAACAAGCCACACAAATCGCACAAGCCACACAAA
TCGCACAAGCCACACAAGCCACACAAGCCACACAAGCCACACAAGCCACACAAGCCGCACAAGCCGCACAAACCGCACAA
ACCACACAAACCACACAAACCACACAAACCGCACAAGCTACACAAATCGCACAAACCACACAAGCCACACCAACCACACC
AACCACACAAGCCACACCAACCACACATACAGAATTGCAGGCTTATATCGAGGCGGCACAGGTTGCTGCTGCTTCAGACT
ATACCCAGTCACTTCGGGAACAGGGGCGCACTGCACTGGCACATCTTCAGTCTGCTGCTCAACAAGCGGGGGATGCACTG
GATAGGCCGTGTATCGACAGATTATTCAGCTTACTGGATAAAGTGGCATTAATGCAGATGGTTAAAGCCTTATCAGATAT
GCAAACAGTGAATACACATCATGCTGTGACACTGGATGCCATTATGGAAAAAGGCCAAATCGCATCGGTAAATCGTCAAT
TACTACGCCGTTGGTTGCGGGCGCTGACACAGCACCAATATCTTCAACAAATTAATGATACTTATCGCTTAATCAGTGTG
GTCGCGGAGCAGGAGATTAGGCTTTGCTGGCAGCAATGTGAGCAACTCATTACACAGCTTGATGATAATAGGGGGTTGCT
CACTTATCTGGAGCGTAGCAGCCAATGTTTACCTGAACTCTTACAGGGCAAAGAAGATCCCCTCAATCTTCTTTTTCCTG
ATGGTCGCCTTGACGTCGCGACACAGGCTTATCAAAACAACCTCATTAGCCAGTTTATGAACCGCCTGTTGCTCAAGGCG
GCGGAGCAGAAGGTAAAGAATCAGGCTCAAGGGCGGGTCTTAAAGGTGTTCGAAATCGGGGCCGGCGTGGGGGGAACCAG
TAATGTGTTGATCCCTCTATTCGCCGAGGGGAACGCGGAATATACCTTCACTGATATCTCGCCTTTTTTCTTAAATGAAG
CGCGAAAACGTTATCAACATTATGACTTTATCCATTATCAACTGTTTGACTTTAACCAGTCGCCAGTACAGCAAGGGCTT
GATTGCGGACAGTATGATTTAGTGGTCGCTGCCAATGTTTTGCATAACGCGATTATTGCCCGTCACGGGTTGAATAACTT
ACGTCAACTGTTAGCACCCGGTGGTTGGTTGTTAATCATTGAAGCCACGCGGGACAATTATCAGCTGATGACGTCCATGG
AATTTAAACAGGGATTAACGGCGTTTGAAGATGAGCGTCTTGCATTGGACTCTCCCTTTTTGCCACAACAAAACTGGATA
CATGCACTACAGGATGTAGGAGCCGAAATGCTATGGGCCTATCCACCCACGGATGATGTTTTACATAAAATGGGGCAAAG
TTTTATATTTGCGCAATTTAATAGCCAGCGTATGTCTTGCGAACCTGATGCCTTGCTGGCGTATTTGCAGCAACAATTAC
CGGACTATATGGTGCCAGCTAAACTGGTCATATTGGATAAATTGCCGGTTTCTGCCAATGGAAAAATAGATCGCAAACAG
CTACCACGGTTACCTGAGAGCCAACAAAGGCAAGCCCCAGCGCTGCAGGATACGGATTCACCACTGGAGAAGACGTTGCT
TGCTCTTGGTCGTACCCTCATAGGGAATAATGCCATGGGTGTCGATGATGATTTTTTCACCAGTGGCGGCGATTCATTGC
TGATTACTCAGTGGATTAACCAAGTGCGAGAAGTCTTGGGTGAAGATAAGGTGCCATGGGAGGGGTGCCTACGGCAGGTT
TTACAGCAACCTACCGCGCGGGCATTGGCGGCTTATCTCCGCAATATCCGGGAGGAAGAGCCCGAGAGTCAGCGCCCCCA
AATGGCGGTGACGTGCCTGAAAGAAAGTGCGTGTTTGAAAGAAAGATCGGGTTTGAAAGAAAGATCAGAGGAACCGGTGG
TCATCCTCCACGAAGGGAGCGGTACCGTATTACCGTATTTATCCTTAGTCGATAAATTATCTGGCCCTATTTATGGGGTC
AATGTTACCGACAGCGCCGCTTTTCTCTCGATTCCTGCAGAAAGATTAATTTGCCAGTTAGCCAGTACCTATCTACCTGA
AATTCAGAAGGTGGGTGATCAGTGCCATTTAGTGGGATATTGCATGGGGGGGCTACTGGCTTTTGAAATTGCCCGGCAGG
CATTGGAAAATGGAAGGCCGGTGAGTTCGTTGACCATTATCAGTAGCTATCAAATTCCATATCACATCAACGATCCTTTG
ATGATTGATTTGGTGATGAGTTGGACGTTAGGTGTCGAACCTCCCTGGAATTTGCTGAAGGCTGATTTAGAAGGTATTTA
TCACGCCATTTTGGCCGACAAACCGGCGGTGATTACCGTGAATGCCGTCGTTGAACGTGCAAAAGCGAATGGGTTAACCG
CTCTGGCAAATGAGTACGCCTGTCTTCAACAACAATCTAATGAGGTGCGTTTATCACAATTGCTAACGGCAATTGAACAG
CACTCAACAGCATCGTCCCACGTTTCTCGCCAGCCGTTTGATGTGTTCCGCCACAGTATCCAAGGCGTGTGCCAATACCA
GCCAAACTACTTTGCCGGGGATATGACTTTTGTTTGCCAACAGGGGGATACCTACCTTCTGCCTGCTTTACAACAAGATA
TGACGGCATTTTGGCAAACTTACTGTCTTGGGCAGATAAACCGCCTCACCTTGCCAGGCGATCACTTTACGTGCCTGTCG
GCGGATAATATCTCGCCACTCATTCAGCATCTTGAACAATGCAAAGGAGTGCGGGGATGA

