| Definition | Agrobacterium vitis S4 plasmid pAtS4b, complete sequence. |
|---|---|
| Accession | NC_011991 |
| Length | 130,435 |
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The map label for this gene is dhbF [H]
Identifier: 222109208
GI number: 222109208
Start: 96775
End: 108060
Strand: Direct
Name: dhbF [H]
Synonym: Avi_9641
Alternate gene names: 222109208
Gene position: 96775-108060 (Clockwise)
Preceding gene: 222109207
Following gene: 222109209
Centisome position: 74.19
GC content: 53.25
Gene sequence:
>11286_bases ATGTTTAACAGGCAAGTCTCGGCGATCGCACGCGATGCGCAAGATCCTTCGGAATCAACACGCATACGGAGCTGCATCAT CGCCGGTGAAGGAACGTTAGCAATTAGATGTGCGCAGCACTTAATGGACAGCGGTCATCATCTCAAAGGGGTCCTCACTT CCGAAAAAGTGCTAGCCGATTGGGTTTACGCGAAGAACATTACTGTCCTGCGGTCAGTCGAGGAGCTTGCTACTCTGCTG CTCGACGAAGGCCCTGTGGACTGGCTTTTCTCGATCGTGAATCCGATCTTGCTCCCTCCTAACGTGATAGCTCGAGTGAA GGGTGGTGCATTCAACTATCATGATGCGCCATTACCGCGTTATGCTGGGGTTCACGCCACGTCATGGGCTATCTTGGCCG AAGAGAGAGATTACGCTATATCGTGGCACCGTATCAGCAATTTTGTAGACGCTGGCGATATCGTGTTGCAGCGAGCCGTT CCCATTGTTGACGACGATACGGCGCTTTCTCTCAATTTGAAATGCTACCAAGCGGCAGCTGGAGCTTTTGAGGAACTAAT AAGCCGCCTGACCCATGGAAAAGTGGAATCGTATCAGCAAGATCTTTCGCAAAGGACCTTCTTCTCTCGACACGACCGGC CTGAGGCAGATGGGATTTTGCAGTTTAATAGACAGGCTAAGCAGCTGTCCGCAACGGTTCGCGCTTTATCTTTCGGCCCG TATCGTATCAATACCTTTTGCAGGCCGAAGCTCCTCGTAGCCGACATCGCTCTGGGGGTCGGCGCCTTGGATGTGCTGGA CGAGCGCTCAACTGAACCACCTGGCACAGTGATCTGTGTTGACCATAAAGGTTGGCGGATTTCTACGTTTGACCACGACA TCTTAGTTAGAAATCTAGTTGTACTAGAAACTGATGAAGATGTATCGCCCCAAATCCTTGCCGCAGAGCTTGAAATTGAG CCCGGGACGCAGCTACCGATTCTCTCAGAGTCGGAAATGTCGAGGCTGAGGCGACTTCACATCGAGACATCAAAGAACAA TAGCTTCTGGCAAAAAAGATTGGCACACGCGAATTCGACAAGTTTGCCGTTTGCACCTTCTTGGGCGGAACAGGGCCGCG AACGTTGGCGCGCCAGTGCGTGGCATGTTCTGCAGGCATTTGATGCAATCCCCTTAGAGACGAGCGGGTCGTATATTCTG ACGTCTTGGCTCGTATATCTCTCACGAGTTACGGGAAAGAGTACGATCGAGACGGGATGGGCTTGGCAACCGGATGATTC CAGTTCGGCAGCGGTAAGGGCCACACTAGCTGACGTCGTGCCTCTACAGCTCAATGTTGGGTGGGTGGAATCCTTTGATA GCGTACGCTCTGCTCTGTCGTCGGAGTGCGCGACAGTCCGGGTTAAGAATACCTTCGCTAAGGACACTTTCCCGAGTAAG ACGAATCTCCGATCGTCTAAGATACTGCGCCCGCGGCGGGCATGGGACACAGCAGTTGAATTAGTCGATAGTGAAGTGCT CCCCCAGGATCATCCGAAAGCAAATGTGGTTACATTTCAGGTTGATCCCCGGAAAAGATCTTTCCGCCTGATTTACAATG CCGAGCGGTTGTCGCCTGCCGACGTCGACAGGATAACGGAACATCTTATCGTCTTGTCTCGTTCGATTATGACACCTGGC AACGAGTTTGTGCCGGCCCATGGCTTGGAGATACTCAGCAGGCAAGAAACCGAGCTTGTGCTTGAGGGTTGGAATGAGAC CTCGGTGGACTTCCCTTCGGAGCGCTGTATCCATCAGTTATTTGAGCGCCAAGTGGCCGAAACGCCTGACGTGGTAGCGG TCGAGCAGGATGGCATCAGCGTGACGTACGCTGAACTGAATGCAAAGGCGAATATACTTGCCGATAAAATCCGAATGAGG ATGACTAGGCCAGACAACATCGTTGCGATCTGCGTCGAGCGTCGCATCTATATGATTACTGCGTTCATTGCCGTCGTAAA AGCTGGCGCTACCTACCTCCCGCTTGACCCGACTAATCCGCCTGAACATATTGCCGATACTGTGGCCGATGCCGGTGCGG TTCTTATACTAACCGATACCGTCGGAGCGAAGGCACTTTCGGCCGCAGTGGCGGAGGGGCCCCACACGCTCGATATCGGT GAAGCCATGTCGGCTAAACATCCCGCTGAAATTGATCTCGTCTCGGGTTTCCCCCTTATTGCTCCTAGCCAACTGGCTTA CGTGATATACACGTCTGGATCGACGGGGAAACCCAAGGGGGTTATGATTGAACACGCGGGATTGGTTAACCTCGCGACGT GGCATATAAAGACGTTCGGCTTGAAGACTGGCAGTCGTTGTACATTGATGTCTCGGCCTGTCTTCGACGCCAGTGTTTGG GAAATGTGGCCCGCGCTATGCAGCGGCGCCACACTAGTGCTTCCGCCTGTAAATCTCCTGGATGACGTCGACGTTTTATT GAAATGGTGGCATCAGCAGGACCTGCACGTAAGTTTTCTAAGCACGCCCCTTGCCTCCATTGCGTTCCAGGAGAATCTGA CGAACCCCAACCTCCAAAGTCTCCTCGTAGGCGGAGACCAATTGCGAAGTGTCCCTCCGACACTGCCCCCTAAGCTGACC CTGGTAAACAACTATGGACCAACGGAGGCCACAGTGGTGGCAACATCCGGTGAGGTCAGAGCAGGAGAACCAGTTCTTAC TATCGGCCGCCCGATCGCCAATACACGGGCTTACGTTCTGGACGAATACCTCCAGCCCGTACCGCATGGGGTCGTCGGAG AGATATATATAAGTGGCGCGGGCGTGGCTCGCGGCTATCTTGGTCGCGCGGGATTAACAGCGGAACACTTTGTAGCTGAT CCTTTCAGCCGGGTAGCCGGAAAACGGATGTACAAAACCGGAGATCTGGGGAGGCATCTTCCAGACGGTCGGCTCCATTT CATCGGACGTAACGACGACCAAATCAAGATCCGCGGTTTCAGGCTAGAGCCCGGCGAGATACAAAGGCAGCTTTGTGAGC ATGCTGGCGTGCGCGATGCGCTGGTGATCAAACACGACAGCCACGAACTCAACGACTATCTGGCTGCGTACATCGTGCCG GAGCAAAAAACGCTCACCGCCGGCGCGGATGAACTGCGGGCTTACCTCCGCGGTTACCTTCCTGAGTACATGGTTCCAGC CACTTTCACGTTCTTAGAAACGTTCCCTCTTACGCAGAACGGGAAGATTGATCGAAAAGCGCTGCCAAGCCCTATCGAAG ATCCTGTCTCAAGGCCGCCTTATGAAGCTCCATCCGGTCATATCGAGCAACTACTGGCGACAACCTGGCAGGACCTACTT TGCATAACAAGGATCGGCACACAGGACAATTTCTTTGAGCTCGGTGGCCACTCGCTGCTGGCGGTCAAAGTCCAAGCACG GTTACGCCAAGAAGGCTTAAATTTGAAGACGAGCGATCTGTTTTCGTTTCCGACAATCGCAAGTTTAGCTGGCAAGGTGG CTGACGCAGATCCTGTTTTAGTTGACCACAGCAAGATCGATCCAAATTCGCCTCTGATGCCCAGCGACCTACCGCTTATT GACCTGTCAAAAATTGACATCGATAGGATCGTTGAACGAGCCCCAGGAGGCAAAGGAAATATTCAGGATATTTACGCCCT CTCCCCGCTGCAAGATGGAATTCTTTTCCATCATATGCTCGGCGGTATAGGTGACGCGTATTTGTTGCTCGACCTTATCG GCTTTCGTGAACGAGTTATTTTGCAACGTTATGTCGAAGCCGTCCAAACTGTTGTGGATAGGCACGAGATTTTGCGCACT GGTTTCATGTGGCATGGTCTCACGACTCCAGCGCAATTTGTACTGCGGAAAGCTGATATTTCGGTCGAGTACGTTGATCT CGATCCGAGTGCCGGTCTGGCTGTTGATCAGTTAATTGAACGCTATGATCCTCGCACTTACCGTCTTGATCTTTCTGAGC CCCCTCTTATGCGCTTCTTTGCCACCAGGGACTTTCAAACGGGGCACTGGCTACTTCTGCAGCTGTTCCACCATTTGATA GCGGACCATACCACTCTGGAAATCTTGCATTCAGAAGTTCGTGAGATCATGGGCGGCAGCGGGAGCAATCTTCCCCCAGC AACTCCTTATCGTAACCTCATCGCGCAGACACGGCTGCGGGCAGCGGATGATGAACACCATCGCCACTTCTTCCGGTCGA TGCTGGCTGATATCGAGGATCCCAGCGCTCCTTTCGACATGGTCGATGTTTACAATGATGGAAAGGATGTGACGGAGTCT GTCGTCACACTGTCTGTCGACCTTGACCGGAGGCTTAGAAGACATGCGCGGCAACTTGGGGTCAGCCTCGCTAGCATATG TCATGTTGCTTGGGGGATCGTGGTCGCCCGAACATGCGGTCGCGATGCAGCTGTGTTTGGGACGGTCCTCCTAGGAAGGA ATCAGGCCGGCGGCGAAGTTGACCGCGCGATGGGCCTATTCATTAATACGTTGCCGATCAGAGTTGATTTAGACGCTGTC AGTGTTGGAGATGGTATCTGCAGGACCCATTCTCTCCTCTCGGAACTCATGCAGCACGAGTACGCTTCACTAACGTTAGC CCAAGGCTGTAGTAGCGTTCCGGCATCCATTCCCTTGTTCAGCAGCCTCATCAACTACCGCCATAATGACCCATTGCAGC ACCAAGCCGATCTCGGTTGCGGCATTGAGCGATTGAAGTTCGAAGAGCGTACAAGCTATCCGATTACCTTATCTGTCGAC GACACCGGGGTCAGCTTGGGGCTTACAGTTCAAGCAGTACCTCCAGTCGTTCCCGGAACGCTTAGCGGTTACATGGTAGA AGCTCTTAGTCAGATAGCTTCTGCCCTTGAGGAAACGGCATCAGTTGCGCTTGAGCGCTTAGATATTTGTGATCAGCGAA CCCGTCACAAGGTTCTTGTAGAATGGAATGACACGCGGCGGCCGATTTCCGAAGCGCTGCTGCCGGAACTCTTTCAGGCT CAGGTCGCCCGTACACCTGATGCCATTGCCGTTGAATATGAAGGCGAGCAGATTTCGTACGCCGAACTTGAGGCCCGCGC CAATCGGATGGCCCGGTATTTAATTGAGCTGGGCGTGGGACCTGAGACGATTGTCGCACTGGCGCTTCCACGGTCAATCG ACATGGTTGTGTCTTTGCTGGCGGTTCTCAAGTCAGGTGGGGCTTATCTGCCTCTCGACCCGCAATATCCGACTGAAAGA TTAGCGTTCATGGTGGCTGACGCGCAGCCCGCCACGGTAATCGCGGTGGCATCGACGGCAGAAAAGCTGCCTGAGGATGC TCCTCTCCTACTTCTAGATGACGCTGGAGTCCTCGAACGGATCTCCGCATTTTCCGATTCCGCGGTCATCGAGACAGAAC GGCACGCGCCGCTCGACCCACTACATCCCGCCTATGTCATCTATACATCCGGATCAACCGGAAAACCCAAAGGCGTGGTT GCGTCACACGAGTCTGCGCGAAACAGGGTAACGGCGCAATTGTGGATCAATCCCCCAACTCAGGCAGATGTCTGCTGCCA AAAAACTTCGATCAGCTTCGTTGACAGTGTCTATGAGCTGCTGCTTCCCCTCCTAGGTGGGGCGCATGTATGTATCGCAC CGGATGAAATTGGGACGGATTTGCAGGCTCTACTAAATTTCATTGAGGTACACTCCGTTACTAGAATCGTGCTCGTGCCC AGCGTAGCCGAAAAATTACTATCTCTCGCAGAAGCAAAGCAGAAGTGTAATACTCTCGCCGTTTGGACATTGAGCGGCGA GGCCTTAGAGTCGAATTTGGTCGCCACGATGAGGCGCGCCTTTCCTGATGCTTCAGTCTTCAACTTGTACGGATCATCAG AGATTGCGGCGGATGCGGTAATGCATCGGATCAGCGATGTGGAATCCGAGGGTTCGGTTCCGATTGGGCGCCCGATTTCG AATACATTTGTTTATGTCCTCAATGATACTTTGCAACTGGTTCCGCCTGGGGTTGTCGGGGAGCTTTACATAGCGGGAGC AGGCCTGGCGCGAGGTTATCTGCGTCGGCCCGGCCTGACTGCCGAACGGTTTGTAGCTGATCCCTTTGGTGAGGCTGGCA CGCGCATGTATCGGACTGGAGACCTCGTCAAATGGCGTAGCGACGGTATTCTGGACTATTTAGGGCGGGCCGACGAGCAG GTTAAGATCCGTGGTTTCCGTATTGAGCCCGGGGAGATCGAGGCCGCTCTGCTCTCTCATCCTAGCGTTTCACAAGCCGT CGTCATCGCGCGCGAGGATAGCTCCGGTGACAAAAAGCTTCTGGGATATGTGGTCAGTCAGTCGGGCTCTCTCATAGACG CACAAGCATTGCGGCAATTTCTCCGCGATCGTCTTCCTGATTATATGGTTCCAGCGGCGATCATAGCGCTCGATCGTCTT CCCCTGTCTCCAAATGGCAAACTTGATCGCAAGGCTCTGCCGTCGCCTACTTACGAGGTTTCAGTCGGCCGGGAACCTTC GACCCCACAGGAGGAGCTTCTTTGTGGCCTTTTCGCTGAAGTCCTGGGGTTAAATCAGGTAGGTATCGACGATAACTTCT TCGACCTGGGGGGACATTCACTACTTGCTACTCGCCTAATATCTCGAATCCGCTCCACCTTCAGCCGTGAGGTTGCTATC CGAACGCTTTTCGAGGCCCCGACCGTTGCTCAATTAGATCGATACCTCAATAAGTCGGATACCGCGCGGACGGCATTGCA AAAACAGATGCGACCGCCGCGTCTTCCTCTGTCTCCGGCGCAGCGTCGCCTTTGGCTTCTAGACCGGATTGATGGTCATA GCTCGACATATAATATTCCGATCGCCCTGCACCTGAACGGCGATATAGAGATATCTGTCCTAAAGTCATGCTTGAAAGAC ATCCTACTAAGGCACGAAAGCCTAGCGACTACTTTCGTAGAGGTTGAAGGAATTCCCCACCAAGAGGTGGTATCCGCTGA CAATTTAAATATTGATATTATCACAAAGAAGATTGCCCATGAGAATCTCAGTACTGCACTTGTAGCTGCCGCAAACTATA ACTTCGATCTCTCGATAGATGTCCCAATACGACCTTATCTATTCCAACTCGGCCAAAATGAATATGTGCTCCTGATCCTC CTGCACCATATCGCCGCCGATGGATGGTCGATGTTTCCGCTGTTGAGAGATCTTTCTGCTTCCTACAATGCTCGGAGCAA AGGAAAAGAGCCTGAATGGACCCCTTTGTCGGTTCAGTATGCCGACTATACACTGTGGCATCAAGACGTCTTAGGCAGCG AAAGCGACCAGGATAGTCTCATTTCAAAGCAAATTGAGTATTGGCGAGAAGCGCTTAAGGGCCTTCCGGACGAGATCAAT CTACCAGTCGATCGAACCAGGCCCGCAATAGAAAGCCATCGCGGGGCGGAGGTGGAATTTGCTCTTTCTGGGGAGCTTCA TGCCGGCTTGAAAGCCTTGGCAAGGAACGAGCGTGTAACATTATTTATGCTCTTCCATAGCACCCTCGCAGCGCTCCTTT ATCGGTTAGGCGCGGGGACAGACATTGCGATTGGGAGCCCGGTAGCGGGACGCATGGATGCTGCTCTTGAGGACCTCGTC GGATTTTTCGTCAACACCCTCGTATTCCGTATAGACACTGCCGATAATCCCACGTTCCGCGAGCTATGTGGCCGGGTTAG GGATATTACACTTGATGCTTATGCACACCAAGATCTACCCTTCGAGCGGCTGGTCGAGCTTTTGAACCCAAGCCGTTCTT TAGCAAAGCATCCCCTCTTTCAAGTCCTTCTAGTGCTTCACAACAACCTTGAGGCCAATCTCGCATTTGATGGCGTCGAC GCCTCAATTGAAAAGGTAAACGTAACCTCCGCCAAATTCGACCTCTCTTTTGCCCTCCGAGAACAGTTCGACGCGGATAA