Upstream 100 bases:

>100_bases
CGTACAGACAATCGCACAAATTGCTTTAGTTATGGAGCCTGCACACCAGAGTGCAGGGCGTATTCAATTTGTGGAAGACT
CAATTTGAGGAGGAATCATT

Downstream 100 bases:

>100_bases
GACAGCCAAAAACTATTTTGGTGGTTGGTGGGCAGGGGGCCGTAGGGCAAGCGGCTGTCACGCAATTGTCTCAGCGAGGT
TATTGGGTGATCACCGCTGG

Product: putative siderophore biosysnthesis protein

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

Alternate protein names: HMWP2 [H]

Number of amino acids: Translated: 1939; Mature: 1939

Protein sequence:

>1939_residues
MNINLDSSSATQATDLLVNLEQQEVRFWLEGERIKFRAPEGVMTGAVMASLKALKPQLVAILAVREQQETLPIDTENRFV
AFPLSHVQAAYFVGRQSVFEYGGVGCHGYFEILAPCWDKAKLECIWEQMIIRHDMLRAIITPNGEQRILPSVAPFVIEQV
DVSSETVRQAMSHRVYQTDKWPLFDLKISHQNGKDCLHFSIDLLIADFLSVQILLAELFKGYLGQTFPAAPLTASFRDVI
CYERQQQSGRAYGDARQYWFSRLPTLPACPQLPTCVQLPTGSPSPAMQTNASEIPRFVRYRHQLAPSCWRRLQQGCQQQG
VSPSAFLLTVFSEVIGRWSENRHFTLNLTVMNRPNIHKDIDKLVGDFTSVSLLEVDLRSPKTVYERVKQIQKQLWQDLEH
RTFSGIEVMREWGRQQGVGHARMPIVFTSALVGEGKNQVQEAISETQLDLVFDYGISQTPQVWIDCQIMVLQGRLQLNWD
VMADVFPKGVVAAMFSTFIDSVERIDSVECIDSIECIDRVKCLCMEEVGTGEALCDSPLFWHSALSLPLPESQQQRRKQV
NATEKTLTPRCLHDGILARAAQQPQAIALVDPQHCLTYAALITRAQALAAKLNSHQRYAVLMEKRHEQVVAVLGIFIAGS
AYVPVDIHQPPARILTILSDAAVSGVVTASPQACLADAHFREINLSLLAQIPDAIEAKILPLPHDLAYVIYTSGSTGQPK
GVMISHDAAYNTLADMQQRMALTPDDRVLALARLSFDLSVFDIFGVLGAGGALIFPDEGDLQNPARWAHDIAQHQITLWN
SVPAQMKMLTDYLRAEQITLPSLRYILLSGDWIPVNLPPAIAQIAPHCTQLALGGATEAAIWSNYWRIDPQITYPVSIPY
GVPLTNQQFRVVNPWGEDCPDWGAGELLIGGRGVAQGYWQDEAKTQAHFFIDTQGLRWYRTGDLGRYTSEGVIEFLGRRD
HQIKVRGYRVETGEIEAQLLKLPEVAQAVVMQTTQAIQTEQAEQATQIAQATQIAQATQATQATQATQATQAAQAAQTAQ
TTQTTQTTQTAQATQIAQTTQATPTTPTTQATPTTHTELQAYIEAAQVAAASDYTQSLREQGRTALAHLQSAAQQAGDAL
DRPCIDRLFSLLDKVALMQMVKALSDMQTVNTHHAVTLDAIMEKGQIASVNRQLLRRWLRALTQHQYLQQINDTYRLISV
VAEQEIRLCWQQCEQLITQLDDNRGLLTYLERSSQCLPELLQGKEDPLNLLFPDGRLDVATQAYQNNLISQFMNRLLLKA
AEQKVKNQAQGRVLKVFEIGAGVGGTSNVLIPLFAEGNAEYTFTDISPFFLNEARKRYQHYDFIHYQLFDFNQSPVQQGL
DCGQYDLVVAANVLHNAIIARHGLNNLRQLLAPGGWLLIIEATRDNYQLMTSMEFKQGLTAFEDERLALDSPFLPQQNWI
HALQDVGAEMLWAYPPTDDVLHKMGQSFIFAQFNSQRMSCEPDALLAYLQQQLPDYMVPAKLVILDKLPVSANGKIDRKQ
LPRLPESQQRQAPALQDTDSPLEKTLLALGRTLIGNNAMGVDDDFFTSGGDSLLITQWINQVREVLGEDKVPWEGCLRQV
LQQPTARALAAYLRNIREEEPESQRPQMAVTCLKESACLKERSGLKERSEEPVVILHEGSGTVLPYLSLVDKLSGPIYGV
NVTDSAAFLSIPAERLICQLASTYLPEIQKVGDQCHLVGYCMGGLLAFEIARQALENGRPVSSLTIISSYQIPYHINDPL
MIDLVMSWTLGVEPPWNLLKADLEGIYHAILADKPAVITVNAVVERAKANGLTALANEYACLQQQSNEVRLSQLLTAIEQ
HSTASSHVSRQPFDVFRHSIQGVCQYQPNYFAGDMTFVCQQGDTYLLPALQQDMTAFWQTYCLGQINRLTLPGDHFTCLS
ADNISPLIQHLEQCKGVRG