GGCACCTGCCGGCATCTTCGGCGCAATCGAATATGCAACAGACCTTTTTGATCGCGACACCGTAGAAGCGTTTGCCGATC GGTTTATCCGCCTTCTGGAGGCTATTGTCTCCGATCCCGAACAACGCCTAGACGAAATCGATCTGTTAGACCCCGACGAA CGTCACAAGGTTCTTGTAGAATGGAATGACACGCGGCGGCCGATTTCCGAAGCGCTGCTGCCGGAACTCTTTCAGGCTCA GGTCGCCCGTACACCTGATGCCATTGCCCTTGAATGTGAAGGCGAGCAAATTTCGTACGCCGAACTTGAGGCCCGCGCCA ACCGGATGGCCCGGTATTTAATTGAGCTGGGCGTGGGACCTGAGACGATTGTCGCACTGGCGCTTCCACGGTCAATCGAC ATGGTTGTGTCTTTGCTGGCGGTTCTCAAGTCAGGTGGGGCTTATCTGCCTCTCGACCCGCAATATCCGACCGAAAGATT AGCGTTCATGGTGGCTGACGCGCAGCCCGCCACGGTAATCGCGGTGGCATCGACGGCAGAAAAGCTGCCTGAGGATGCTC CTCTCCTACTTCTAGATGACGCTGGAGTCCTCGAACGGATCTCCGCATTTTCCGATTCCGCGGTCATCGAGACAGAACGG CACGCGCCGCTCGACCCACTACATCCCGGCTATGTCATCTATACATCTGGATCAACCGGAAAGCCCAAAGGCGTGGTTGT GAATCATTCGGGGTTCACAAATTACCTTCTCTGGGCTGAGAGCTACTATCCGAAAAACCGGGGCACCGGTACGCCACTGA CCACCTCACTCGCTTTCGACGCTACGGTAACTAGCCTCTACTTACCGCTACTGAGGGGCAGTCGGGTCATCCTACACGCA GAAGGTACCGAGATCGAGCGCGTTCAGAAGGATATCGCTGGCGGTCCTTTGAACTACTCTTTGATGAAAATCACCCCAGC CCATTTGGACTTATTTGGGAGCGTCGTTGCGAGCGATAGGCTCCATGAGATTTCTAATTGCCTAATTGTCGGCGGAGAGG CACTTCTAAGTTCGCACATAAAACCGTGGCTCACCGGGGGATCTCCGGTGAAGATTTTTAACGAGTACGGTCCGACGGAG ACGGTGGTGGGCTGCACAGTCTTCATGGCTGGTTCCGATCGGCAACTCGCAGCTTCGGTTCCGATTGGGCGCCCGATTTC GAATACATTTGTTTATGTCCTCAATGATACTTTGCAACTGGTTCCGCCTGGGGTCGTCGGGGAGCTTTACATAGCGGGAG CAGGCCTGGCGCGAGGTTATCTGCGTCGGCCCGGCCTGACTGCCGAACGGTTTGTAGCTGATCCCTTTGGTGAGGCTGGC ACGCGCATGTATCGGACTGGAGACCTCGTCAAATGGCGTAGCGACGGTATTCTGGACTATTTAGGGCGGGCCGACGAACA GGTTAAGATTCGCGGTTTCCGTATTGAGCCCGGGGAGATCGAGGCTGCTCTGCTCTCTCATCCAAGCGTTTCACAAGCCG TCGTCATCGCGCGCGAGGATAGCCCCGGTGACAAAAAGCTTCTGGGATATGTGGTCCATAATTCGCATGGGCTTGCACCC GCTGATGTGCGAGAGAGCAAACTTGCGGAATGGCATGAACTGTACGAGAACGAATATGCACTGCCCTCTGACGCTCCTTT TGGCGAGGACTTCAGAGGATGGACAAATAGCTACGATGGGGCACCGATACCACGTCAGGAGATGGAAGATTGGCGAGAGG AGACCGTCAAGCGGATCATCGCCCTCAATCCATCGAAAGTCTTGGAGATCGGAGTAGGAACAGGGCTCATCTTATCCCGT ATCGCACCACTTTGCGACGAGTATTGGGGTAGCGATATCTCTGGCACCGCAATATCTAAGCTCGCCTCTCTACTGTCAGC TCATGACAAGTTGAATGAAAAGGTACGGCTTATAACCGCTCCGGCCCACGATCTTTCTACCATGCCGCTTGGATACTTCG ACACTATTATCATAAACTCGGTCACTCAGTACTTTCCTGAGCTCGGGTATCTCACCGAGCTCCTAGAGCGTCTCCAAGGA TACTTAGCTCCTAGGGGAGCGATTTTCATCGGCGATGTTCGCAACCACCGACTATTTCGTATGTTCGAAACCGCAAAACA GGTTCGGATTGCGGCTCCTGAAGACACTCCTGCGATCATCTCAGAGCGAATTGAACGAGCACTTCAGTCGCCAAGCGAGT TACTCATAGATCCTTGCTACTTCGAGAAATTGAACAGCCACGCAGCGGTAAACATGATCGCCGACGTCCGAGTAAAGACT GGCCGATTCTCCAACGAGTTGACGAAGTATAGATACGACGTAATATTAAATTTCCCTGTGCCTTCGAGTGCTGCGGGCCC CCAAATAAATTGCGTTCAGTTCAACAGCAGACATCACGACGCGGATGTGATTGGTCAGCTTCTTGAAGCAAGCCAAAATG CACTGGTTCTTGTCGGGGTTCCAAATCAAAAGCTCGATGAAGATCGTTTCGTGTTAGCTACTTTTCGGGCGCGCGTAAAA CCTTCGAACGCGGATTCCCACACTACTGCGCACCCTGGCGGCGAGCTTTTACCTGTCTTTCAGACGTTAGCTCAAAGGTA CGGCCGGGACTTGATTCTCAGATGGAACAATGAATCTACCACTGGGGCCATGGACGTCGCATTTGTTCCTGCCCACATTT CCGCACAGGCGGTCTCCGGCCCCAGCTTCCCCGGAAATCACGATATATCCAGCATCCCTGCCCGGATCTCCTTTGCCGAT GATATGGCACATGAGCTTCGGGAGTATTTAGAGATATTCCTTCCTGCTCATATGCTTCCCGCCTCAATAATAGCCGTTGA GAGCATTCCTTTATCACCCAACGGGAAAGTCGACCGCGGTTCTCTCCCCTCCCCCGATCTCAATCCCCGGAAAGGGAGCG ATCCCAAAACAGCAATCGAACATCAACTTTGCCAAATTTTTTCTGACGTACTCGGTATTCCGGAGATCGGGACAGATGAT GACTTCTTCCGGCTCGGTGGTAACAGTATATCAGTCATACGGTTGATATCACGTGCACGACACGAGATGTTGTCACTCTC CCCTCGAGACGTGTTTGAATGCAAGACGGTGGCTAAGTTGGCACCGCGGGCCGCGCCTGCTCCGCAAGGCAAAACTGCTC AAAATGAGAGAGGTTCGCCCCAGATGGGCCTAGCCCCTGTGGCGTTTGATAAGCTTCAAGATAAATGGGGAGGCCGCAGT GCCTAA
Upstream 100 bases:
>100_bases GCCATGGTCGCAATCCATTCGAAGGCCCGCGACAAGTGCTTGTGAGCATGGGCCGCGGGTATGCTTCTGTCGTCGACAGC TCTCATTAATCGAGGCTCAA
Downstream 100 bases:
>100_bases CATTGAAGAGCTTCTCCCGCTATCACCTTTGCAGAAGGGCCTTCTCTTCCACTCACTTTATGATGAGAGTGGTGTTGACG TCTATCACATCCAATTTACG
Product: peptide synthetase
Products: pyrophosphate; AMP; enterobactin; pyrophosphate; L-Seryl-AMP [C]
Alternate protein names: NA
Number of amino acids: Translated: 3761; Mature: 3761
Protein sequence:
>3761_residues MFNRQVSAIARDAQDPSESTRIRSCIIAGEGTLAIRCAQHLMDSGHHLKGVLTSEKVLADWVYAKNITVLRSVEELATLL LDEGPVDWLFSIVNPILLPPNVIARVKGGAFNYHDAPLPRYAGVHATSWAILAEERDYAISWHRISNFVDAGDIVLQRAV PIVDDDTALSLNLKCYQAAAGAFEELISRLTHGKVESYQQDLSQRTFFSRHDRPEADGILQFNRQAKQLSATVRALSFGP YRINTFCRPKLLVADIALGVGALDVLDERSTEPPGTVICVDHKGWRISTFDHDILVRNLVVLETDEDVSPQILAAELEIE PGTQLPILSESEMSRLRRLHIETSKNNSFWQKRLAHANSTSLPFAPSWAEQGRERWRASAWHVLQAFDAIPLETSGSYIL TSWLVYLSRVTGKSTIETGWAWQPDDSSSAAVRATLADVVPLQLNVGWVESFDSVRSALSSECATVRVKNTFAKDTFPSK TNLRSSKILRPRRAWDTAVELVDSEVLPQDHPKANVVTFQVDPRKRSFRLIYNAERLSPADVDRITEHLIVLSRSIMTPG NEFVPAHGLEILSRQETELVLEGWNETSVDFPSERCIHQLFERQVAETPDVVAVEQDGISVTYAELNAKANILADKIRMR MTRPDNIVAICVERRIYMITAFIAVVKAGATYLPLDPTNPPEHIADTVADAGAVLILTDTVGAKALSAAVAEGPHTLDIG EAMSAKHPAEIDLVSGFPLIAPSQLAYVIYTSGSTGKPKGVMIEHAGLVNLATWHIKTFGLKTGSRCTLMSRPVFDASVW EMWPALCSGATLVLPPVNLLDDVDVLLKWWHQQDLHVSFLSTPLASIAFQENLTNPNLQSLLVGGDQLRSVPPTLPPKLT LVNNYGPTEATVVATSGEVRAGEPVLTIGRPIANTRAYVLDEYLQPVPHGVVGEIYISGAGVARGYLGRAGLTAEHFVAD PFSRVAGKRMYKTGDLGRHLPDGRLHFIGRNDDQIKIRGFRLEPGEIQRQLCEHAGVRDALVIKHDSHELNDYLAAYIVP EQKTLTAGADELRAYLRGYLPEYMVPATFTFLETFPLTQNGKIDRKALPSPIEDPVSRPPYEAPSGHIEQLLATTWQDLL CITRIGTQDNFFELGGHSLLAVKVQARLRQEGLNLKTSDLFSFPTIASLAGKVADADPVLVDHSKIDPNSPLMPSDLPLI DLSKIDIDRIVERAPGGKGNIQDIYALSPLQDGILFHHMLGGIGDAYLLLDLIGFRERVILQRYVEAVQTVVDRHEILRT GFMWHGLTTPAQFVLRKADISVEYVDLDPSAGLAVDQLIERYDPRTYRLDLSEPPLMRFFATRDFQTGHWLLLQLFHHLI ADHTTLEILHSEVREIMGGSGSNLPPATPYRNLIAQTRLRAADDEHHRHFFRSMLADIEDPSAPFDMVDVYNDGKDVTES VVTLSVDLDRRLRRHARQLGVSLASICHVAWGIVVARTCGRDAAVFGTVLLGRNQAGGEVDRAMGLFINTLPIRVDLDAV SVGDGICRTHSLLSELMQHEYASLTLAQGCSSVPASIPLFSSLINYRHNDPLQHQADLGCGIERLKFEERTSYPITLSVD DTGVSLGLTVQAVPPVVPGTLSGYMVEALSQIASALEETASVALERLDICDQRTRHKVLVEWNDTRRPISEALLPELFQA QVARTPDAIAVEYEGEQISYAELEARANRMARYLIELGVGPETIVALALPRSIDMVVSLLAVLKSGGAYLPLDPQYPTER LAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLERISAFSDSAVIETERHAPLDPLHPAYVIYTSGSTGKPKGVV ASHESARNRVTAQLWINPPTQADVCCQKTSISFVDSVYELLLPLLGGAHVCIAPDEIGTDLQALLNFIEVHSVTRIVLVP SVAEKLLSLAEAKQKCNTLAVWTLSGEALESNLVATMRRAFPDASVFNLYGSSEIAADAVMHRISDVESEGSVPIGRPIS NTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLTAERFVADPFGEAGTRMYRTGDLVKWRSDGILDYLGRADEQ VKIRGFRIEPGEIEAALLSHPSVSQAVVIAREDSSGDKKLLGYVVSQSGSLIDAQALRQFLRDRLPDYMVPAAIIALDRL PLSPNGKLDRKALPSPTYEVSVGREPSTPQEELLCGLFAEVLGLNQVGIDDNFFDLGGHSLLATRLISRIRSTFSREVAI RTLFEAPTVAQLDRYLNKSDTARTALQKQMRPPRLPLSPAQRRLWLLDRIDGHSSTYNIPIALHLNGDIEISVLKSCLKD ILLRHESLATTFVEVEGIPHQEVVSADNLNIDIITKKIAHENLSTALVAAANYNFDLSIDVPIRPYLFQLGQNEYVLLIL LHHIAADGWSMFPLLRDLSASYNARSKGKEPEWTPLSVQYADYTLWHQDVLGSESDQDSLISKQIEYWREALKGLPDEIN LPVDRTRPAIESHRGAEVEFALSGELHAGLKALARNERVTLFMLFHSTLAALLYRLGAGTDIAIGSPVAGRMDAALEDLV GFFVNTLVFRIDTADNPTFRELCGRVRDITLDAYAHQDLPFERLVELLNPSRSLAKHPLFQVLLVLHNNLEANLAFDGVD ASIEKVNVTSAKFDLSFALREQFDADKAPAGIFGAIEYATDLFDRDTVEAFADRFIRLLEAIVSDPEQRLDEIDLLDPDE RHKVLVEWNDTRRPISEALLPELFQAQVARTPDAIALECEGEQISYAELEARANRMARYLIELGVGPETIVALALPRSID MVVSLLAVLKSGGAYLPLDPQYPTERLAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLERISAFSDSAVIETER HAPLDPLHPGYVIYTSGSTGKPKGVVVNHSGFTNYLLWAESYYPKNRGTGTPLTTSLAFDATVTSLYLPLLRGSRVILHA EGTEIERVQKDIAGGPLNYSLMKITPAHLDLFGSVVASDRLHEISNCLIVGGEALLSSHIKPWLTGGSPVKIFNEYGPTE TVVGCTVFMAGSDRQLAASVPIGRPISNTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLTAERFVADPFGEAG TRMYRTGDLVKWRSDGILDYLGRADEQVKIRGFRIEPGEIEAALLSHPSVSQAVVIAREDSPGDKKLLGYVVHNSHGLAP ADVRESKLAEWHELYENEYALPSDAPFGEDFRGWTNSYDGAPIPRQEMEDWREETVKRIIALNPSKVLEIGVGTGLILSR IAPLCDEYWGSDISGTAISKLASLLSAHDKLNEKVRLITAPAHDLSTMPLGYFDTIIINSVTQYFPELGYLTELLERLQG YLAPRGAIFIGDVRNHRLFRMFETAKQVRIAAPEDTPAIISERIERALQSPSELLIDPCYFEKLNSHAAVNMIADVRVKT GRFSNELTKYRYDVILNFPVPSSAAGPQINCVQFNSRHHDADVIGQLLEASQNALVLVGVPNQKLDEDRFVLATFRARVK PSNADSHTTAHPGGELLPVFQTLAQRYGRDLILRWNNESTTGAMDVAFVPAHISAQAVSGPSFPGNHDISSIPARISFAD DMAHELREYLEIFLPAHMLPASIIAVESIPLSPNGKVDRGSLPSPDLNPRKGSDPKTAIEHQLCQIFSDVLGIPEIGTDD DFFRLGGNSISVIRLISRARHEMLSLSPRDVFECKTVAKLAPRAAPAPQGKTAQNERGSPQMGLAPVAFDKLQDKWGGRS A
Sequences:
>Translated_3761_residues MFNRQVSAIARDAQDPSESTRIRSCIIAGEGTLAIRCAQHLMDSGHHLKGVLTSEKVLADWVYAKNITVLRSVEELATLL LDEGPVDWLFSIVNPILLPPNVIARVKGGAFNYHDAPLPRYAGVHATSWAILAEERDYAISWHRISNFVDAGDIVLQRAV PIVDDDTALSLNLKCYQAAAGAFEELISRLTHGKVESYQQDLSQRTFFSRHDRPEADGILQFNRQAKQLSATVRALSFGP YRINTFCRPKLLVADIALGVGALDVLDERSTEPPGTVICVDHKGWRISTFDHDILVRNLVVLETDEDVSPQILAAELEIE PGTQLPILSESEMSRLRRLHIETSKNNSFWQKRLAHANSTSLPFAPSWAEQGRERWRASAWHVLQAFDAIPLETSGSYIL TSWLVYLSRVTGKSTIETGWAWQPDDSSSAAVRATLADVVPLQLNVGWVESFDSVRSALSSECATVRVKNTFAKDTFPSK TNLRSSKILRPRRAWDTAVELVDSEVLPQDHPKANVVTFQVDPRKRSFRLIYNAERLSPADVDRITEHLIVLSRSIMTPG NEFVPAHGLEILSRQETELVLEGWNETSVDFPSERCIHQLFERQVAETPDVVAVEQDGISVTYAELNAKANILADKIRMR MTRPDNIVAICVERRIYMITAFIAVVKAGATYLPLDPTNPPEHIADTVADAGAVLILTDTVGAKALSAAVAEGPHTLDIG EAMSAKHPAEIDLVSGFPLIAPSQLAYVIYTSGSTGKPKGVMIEHAGLVNLATWHIKTFGLKTGSRCTLMSRPVFDASVW EMWPALCSGATLVLPPVNLLDDVDVLLKWWHQQDLHVSFLSTPLASIAFQENLTNPNLQSLLVGGDQLRSVPPTLPPKLT LVNNYGPTEATVVATSGEVRAGEPVLTIGRPIANTRAYVLDEYLQPVPHGVVGEIYISGAGVARGYLGRAGLTAEHFVAD PFSRVAGKRMYKTGDLGRHLPDGRLHFIGRNDDQIKIRGFRLEPGEIQRQLCEHAGVRDALVIKHDSHELNDYLAAYIVP EQKTLTAGADELRAYLRGYLPEYMVPATFTFLETFPLTQNGKIDRKALPSPIEDPVSRPPYEAPSGHIEQLLATTWQDLL CITRIGTQDNFFELGGHSLLAVKVQARLRQEGLNLKTSDLFSFPTIASLAGKVADADPVLVDHSKIDPNSPLMPSDLPLI DLSKIDIDRIVERAPGGKGNIQDIYALSPLQDGILFHHMLGGIGDAYLLLDLIGFRERVILQRYVEAVQTVVDRHEILRT GFMWHGLTTPAQFVLRKADISVEYVDLDPSAGLAVDQLIERYDPRTYRLDLSEPPLMRFFATRDFQTGHWLLLQLFHHLI ADHTTLEILHSEVREIMGGSGSNLPPATPYRNLIAQTRLRAADDEHHRHFFRSMLADIEDPSAPFDMVDVYNDGKDVTES VVTLSVDLDRRLRRHARQLGVSLASICHVAWGIVVARTCGRDAAVFGTVLLGRNQAGGEVDRAMGLFINTLPIRVDLDAV SVGDGICRTHSLLSELMQHEYASLTLAQGCSSVPASIPLFSSLINYRHNDPLQHQADLGCGIERLKFEERTSYPITLSVD DTGVSLGLTVQAVPPVVPGTLSGYMVEALSQIASALEETASVALERLDICDQRTRHKVLVEWNDTRRPISEALLPELFQA QVARTPDAIAVEYEGEQISYAELEARANRMARYLIELGVGPETIVALALPRSIDMVVSLLAVLKSGGAYLPLDPQYPTER LAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLERISAFSDSAVIETERHAPLDPLHPAYVIYTSGSTGKPKGVV ASHESARNRVTAQLWINPPTQADVCCQKTSISFVDSVYELLLPLLGGAHVCIAPDEIGTDLQALLNFIEVHSVTRIVLVP SVAEKLLSLAEAKQKCNTLAVWTLSGEALESNLVATMRRAFPDASVFNLYGSSEIAADAVMHRISDVESEGSVPIGRPIS NTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLTAERFVADPFGEAGTRMYRTGDLVKWRSDGILDYLGRADEQ VKIRGFRIEPGEIEAALLSHPSVSQAVVIAREDSSGDKKLLGYVVSQSGSLIDAQALRQFLRDRLPDYMVPAAIIALDRL PLSPNGKLDRKALPSPTYEVSVGREPSTPQEELLCGLFAEVLGLNQVGIDDNFFDLGGHSLLATRLISRIRSTFSREVAI RTLFEAPTVAQLDRYLNKSDTARTALQKQMRPPRLPLSPAQRRLWLLDRIDGHSSTYNIPIALHLNGDIEISVLKSCLKD ILLRHESLATTFVEVEGIPHQEVVSADNLNIDIITKKIAHENLSTALVAAANYNFDLSIDVPIRPYLFQLGQNEYVLLIL LHHIAADGWSMFPLLRDLSASYNARSKGKEPEWTPLSVQYADYTLWHQDVLGSESDQDSLISKQIEYWREALKGLPDEIN LPVDRTRPAIESHRGAEVEFALSGELHAGLKALARNERVTLFMLFHSTLAALLYRLGAGTDIAIGSPVAGRMDAALEDLV GFFVNTLVFRIDTADNPTFRELCGRVRDITLDAYAHQDLPFERLVELLNPSRSLAKHPLFQVLLVLHNNLEANLAFDGVD ASIEKVNVTSAKFDLSFALREQFDADKAPAGIFGAIEYATDLFDRDTVEAFADRFIRLLEAIVSDPEQRLDEIDLLDPDE RHKVLVEWNDTRRPISEALLPELFQAQVARTPDAIALECEGEQISYAELEARANRMARYLIELGVGPETIVALALPRSID MVVSLLAVLKSGGAYLPLDPQYPTERLAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLERISAFSDSAVIETER HAPLDPLHPGYVIYTSGSTGKPKGVVVNHSGFTNYLLWAESYYPKNRGTGTPLTTSLAFDATVTSLYLPLLRGSRVILHA EGTEIERVQKDIAGGPLNYSLMKITPAHLDLFGSVVASDRLHEISNCLIVGGEALLSSHIKPWLTGGSPVKIFNEYGPTE TVVGCTVFMAGSDRQLAASVPIGRPISNTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLTAERFVADPFGEAG TRMYRTGDLVKWRSDGILDYLGRADEQVKIRGFRIEPGEIEAALLSHPSVSQAVVIAREDSPGDKKLLGYVVHNSHGLAP ADVRESKLAEWHELYENEYALPSDAPFGEDFRGWTNSYDGAPIPRQEMEDWREETVKRIIALNPSKVLEIGVGTGLILSR IAPLCDEYWGSDISGTAISKLASLLSAHDKLNEKVRLITAPAHDLSTMPLGYFDTIIINSVTQYFPELGYLTELLERLQG YLAPRGAIFIGDVRNHRLFRMFETAKQVRIAAPEDTPAIISERIERALQSPSELLIDPCYFEKLNSHAAVNMIADVRVKT GRFSNELTKYRYDVILNFPVPSSAAGPQINCVQFNSRHHDADVIGQLLEASQNALVLVGVPNQKLDEDRFVLATFRARVK PSNADSHTTAHPGGELLPVFQTLAQRYGRDLILRWNNESTTGAMDVAFVPAHISAQAVSGPSFPGNHDISSIPARISFAD DMAHELREYLEIFLPAHMLPASIIAVESIPLSPNGKVDRGSLPSPDLNPRKGSDPKTAIEHQLCQIFSDVLGIPEIGTDD DFFRLGGNSISVIRLISRARHEMLSLSPRDVFECKTVAKLAPRAAPAPQGKTAQNERGSPQMGLAPVAFDKLQDKWGGRS A >Mature_3761_residues MFNRQVSAIARDAQDPSESTRIRSCIIAGEGTLAIRCAQHLMDSGHHLKGVLTSEKVLADWVYAKNITVLRSVEELATLL LDEGPVDWLFSIVNPILLPPNVIARVKGGAFNYHDAPLPRYAGVHATSWAILAEERDYAISWHRISNFVDAGDIVLQRAV PIVDDDTALSLNLKCYQAAAGAFEELISRLTHGKVESYQQDLSQRTFFSRHDRPEADGILQFNRQAKQLSATVRALSFGP YRINTFCRPKLLVADIALGVGALDVLDERSTEPPGTVICVDHKGWRISTFDHDILVRNLVVLETDEDVSPQILAAELEIE PGTQLPILSESEMSRLRRLHIETSKNNSFWQKRLAHANSTSLPFAPSWAEQGRERWRASAWHVLQAFDAIPLETSGSYIL TSWLVYLSRVTGKSTIETGWAWQPDDSSSAAVRATLADVVPLQLNVGWVESFDSVRSALSSECATVRVKNTFAKDTFPSK TNLRSSKILRPRRAWDTAVELVDSEVLPQDHPKANVVTFQVDPRKRSFRLIYNAERLSPADVDRITEHLIVLSRSIMTPG NEFVPAHGLEILSRQETELVLEGWNETSVDFPSERCIHQLFERQVAETPDVVAVEQDGISVTYAELNAKANILADKIRMR MTRPDNIVAICVERRIYMITAFIAVVKAGATYLPLDPTNPPEHIADTVADAGAVLILTDTVGAKALSAAVAEGPHTLDIG EAMSAKHPAEIDLVSGFPLIAPSQLAYVIYTSGSTGKPKGVMIEHAGLVNLATWHIKTFGLKTGSRCTLMSRPVFDASVW EMWPALCSGATLVLPPVNLLDDVDVLLKWWHQQDLHVSFLSTPLASIAFQENLTNPNLQSLLVGGDQLRSVPPTLPPKLT LVNNYGPTEATVVATSGEVRAGEPVLTIGRPIANTRAYVLDEYLQPVPHGVVGEIYISGAGVARGYLGRAGLTAEHFVAD PFSRVAGKRMYKTGDLGRHLPDGRLHFIGRNDDQIKIRGFRLEPGEIQRQLCEHAGVRDALVIKHDSHELNDYLAAYIVP EQKTLTAGADELRAYLRGYLPEYMVPATFTFLETFPLTQNGKIDRKALPSPIEDPVSRPPYEAPSGHIEQLLATTWQDLL CITRIGTQDNFFELGGHSLLAVKVQARLRQEGLNLKTSDLFSFPTIASLAGKVADADPVLVDHSKIDPNSPLMPSDLPLI DLSKIDIDRIVERAPGGKGNIQDIYALSPLQDGILFHHMLGGIGDAYLLLDLIGFRERVILQRYVEAVQTVVDRHEILRT GFMWHGLTTPAQFVLRKADISVEYVDLDPSAGLAVDQLIERYDPRTYRLDLSEPPLMRFFATRDFQTGHWLLLQLFHHLI