Sequences:

>Translated_1939_residues
MNINLDSSSATQATDLLVNLEQQEVRFWLEGERIKFRAPEGVMTGAVMASLKALKPQLVAILAVREQQETLPIDTENRFV
AFPLSHVQAAYFVGRQSVFEYGGVGCHGYFEILAPCWDKAKLECIWEQMIIRHDMLRAIITPNGEQRILPSVAPFVIEQV
DVSSETVRQAMSHRVYQTDKWPLFDLKISHQNGKDCLHFSIDLLIADFLSVQILLAELFKGYLGQTFPAAPLTASFRDVI
CYERQQQSGRAYGDARQYWFSRLPTLPACPQLPTCVQLPTGSPSPAMQTNASEIPRFVRYRHQLAPSCWRRLQQGCQQQG
VSPSAFLLTVFSEVIGRWSENRHFTLNLTVMNRPNIHKDIDKLVGDFTSVSLLEVDLRSPKTVYERVKQIQKQLWQDLEH
RTFSGIEVMREWGRQQGVGHARMPIVFTSALVGEGKNQVQEAISETQLDLVFDYGISQTPQVWIDCQIMVLQGRLQLNWD
VMADVFPKGVVAAMFSTFIDSVERIDSVECIDSIECIDRVKCLCMEEVGTGEALCDSPLFWHSALSLPLPESQQQRRKQV
NATEKTLTPRCLHDGILARAAQQPQAIALVDPQHCLTYAALITRAQALAAKLNSHQRYAVLMEKRHEQVVAVLGIFIAGS
AYVPVDIHQPPARILTILSDAAVSGVVTASPQACLADAHFREINLSLLAQIPDAIEAKILPLPHDLAYVIYTSGSTGQPK
GVMISHDAAYNTLADMQQRMALTPDDRVLALARLSFDLSVFDIFGVLGAGGALIFPDEGDLQNPARWAHDIAQHQITLWN
SVPAQMKMLTDYLRAEQITLPSLRYILLSGDWIPVNLPPAIAQIAPHCTQLALGGATEAAIWSNYWRIDPQITYPVSIPY
GVPLTNQQFRVVNPWGEDCPDWGAGELLIGGRGVAQGYWQDEAKTQAHFFIDTQGLRWYRTGDLGRYTSEGVIEFLGRRD
HQIKVRGYRVETGEIEAQLLKLPEVAQAVVMQTTQAIQTEQAEQATQIAQATQIAQATQATQATQATQATQAAQAAQTAQ
TTQTTQTTQTAQATQIAQTTQATPTTPTTQATPTTHTELQAYIEAAQVAAASDYTQSLREQGRTALAHLQSAAQQAGDAL
DRPCIDRLFSLLDKVALMQMVKALSDMQTVNTHHAVTLDAIMEKGQIASVNRQLLRRWLRALTQHQYLQQINDTYRLISV
VAEQEIRLCWQQCEQLITQLDDNRGLLTYLERSSQCLPELLQGKEDPLNLLFPDGRLDVATQAYQNNLISQFMNRLLLKA
AEQKVKNQAQGRVLKVFEIGAGVGGTSNVLIPLFAEGNAEYTFTDISPFFLNEARKRYQHYDFIHYQLFDFNQSPVQQGL
DCGQYDLVVAANVLHNAIIARHGLNNLRQLLAPGGWLLIIEATRDNYQLMTSMEFKQGLTAFEDERLALDSPFLPQQNWI
HALQDVGAEMLWAYPPTDDVLHKMGQSFIFAQFNSQRMSCEPDALLAYLQQQLPDYMVPAKLVILDKLPVSANGKIDRKQ
LPRLPESQQRQAPALQDTDSPLEKTLLALGRTLIGNNAMGVDDDFFTSGGDSLLITQWINQVREVLGEDKVPWEGCLRQV
LQQPTARALAAYLRNIREEEPESQRPQMAVTCLKESACLKERSGLKERSEEPVVILHEGSGTVLPYLSLVDKLSGPIYGV
NVTDSAAFLSIPAERLICQLASTYLPEIQKVGDQCHLVGYCMGGLLAFEIARQALENGRPVSSLTIISSYQIPYHINDPL
MIDLVMSWTLGVEPPWNLLKADLEGIYHAILADKPAVITVNAVVERAKANGLTALANEYACLQQQSNEVRLSQLLTAIEQ
HSTASSHVSRQPFDVFRHSIQGVCQYQPNYFAGDMTFVCQQGDTYLLPALQQDMTAFWQTYCLGQINRLTLPGDHFTCLS
ADNISPLIQHLEQCKGVRG
>Mature_1939_residues
MNINLDSSSATQATDLLVNLEQQEVRFWLEGERIKFRAPEGVMTGAVMASLKALKPQLVAILAVREQQETLPIDTENRFV
AFPLSHVQAAYFVGRQSVFEYGGVGCHGYFEILAPCWDKAKLECIWEQMIIRHDMLRAIITPNGEQRILPSVAPFVIEQV
DVSSETVRQAMSHRVYQTDKWPLFDLKISHQNGKDCLHFSIDLLIADFLSVQILLAELFKGYLGQTFPAAPLTASFRDVI
CYERQQQSGRAYGDARQYWFSRLPTLPACPQLPTCVQLPTGSPSPAMQTNASEIPRFVRYRHQLAPSCWRRLQQGCQQQG
VSPSAFLLTVFSEVIGRWSENRHFTLNLTVMNRPNIHKDIDKLVGDFTSVSLLEVDLRSPKTVYERVKQIQKQLWQDLEH
RTFSGIEVMREWGRQQGVGHARMPIVFTSALVGEGKNQVQEAISETQLDLVFDYGISQTPQVWIDCQIMVLQGRLQLNWD
VMADVFPKGVVAAMFSTFIDSVERIDSVECIDSIECIDRVKCLCMEEVGTGEALCDSPLFWHSALSLPLPESQQQRRKQV
NATEKTLTPRCLHDGILARAAQQPQAIALVDPQHCLTYAALITRAQALAAKLNSHQRYAVLMEKRHEQVVAVLGIFIAGS
AYVPVDIHQPPARILTILSDAAVSGVVTASPQACLADAHFREINLSLLAQIPDAIEAKILPLPHDLAYVIYTSGSTGQPK
GVMISHDAAYNTLADMQQRMALTPDDRVLALARLSFDLSVFDIFGVLGAGGALIFPDEGDLQNPARWAHDIAQHQITLWN
SVPAQMKMLTDYLRAEQITLPSLRYILLSGDWIPVNLPPAIAQIAPHCTQLALGGATEAAIWSNYWRIDPQITYPVSIPY
GVPLTNQQFRVVNPWGEDCPDWGAGELLIGGRGVAQGYWQDEAKTQAHFFIDTQGLRWYRTGDLGRYTSEGVIEFLGRRD
HQIKVRGYRVETGEIEAQLLKLPEVAQAVVMQTTQAIQTEQAEQATQIAQATQIAQATQATQATQATQATQAAQAAQTAQ
TTQTTQTTQTAQATQIAQTTQATPTTPTTQATPTTHTELQAYIEAAQVAAASDYTQSLREQGRTALAHLQSAAQQAGDAL
DRPCIDRLFSLLDKVALMQMVKALSDMQTVNTHHAVTLDAIMEKGQIASVNRQLLRRWLRALTQHQYLQQINDTYRLISV
VAEQEIRLCWQQCEQLITQLDDNRGLLTYLERSSQCLPELLQGKEDPLNLLFPDGRLDVATQAYQNNLISQFMNRLLLKA
AEQKVKNQAQGRVLKVFEIGAGVGGTSNVLIPLFAEGNAEYTFTDISPFFLNEARKRYQHYDFIHYQLFDFNQSPVQQGL
DCGQYDLVVAANVLHNAIIARHGLNNLRQLLAPGGWLLIIEATRDNYQLMTSMEFKQGLTAFEDERLALDSPFLPQQNWI
HALQDVGAEMLWAYPPTDDVLHKMGQSFIFAQFNSQRMSCEPDALLAYLQQQLPDYMVPAKLVILDKLPVSANGKIDRKQ
LPRLPESQQRQAPALQDTDSPLEKTLLALGRTLIGNNAMGVDDDFFTSGGDSLLITQWINQVREVLGEDKVPWEGCLRQV
LQQPTARALAAYLRNIREEEPESQRPQMAVTCLKESACLKERSGLKERSEEPVVILHEGSGTVLPYLSLVDKLSGPIYGV
NVTDSAAFLSIPAERLICQLASTYLPEIQKVGDQCHLVGYCMGGLLAFEIARQALENGRPVSSLTIISSYQIPYHINDPL
MIDLVMSWTLGVEPPWNLLKADLEGIYHAILADKPAVITVNAVVERAKANGLTALANEYACLQQQSNEVRLSQLLTAIEQ
HSTASSHVSRQPFDVFRHSIQGVCQYQPNYFAGDMTFVCQQGDTYLLPALQQDMTAFWQTYCLGQINRLTLPGDHFTCLS
ADNISPLIQHLEQCKGVRG