ADHTTLEILHSEVREIMGGSGSNLPPATPYRNLIAQTRLRAADDEHHRHFFRSMLADIEDPSAPFDMVDVYNDGKDVTES VVTLSVDLDRRLRRHARQLGVSLASICHVAWGIVVARTCGRDAAVFGTVLLGRNQAGGEVDRAMGLFINTLPIRVDLDAV SVGDGICRTHSLLSELMQHEYASLTLAQGCSSVPASIPLFSSLINYRHNDPLQHQADLGCGIERLKFEERTSYPITLSVD DTGVSLGLTVQAVPPVVPGTLSGYMVEALSQIASALEETASVALERLDICDQRTRHKVLVEWNDTRRPISEALLPELFQA QVARTPDAIAVEYEGEQISYAELEARANRMARYLIELGVGPETIVALALPRSIDMVVSLLAVLKSGGAYLPLDPQYPTER LAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLERISAFSDSAVIETERHAPLDPLHPAYVIYTSGSTGKPKGVV ASHESARNRVTAQLWINPPTQADVCCQKTSISFVDSVYELLLPLLGGAHVCIAPDEIGTDLQALLNFIEVHSVTRIVLVP SVAEKLLSLAEAKQKCNTLAVWTLSGEALESNLVATMRRAFPDASVFNLYGSSEIAADAVMHRISDVESEGSVPIGRPIS NTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLTAERFVADPFGEAGTRMYRTGDLVKWRSDGILDYLGRADEQ VKIRGFRIEPGEIEAALLSHPSVSQAVVIAREDSSGDKKLLGYVVSQSGSLIDAQALRQFLRDRLPDYMVPAAIIALDRL PLSPNGKLDRKALPSPTYEVSVGREPSTPQEELLCGLFAEVLGLNQVGIDDNFFDLGGHSLLATRLISRIRSTFSREVAI RTLFEAPTVAQLDRYLNKSDTARTALQKQMRPPRLPLSPAQRRLWLLDRIDGHSSTYNIPIALHLNGDIEISVLKSCLKD ILLRHESLATTFVEVEGIPHQEVVSADNLNIDIITKKIAHENLSTALVAAANYNFDLSIDVPIRPYLFQLGQNEYVLLIL LHHIAADGWSMFPLLRDLSASYNARSKGKEPEWTPLSVQYADYTLWHQDVLGSESDQDSLISKQIEYWREALKGLPDEIN LPVDRTRPAIESHRGAEVEFALSGELHAGLKALARNERVTLFMLFHSTLAALLYRLGAGTDIAIGSPVAGRMDAALEDLV GFFVNTLVFRIDTADNPTFRELCGRVRDITLDAYAHQDLPFERLVELLNPSRSLAKHPLFQVLLVLHNNLEANLAFDGVD ASIEKVNVTSAKFDLSFALREQFDADKAPAGIFGAIEYATDLFDRDTVEAFADRFIRLLEAIVSDPEQRLDEIDLLDPDE RHKVLVEWNDTRRPISEALLPELFQAQVARTPDAIALECEGEQISYAELEARANRMARYLIELGVGPETIVALALPRSID MVVSLLAVLKSGGAYLPLDPQYPTERLAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLERISAFSDSAVIETER HAPLDPLHPGYVIYTSGSTGKPKGVVVNHSGFTNYLLWAESYYPKNRGTGTPLTTSLAFDATVTSLYLPLLRGSRVILHA EGTEIERVQKDIAGGPLNYSLMKITPAHLDLFGSVVASDRLHEISNCLIVGGEALLSSHIKPWLTGGSPVKIFNEYGPTE TVVGCTVFMAGSDRQLAASVPIGRPISNTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLTAERFVADPFGEAG TRMYRTGDLVKWRSDGILDYLGRADEQVKIRGFRIEPGEIEAALLSHPSVSQAVVIAREDSPGDKKLLGYVVHNSHGLAP ADVRESKLAEWHELYENEYALPSDAPFGEDFRGWTNSYDGAPIPRQEMEDWREETVKRIIALNPSKVLEIGVGTGLILSR IAPLCDEYWGSDISGTAISKLASLLSAHDKLNEKVRLITAPAHDLSTMPLGYFDTIIINSVTQYFPELGYLTELLERLQG YLAPRGAIFIGDVRNHRLFRMFETAKQVRIAAPEDTPAIISERIERALQSPSELLIDPCYFEKLNSHAAVNMIADVRVKT GRFSNELTKYRYDVILNFPVPSSAAGPQINCVQFNSRHHDADVIGQLLEASQNALVLVGVPNQKLDEDRFVLATFRARVK PSNADSHTTAHPGGELLPVFQTLAQRYGRDLILRWNNESTTGAMDVAFVPAHISAQAVSGPSFPGNHDISSIPARISFAD DMAHELREYLEIFLPAHMLPASIIAVESIPLSPNGKVDRGSLPSPDLNPRKGSDPKTAIEHQLCQIFSDVLGIPEIGTDD DFFRLGGNSISVIRLISRARHEMLSLSPRDVFECKTVAKLAPRAAPAPQGKTAQNERGSPQMGLAPVAFDKLQDKWGGRS A
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, GI187761345, Length=528, Percent_Identity=25.3787878787879, Blast_Score=126, Evalue=4e-28, Organism=Homo sapiens, GI187761343, Length=528, Percent_Identity=25.3787878787879, Blast_Score=126, Evalue=4e-28, Organism=Homo sapiens, GI38505220, Length=505, Percent_Identity=23.1683168316832, Blast_Score=99, Evalue=1e-19, Organism=Homo sapiens, GI45580730, Length=444, Percent_Identity=27.027027027027, Blast_Score=99, Evalue=1e-19, Organism=Homo sapiens, GI156151445, Length=558, Percent_Identity=20.2508960573477, Blast_Score=97, Evalue=4e-19, Organism=Homo sapiens, GI42544132, Length=550, Percent_Identity=21.6363636363636, Blast_Score=87, Evalue=3e-16, Organism=Homo sapiens, GI122937307, Length=512, Percent_Identity=22.265625, Blast_Score=86, Evalue=9e-16, Organism=Homo sapiens, GI115511026, Length=451, Percent_Identity=22.1729490022173, Blast_Score=82, Evalue=1e-14, Organism=Homo sapiens, GI157311624, Length=481, Percent_Identity=22.2453222453222, Blast_Score=81, Evalue=2e-14, Organism=Homo sapiens, GI157311622, Length=481, Percent_Identity=22.2453222453222, Blast_Score=81, Evalue=2e-14, Organism=Homo sapiens, GI58082049, Length=481, Percent_Identity=22.4532224532225, Blast_Score=80, Evalue=5e-14, Organism=Escherichia coli, GI1786801, Length=987, Percent_Identity=32.3201621073962, Blast_Score=386, Evalue=1e-107, Organism=Escherichia coli, GI1788107, Length=541, Percent_Identity=24.5841035120148, Blast_Score=118, Evalue=7e-27, Organism=Escherichia coli, GI145693145, Length=552, Percent_Identity=24.6376811594203, Blast_Score=115, Evalue=7e-26, Organism=Escherichia coli, GI1786810, Length=506, Percent_Identity=26.4822134387352, Blast_Score=112, Evalue=4e-25, Organism=Escherichia