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, GI187761345, Length=475, Percent_Identity=24.4210526315789, Blast_Score=87, Evalue=2e-16,
Organism=Homo sapiens, GI187761343, Length=475, Percent_Identity=24.4210526315789, Blast_Score=87, Evalue=2e-16,
Organism=Homo sapiens, GI45580730, Length=306, Percent_Identity=26.797385620915, Blast_Score=82, Evalue=5e-15,
Organism=Homo sapiens, GI42794754, Length=82, Percent_Identity=43.9024390243902, Blast_Score=77, Evalue=2e-13,
Organism=Homo sapiens, GI42794752, Length=82, Percent_Identity=43.9024390243902, Blast_Score=77, Evalue=2e-13,
Organism=Escherichia coli, GI1786801, Length=496, Percent_Identity=30.4435483870968, Blast_Score=179, Evalue=1e-45,
Organism=Escherichia coli, GI1788107, Length=476, Percent_Identity=25.8403361344538, Blast_Score=85, Evalue=4e-17,
Organism=Caenorhabditis elegans, GI17556356, Length=393, Percent_Identity=28.2442748091603, Blast_Score=97, Evalue=6e-20,
Organism=Caenorhabditis elegans, GI17550940, Length=446, Percent_Identity=21.3004484304933, Blast_Score=83, Evalue=1e-15,
Organism=Caenorhabditis elegans, GI32564420, Length=342, Percent_Identity=24.2690058479532, Blast_Score=74, Evalue=6e-13,
Organism=Caenorhabditis elegans, GI32564422, Length=342, Percent_Identity=24.5614035087719, Blast_Score=74, Evalue=6e-13,
Organism=Caenorhabditis elegans, GI17531443, Length=312, Percent_Identity=24.6794871794872, Blast_Score=71, Evalue=6e-12,
Organism=Caenorhabditis elegans, GI17560308, Length=301, Percent_Identity=25.9136212624585, Blast_Score=71, Evalue=7e-12,
Organism=Saccharomyces cerevisiae, GI6319591, Length=503, Percent_Identity=25.2485089463221, Blast_Score=117, Evalue=1e-26,
Organism=Drosophila melanogaster, GI24648676, Length=408, Percent_Identity=26.9607843137255, Blast_Score=118, Evalue=4e-26,
Organism=Drosophila melanogaster, GI18859661, Length=298, Percent_Identity=26.510067114094, Blast_Score=80, Evalue=1e-14,
Organism=Drosophila melanogaster, GI24656500, Length=331, Percent_Identity=24.773413897281, Blast_Score=78, Evalue=8e-14,
Organism=Drosophila melanogaster, GI24582852, Length=294, Percent_Identity=24.1496598639456, Blast_Score=77, Evalue=2e-13,
Organism=Drosophila melanogaster, GI21356441, Length=303, Percent_Identity=24.4224422442244, Blast_Score=73, Evalue=2e-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: 216301; Mature: 216301

Theoretical pI: Translated: 5.47; Mature: 5.47

Prosite motif: PS00012 PHOSPHOPANTETHEINE ; PS50075 ACP_DOMAIN ; PS00455 AMP_BINDING

Important sites: NA

Signals:

None

Transmembrane regions:

None

Cys/Met content:

2.0 %Cys     (Translated Protein)
2.0 %Met     (Translated Protein)
4.0 %Cys+Met (Translated Protein)
2.0 %Cys     (Mature Protein)
2.0 %Met     (Mature Protein)
4.0 %Cys+Met (Mature Protein)

Secondary structure: 