coli, GI1786529, Length=585, Percent_Identity=23.2478632478632, Blast_Score=82, Evalue=6e-16, Organism=Escherichia coli, GI1788589, Length=151, Percent_Identity=30.4635761589404, Blast_Score=76, Evalue=4e-14, Organism=Escherichia coli, GI1789683, Length=305, Percent_Identity=24.2622950819672, Blast_Score=72, Evalue=8e-13, Organism=Caenorhabditis elegans, GI17550940, Length=1043, Percent_Identity=22.8187919463087, Blast_Score=177, Evalue=7e-44, Organism=Caenorhabditis elegans, GI17556356, Length=610, Percent_Identity=26.5573770491803, Blast_Score=160, Evalue=2e-38, Organism=Caenorhabditis elegans, GI17531443, Length=533, Percent_Identity=24.015009380863, Blast_Score=113, Evalue=2e-24, Organism=Caenorhabditis elegans, GI17538037, Length=524, Percent_Identity=25.381679389313, Blast_Score=108, Evalue=5e-23, Organism=Caenorhabditis elegans, GI17557194, Length=552, Percent_Identity=24.0942028985507, Blast_Score=99, Evalue=4e-20, Organism=Caenorhabditis elegans, GI17558820, Length=497, Percent_Identity=25.3521126760563, Blast_Score=97, Evalue=1e-19, Organism=Caenorhabditis elegans, GI17560140, Length=497, Percent_Identity=21.5291750503018, Blast_Score=87, Evalue=1e-16, Organism=Caenorhabditis elegans, GI71994690, Length=352, Percent_Identity=23.5795454545455, Blast_Score=87, Evalue=1e-16, Organism=Caenorhabditis elegans, GI71994694, Length=352, Percent_Identity=23.5795454545455, Blast_Score=87, Evalue=2e-16, Organism=Caenorhabditis elegans, GI71994703, Length=352, Percent_Identity=23.5795454545455, Blast_Score=87, Evalue=2e-16, Organism=Caenorhabditis elegans, GI32563687, Length=478, Percent_Identity=23.0125523012552, Blast_Score=86, Evalue=5e-16, Organism=Caenorhabditis elegans, GI17559526, Length=545, Percent_Identity=22.7522935779817, Blast_Score=86, Evalue=5e-16, Organism=Caenorhabditis elegans, GI71985884, Length=367, Percent_Identity=24.2506811989101, Blast_Score=78, Evalue=8e-14, Organism=Caenorhabditis elegans, GI17560308, Length=369, Percent_Identity=23.3062330623306, Blast_Score=74, Evalue=1e-12, Organism=Saccharomyces cerevisiae, GI6319591, Length=747, Percent_Identity=25.1673360107095, Blast_Score=214, Evalue=3e-55, Organism=Saccharomyces cerevisiae, GI6319699, Length=481, Percent_Identity=22.037422037422, Blast_Score=95, Evalue=2e-19, Organism=Drosophila melanogaster, GI24648676, Length=610, Percent_Identity=32.1311475409836, Blast_Score=262, Evalue=4e-69, Organism=Drosophila melanogaster, GI19922652, Length=502, Percent_Identity=25.2988047808765, Blast_Score=105, Evalue=6e-22, Organism=Drosophila melanogaster, GI24581924, Length=528, Percent_Identity=22.7272727272727, Blast_Score=91, Evalue=2e-17, Organism=Drosophila melanogaster, GI24648253, Length=534, Percent_Identity=22.2846441947566, Blast_Score=86, Evalue=5e-16, Organism=Drosophila melanogaster, GI24648255, Length=534, Percent_Identity=22.4719101123595, Blast_Score=86, Evalue=5e-16, Organism=Drosophila melanogaster, GI18859661, Length=506, Percent_Identity=20.9486166007905, Blast_Score=82, Evalue=9e-15, Organism=Drosophila melanogaster, GI21356947, Length=490, Percent_Identity=20.2040816326531, Blast_Score=82, Evalue=1e-14, Organism=Drosophila melanogaster, GI21355181, Length=512, Percent_Identity=23.2421875, Blast_Score=81, Evalue=2e-14, Organism=Drosophila melanogaster, GI24582852, Length=514, Percent_Identity=25.875486381323, Blast_Score=80, Evalue=3e-14, Organism=Drosophila melanogaster, GI21356441, Length=528, Percent_Identity=22.3484848484848, Blast_Score=76, Evalue=4e-13, Organism=Drosophila melanogaster, GI161076582, Length=502, Percent_Identity=21.3147410358566, Blast_Score=76, Evalue=4e-13, Organism=Drosophila melanogaster, GI24653035, Length=498, Percent_Identity=21.4859437751004, Blast_Score=76, Evalue=4e-13, Organism=Drosophila melanogaster, GI24656500, Length=511, Percent_Identity=20.7436399217221, Blast_Score=76, Evalue=5e-13, Organism=Drosophila melanogaster, GI24648257, Length=531, Percent_Identity=22.5988700564972, Blast_Score=73, Evalue=5e-12, Organism=Drosophila melanogaster, GI24667955, Length=366, Percent_Identity=25.9562841530055, Blast_Score=73, Evalue=5e-12, Organism=Drosophila melanogaster, GI62472339, Length=366, Percent_Identity=25.9562841530055, Blast_Score=73, Evalue=5e-12, Organism=Drosophila melanogaster, GI24667959, Length=366, Percent_Identity=25.9562841530055, Blast_Score=72, Evalue=5e-12, Organism=Drosophila melanogaster, GI24648260, Length=514, Percent_Identity=23.1517509727626, Blast_Score=69, Evalue=8e-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: 413683; Mature: 413683