>Translated Secondary Structure
MNINLDSSSATQATDLLVNLEQQEVRFWLEGERIKFRAPEGVMTGAVMASLKALKPQLVA
CCCCCCCCCCHHHHHHHHCCCHHHEEEEECCCEEEEECCCCHHHHHHHHHHHHHHHHHHH
ILAVREQQETLPIDTENRFVAFPLSHVQAAYFVGRQSVFEYGGVGCHGYFEILAPCWDKA
HHHHHHHCCCCCCCCCCCEEEEEHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHCCCHH
KLECIWEQMIIRHDMLRAIITPNGEQRILPSVAPFVIEQVDVSSETVRQAMSHRVYQTDK
HHHHHHHHHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHCCCCHHHHHHHHHHCCEECCC
WPLFDLKISHQNGKDCLHFSIDLLIADFLSVQILLAELFKGYLGQTFPAAPLTASFRDVI
CEEEEEEECCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHHHH
CYERQQQSGRAYGDARQYWFSRLPTLPACPQLPTCVQLPTGSPSPAMQTNASEIPRFVRY
HHHHHHHCCCCCHHHHHHHHHHCCCCCCCCCCCCEEECCCCCCCCCCCCCHHHHHHHHHH
RHQLAPSCWRRLQQGCQQQGVSPSAFLLTVFSEVIGRWSENRHFTLNLTVMNRPNIHKDI
HHHHCHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHCCCCCCEEEEEEEEECCCCHHHHH
DKLVGDFTSVSLLEVDLRSPKTVYERVKQIQKQLWQDLEHRTFSGIEVMREWGRQQGVGH
HHHHCCCCCEEEEEEECCCCHHHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHHHCCCCC
ARMPIVFTSALVGEGKNQVQEAISETQLDLVFDYGISQTPQVWIDCQIMVLQGRLQLNWD
CCCHHHHHHHHHCCCHHHHHHHHHHHHHHEEEECCCCCCCCEEEEEEEEEEECCEEECHH
VMADVFPKGVVAAMFSTFIDSVERIDSVECIDSIECIDRVKCLCMEEVGTGEALCDSPLF
HHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCHHHCCCHH
WHSALSLPLPESQQQRRKQVNATEKTLTPRCLHDGILARAAQQPQAIALVDPQHCLTYAA
HHHHCCCCCCCHHHHHHHHCCCHHHHCCHHHHHHHHHHHHCCCCCEEEEECHHHHHHHHH
LITRAQALAAKLNSHQRYAVLMEKRHEQVVAVLGIFIAGSAYVPVDIHQPPARILTILSD
HHHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHCCCEEEEEECCCCHHHHHHHHHH
AAVSGVVTASPQACLADAHFREINLSLLAQIPDAIEAKILPLPHDLAYVIYTSGSTGQPK
HHHCCEEECCCHHHHHCCHHHHHHHHHHHHCCHHHCCEECCCCCCEEEEEEECCCCCCCC
GVMISHDAAYNTLADMQQRMALTPDDRVLALARLSFDLSVFDIFGVLGAGGALIFPDEGD
CEEEECCHHHHHHHHHHHHHCCCCCHHEEEEHHHHCCHHHHHHHHHHCCCCEEEECCCCC
LQNPARWAHDIAQHQITLWNSVPAQMKMLTDYLRAEQITLPSLRYILLSGDWIPVNLPPA
CCCHHHHHHHHHHHEEEEECCCHHHHHHHHHHHHHHCCCCCCEEEEEEECCEEEECCCHH
IAQIAPHCTQLALGGATEAAIWSNYWRIDPQITYPVSIPYGVPLTNQQFRVVNPWGEDCP
HHHHCCHHHHHHCCCCCHHHHHCCEEEECCEEEEEEECCCCCCCCCCCEEEECCCCCCCC
DWGAGELLIGGRGVAQGYWQDEAKTQAHFFIDTQGLRWYRTGDLGRYTSEGVIEFLGRRD
CCCCCEEEECCCCCCCCCCCCCCCCEEEEEEECCCCEEEECCCCCCCCHHHHHHHHCCCC
HQIKVRGYRVETGEIEAQLLKLPEVAQAVVMQTTQAIQTEQAEQATQIAQATQIAQATQA
CEEEEEEEEEECCHHHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH
TQATQATQATQAAQAAQTAQTTQTTQTTQTAQATQIAQTTQATPTTPTTQATPTTHTELQ
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCHHHHH
AYIEAAQVAAASDYTQSLREQGRTALAHLQSAAQQAGDALDRPCIDRLFSLLDKVALMQM
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHHHHHHHHH
VKALSDMQTVNTHHAVTLDAIMEKGQIASVNRQLLRRWLRALTQHQYLQQINDTYRLISV
HHHHHHHHHCCCCCCEEHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH
VAEQEIRLCWQQCEQLITQLDDNRGLLTYLERSSQCLPELLQGKEDPLNLLFPDGRLDVA
HHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHHHHCCCCCCCEEECCCCCCHHH
TQAYQNNLISQFMNRLLLKAAEQKVKNQAQGRVLKVFEIGAGVGGTSNVLIPLFAEGNAE
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCEEEEEEECCCCCCCCCEEEEEEECCCCC
YTFTDISPFFLNEARKRYQHYDFIHYQLFDFNQSPVQQGLDCGQYDLVVAANVLHNAIIA
EEEECCCHHHHHHHHHHHHHHCEEEEEEECCCCCHHHHCCCCCCCHHHHHHHHHHHHHHH
RHGLNNLRQLLAPGGWLLIIEATRDNYQLMTSMEFKQGLTAFEDERLALDSPFLPQQNWI
HHCHHHHHHHHCCCCEEEEEEECCCCCHHHHHHHHHHCCCCCCCCCEECCCCCCCCHHHH
HALQDVGAEMLWAYPPTDDVLHKMGQSFIFAQFNSQRMSCEPDALLAYLQQQLPDYMVPA
HHHHHCCHHEEEECCCCHHHHHHCCCCEEEEEECCCCCCCCHHHHHHHHHHHCCCCCCCC
KLVILDKLPVSANGKIDRKQLPRLPESQQRQAPALQDTDSPLEKTLLALGRTLIGNNAMG
EEEEEECCCCCCCCCCCHHHCCCCCCHHHHCCCCCCCCCCHHHHHHHHHHHHHHCCCCCC
VDDDFFTSGGDSLLITQWINQVREVLGEDKVPWEGCLRQVLQQPTARALAAYLRNIREEE
CCCCHHCCCCCCEEHHHHHHHHHHHHCCCCCCHHHHHHHHHHCCHHHHHHHHHHHHHHCC
PESQRPQMAVTCLKESACLKERSGLKERSEEPVVILHEGSGTVLPYLSLVDKLSGPIYGV
CCCCCCHHHHHHHHHHHHHHHHCCCHHCCCCCEEEEECCCCCHHHHHHHHHHHCCCEEEE
NVTDSAAFLSIPAERLICQLASTYLPEIQKVGDQCHLVGYCMGGLLAFEIARQALENGRP
ECCCCCHHHHCCHHHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHCCCC
VSSLTIISSYQIPYHINDPLMIDLVMSWTLGVEPPWNLLKADLEGIYHAILADKPAVITV
CCEEEEEEECCCCEECCCCHHHHHHHHHHCCCCCCHHHHHHHHHHHHHHHHCCCCCEEEH
NAVVERAKANGLTALANEYACLQQQSNEVRLSQLLTAIEQHSTASSHVSRQPFDVFRHSI
HHHHHHHHCCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHCCHHHHCCCCHHHHHHHHH
QGVCQYQPNYFAGDMTFVCQQGDTYLLPALQQDMTAFWQTYCLGQINRLTLPGDHFTCLS
HHHEECCCCEECCCEEEEEECCCEEECHHHHHHHHHHHHHHHHCCCCEEECCCCCEEEEE
ADNISPLIQHLEQCKGVRG
CCCHHHHHHHHHHHCCCCC
>Mature Secondary Structure
MNINLDSSSATQATDLLVNLEQQEVRFWLEGERIKFRAPEGVMTGAVMASLKALKPQLVA
CCCCCCCCCCHHHHHHHHCCCHHHEEEEECCCEEEEECCCCHHHHHHHHHHHHHHHHHHH
ILAVREQQETLPIDTENRFVAFPLSHVQAAYFVGRQSVFEYGGVGCHGYFEILAPCWDKA
HHHHHHHCCCCCCCCCCCEEEEEHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHCCCHH
KLECIWEQMIIRHDMLRAIITPNGEQRILPSVAPFVIEQVDVSSETVRQAMSHRVYQTDK
HHHHHHHHHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHCCCCHHHHHHHHHHCCEECCC
WPLFDLKISHQNGKDCLHFSIDLLIADFLSVQILLAELFKGYLGQTFPAAPLTASFRDVI
CEEEEEEECCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHHHH
CYERQQQSGRAYGDARQYWFSRLPTLPACPQLPTCVQLPTGSPSPAMQTNASEIPRFVRY
HHHHHHHCCCCCHHHHHHHHHHCCCCCCCCCCCCEEECCCCCCCCCCCCCHHHHHHHHHH
RHQLAPSCWRRLQQGCQQQGVSPSAFLLTVFSEVIGRWSENRHFTLNLTVMNRPNIHKDI
HHHHCHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHCCCCCCEEEEEEEEECCCCHHHHH
DKLVGDFTSVSLLEVDLRSPKTVYERVKQIQKQLWQDLEHRTFSGIEVMREWGRQQGVGH
HHHHCCCCCEEEEEEECCCCHHHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHHHCCCCC
ARMPIVFTSALVGEGKNQVQEAISETQLDLVFDYGISQTPQVWIDCQIMVLQGRLQLNWD
CCCHHHHHHHHHCCCHHHHHHHHHHHHHHEEEECCCCCCCCEEEEEEEEEEECCEEECHH
VMADVFPKGVVAAMFSTFIDSVERIDSVECIDSIECIDRVKCLCMEEVGTGEALCDSPLF
HHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCHHHCCCHH
WHSALSLPLPESQQQRRKQVNATEKTLTPRCLHDGILARAAQQPQAIALVDPQHCLTYAA
HHHHCCCCCCCHHHHHHHHCCCHHHHCCHHHHHHHHHHHHCCCCCEEEEECHHHHHHHHH
LITRAQALAAKLNSHQRYAVLMEKRHEQVVAVLGIFIAGSAYVPVDIHQPPARILTILSD
HHHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHCCCEEEEEECCCCHHHHHHHHHH
AAVSGVVTASPQACLADAHFREINLSLLAQIPDAIEAKILPLPHDLAYVIYTSGSTGQPK
HHHCCEEECCCHHHHHCCHHHHHHHHHHHHCCHHHCCEECCCCCCEEEEEEECCCCCCCC
GVMISHDAAYNTLADMQQRMALTPDDRVLALARLSFDLSVFDIFGVLGAGGALIFPDEGD
CEEEECCHHHHHHHHHHHHHCCCCCHHEEEEHHHHCCHHHHHHHHHHCCCCEEEECCCCC
LQNPARWAHDIAQHQITLWNSVPAQMKMLTDYLRAEQITLPSLRYILLSGDWIPVNLPPA
CCCHHHHHHHHHHHEEEEECCCHHHHHHHHHHHHHHCCCCCCEEEEEEECCEEEECCCHH
IAQIAPHCTQLALGGATEAAIWSNYWRIDPQITYPVSIPYGVPLTNQQFRVVNPWGEDCP
HHHHCCHHHHHHCCCCCHHHHHCCEEEECCEEEEEEECCCCCCCCCCCEEEECCCCCCCC
DWGAGELLIGGRGVAQGYWQDEAKTQAHFFIDTQGLRWYRTGDLGRYTSEGVIEFLGRRD
CCCCCEEEECCCCCCCCCCCCCCCCEEEEEEECCCCEEEECCCCCCCCHHHHHHHHCCCC
HQIKVRGYRVETGEIEAQLLKLPEVAQAVVMQTTQAIQTEQAEQATQIAQATQIAQATQA
CEEEEEEEEEECCHHHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH
TQATQATQATQAAQAAQTAQTTQTTQTTQTAQATQIAQTTQATPTTPTTQATPTTHTELQ
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCHHHHH
AYIEAAQVAAASDYTQSLREQGRTALAHLQSAAQQAGDALDRPCIDRLFSLLDKVALMQM
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHHHHHHHHH
VKALSDMQTVNTHHAVTLDAIMEKGQIASVNRQLLRRWLRALTQHQYLQQINDTYRLISV
HHHHHHHHHCCCCCCEEHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH
VAEQEIRLCWQQCEQLITQLDDNRGLLTYLERSSQCLPELLQGKEDPLNLLFPDGRLDVA
HHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHHHHCCCCCCCEEECCCCCCHHH
TQAYQNNLISQFMNRLLLKAAEQKVKNQAQGRVLKVFEIGAGVGGTSNVLIPLFAEGNAE
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCEEEEEEECCCCCCCCCEEEEEEECCCCC
YTFTDISPFFLNEARKRYQHYDFIHYQLFDFNQSPVQQGLDCGQYDLVVAANVLHNAIIA
EEEECCCHHHHHHHHHHHHHHCEEEEEEECCCCCHHHHCCCCCCCHHHHHHHHHHHHHHH
RHGLNNLRQLLAPGGWLLIIEATRDNYQLMTSMEFKQGLTAFEDERLALDSPFLPQQNWI
HHCHHHHHHHHCCCCEEEEEEECCCCCHHHHHHHHHHCCCCCCCCCEECCCCCCCCHHHH
HALQDVGAEMLWAYPPTDDVLHKMGQSFIFAQFNSQRMSCEPDALLAYLQQQLPDYMVPA
HHHHHCCHHEEEECCCCHHHHHHCCCCEEEEEECCCCCCCCHHHHHHHHHHHCCCCCCCC
KLVILDKLPVSANGKIDRKQLPRLPESQQRQAPALQDTDSPLEKTLLALGRTLIGNNAMG
EEEEEECCCCCCCCCCCHHHCCCCCCHHHHCCCCCCCCCCHHHHHHHHHHHHHHCCCCCC
VDDDFFTSGGDSLLITQWINQVREVLGEDKVPWEGCLRQVLQQPTARALAAYLRNIREEE
CCCCHHCCCCCCEEHHHHHHHHHHHHCCCCCCHHHHHHHHHHCCHHHHHHHHHHHHHHCC
PESQRPQMAVTCLKESACLKERSGLKERSEEPVVILHEGSGTVLPYLSLVDKLSGPIYGV
CCCCCCHHHHHHHHHHHHHHHHCCCHHCCCCCEEEEECCCCCHHHHHHHHHHHCCCEEEE
NVTDSAAFLSIPAERLICQLASTYLPEIQKVGDQCHLVGYCMGGLLAFEIARQALENGRP
ECCCCCHHHHCCHHHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHCCCC
VSSLTIISSYQIPYHINDPLMIDLVMSWTLGVEPPWNLLKADLEGIYHAILADKPAVITV
CCEEEEEEECCCCEECCCCHHHHHHHHHHCCCCCCHHHHHHHHHHHHHHHHCCCCCEEEH
NAVVERAKANGLTALANEYACLQQQSNEVRLSQLLTAIEQHSTASSHVSRQPFDVFRHSI
HHHHHHHHCCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHCCHHHHCCCCHHHHHHHHH
QGVCQYQPNYFAGDMTFVCQQGDTYLLPALQQDMTAFWQTYCLGQINRLTLPGDHFTCLS
HHHEECCCCEECCCEEEEEECCCEEECHHHHHHHHHHHHHHHHCCCCEEECCCCCEEEEE
ADNISPLIQHLEQCKGVRG
CCCHHHHHHHHHHHCCCCC

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]