Theoretical pI: Translated: 5.27; Mature: 5.27
Prosite motif: PS00012 PHOSPHOPANTETHEINE ; PS50075 ACP_DOMAIN ; PS00455 AMP_BINDING
Important sites: NA
Signals:
None
Transmembrane regions:
None
Cys/Met content:
0.9 %Cys (Translated Protein) 1.3 %Met (Translated Protein) 2.2 %Cys+Met (Translated Protein) 0.9 %Cys (Mature Protein) 1.3 %Met (Mature Protein) 2.2 %Cys+Met (Mature Protein)
Secondary structure:
>Translated Secondary Structure MFNRQVSAIARDAQDPSESTRIRSCIIAGEGTLAIRCAQHLMDSGHHLKGVLTSEKVLAD CCCCHHHHHHHCCCCCCHHHHHHEEEEECCCCHHHHHHHHHHCCCCCEEEEHHHHHHHHH WVYAKNITVLRSVEELATLLLDEGPVDWLFSIVNPILLPPNVIARVKGGAFNYHDAPLPR HHHHCCHHHHHHHHHHHHHHHCCCCHHHHHHHHCCCCCCCHHHHEECCCCCCCCCCCCCC YAGVHATSWAILAEERDYAISWHRISNFVDAGDIVLQRAVPIVDDDTALSLNLKCYQAAA CCCCCCCEEEEEECCCCCEEEHHHHHHHCCHHHHHHHHCCCEECCCCEEEEEEHHHHHHH GAFEELISRLTHGKVESYQQDLSQRTFFSRHDRPEADGILQFNRQAKQLSATVRALSFGP HHHHHHHHHHHCCHHHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHHHCCCC YRINTFCRPKLLVADIALGVGALDVLDERSTEPPGTVICVDHKGWRISTFDHDILVRNLV EEECCCCCCHHHHHHHHHCCCHHHHHHCCCCCCCCEEEEECCCCCEEECCCHHHHHHEEE VLETDEDVSPQILAAELEIEPGTQLPILSESEMSRLRRLHIETSKNNSFWQKRLAHANST EEECCCCCCCCEEEEEEEECCCCCCCCCCHHHHHHHHHHEEEECCCCHHHHHHHHCCCCC SLPFAPSWAEQGRERWRASAWHVLQAFDAIPLETSGSYILTSWLVYLSRVTGKSTIETGW CCCCCCCHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHHHHHHHHHHCCCCEECCCC AWQPDDSSSAAVRATLADVVPLQLNVGWVESFDSVRSALSSECATVRVKNTFAKDTFPSK CCCCCCCCCHHHHHHHHHHEEEEEECHHHHHHHHHHHHHHCCCEEEEEECCCCCCCCCCC TNLRSSKILRPRRAWDTAVELVDSEVLPQDHPKANVVTFQVDPRKRSFRLIYNAERLSPA CCCCHHHCCCCHHHHHHHHHHHHHHCCCCCCCCCCEEEEEECCCCCCEEEEEECCCCCCC DVDRITEHLIVLSRSIMTPGNEFVPAHGLEILSRQETELVLEGWNETSVDFPSERCIHQL HHHHHHHHHHHHHHHHCCCCCCCCCCCCHHHHCCCCHHHEEECCCCCCCCCCHHHHHHHH FERQVAETPDVVAVEQDGISVTYAELNAKANILADKIRMRMTRPDNIVAICVERRIYMIT HHHHHHCCCCEEEEECCCCEEEEEECCCCHHHHHHHHHHHCCCCCCEEEEEEHHHHHHHH AFIAVVKAGATYLPLDPTNPPEHIADTVADAGAVLILTDTVGAKALSAAVAEGPHTLDIG HHHHHHHCCCEEECCCCCCCHHHHHHHHHCCCEEEEEECCCCHHHHHHHHHCCCCEEECC EAMSAKHPAEIDLVSGFPLIAPSQLAYVIYTSGSTGKPKGVMIEHAGLVNLATWHIKTFG HHHCCCCCCCEEEECCCCCCCCCCEEEEEEECCCCCCCCCEEEECCCEEEEEEEEEEEEC LKTGSRCTLMSRPVFDASVWEMWPALCSGATLVLPPVNLLDDVDVLLKWWHQQDLHVSFL CCCCCEEEEECCCCCCHHHHHHHHHHHCCCEEEECCCHHHHHHHHHHHHHCCCCCCHHHH STPLASIAFQENLTNPNLQSLLVGGDQLRSVPPTLPPKLTLVNNYGPTEATVVATSGEVR HHHHHHHHHHHCCCCCCHHHHEECCHHHCCCCCCCCCCEEEEECCCCCCEEEEEECCCCC AGEPVLTIGRPIANTRAYVLDEYLQPVPHGVVGEIYISGAGVARGYLGRAGLTAEHFVAD CCCCEEEECCCCCCHHHHHHHHHHHHCCCCCEEEEEEECCCHHHHHCCCCCCCHHHHHCC PFSRVAGKRMYKTGDLGRHLPDGRLHFIGRNDDQIKIRGFRLEPGEIQRQLCEHAGVRDA HHHHHHHHHHHCCCCCCCCCCCCCEEEEECCCCEEEEEEEECCHHHHHHHHHHHCCCCCE LVIKHDSHELNDYLAAYIVPEQKTLTAGADELRAYLRGYLPEYMVPATFTFLETFPLTQN EEEECCCHHHHHHEEEEECCCCCEECCCHHHHHHHHHHHCCHHHCCHHHHHHHHCCCCCC GKIDRKALPSPIEDPVSRPPYEAPSGHIEQLLATTWQDLLCITRIGTQDNFFELGGHSLL CCCCHHHCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHCCCCCCCEECCCCEEE AVKVQARLRQEGLNLKTSDLFSFPTIASLAGKVADADPVLVDHSKIDPNSPLMPSDLPLI EEEHHHHHHHCCCCCCHHHHCCCCHHHHHHCCCCCCCCEEEECCCCCCCCCCCCCCCCEE DLSKIDIDRIVERAPGGKGNIQDIYALSPLQDGILFHHMLGGIGDAYLLLDLIGFRERVI ECCCCCHHHHHHHCCCCCCCCCEEEEECCHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHH LQRYVEAVQTVVDRHEILRTGFMWHGLTTPAQFVLRKADISVEYVDLDPSAGLAVDQLIE HHHHHHHHHHHHHHHHHHHHCCHHCCCCCHHHHHHHHCCCEEEEEECCCCCCHHHHHHHH RYDPRTYRLDLSEPPLMRFFATRDFQTGHWLLLQLFHHLIADHTTLEILHSEVREIMGGS HCCCCEEEEECCCCCHHHHHHCCCCCCCHHHHHHHHHHHHCCCHHHHHHHHHHHHHHCCC GSNLPPATPYRNLIAQTRLRAADDEHHRHFFRSMLADIEDPSAPFDMVDVYNDGKDVTES CCCCCCCCHHHHHHHHHHHHCCCCHHHHHHHHHHHHCCCCCCCCCCEEEEECCCHHHHHH VVTLSVDLDRRLRRHARQLGVSLASICHVAWGIVVARTCGRDAAVFGTVLLGRNQAGGEV HEEEEECHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHEECCCCCCCHH DRAMGLFINTLPIRVDLDAVSVGDGICRTHSLLSELMQHEYASLTLAQGCSSVPASIPLF HHHHHHHHEEEEEEEEECCEECCCHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCHHHH SSLINYRHNDPLQHQADLGCGIERLKFEERTSYPITLSVDDTGVSLGLTVQAVPPVVPGT HHHHHCCCCCCCCHHHHCCCCHHHHHHHCCCCCCEEEEECCCCEEEEEEEEECCCCCCCC LSGYMVEALSQIASALEETASVALERLDICDQRTRHKVLVEWNDTRRPISEALLPELFQA HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCEEEEEECCCCCHHHHHHHHHHHHH QVARTPDAIAVEYEGEQISYAELEARANRMARYLIELGVGPETIVALALPRSIDMVVSLL HHHCCCCEEEEEECCCCCCHHHHHHHHHHHHHHHHHHCCCHHHEEEEECCCHHHHHHHHH AVLKSGGAYLPLDPQYPTERLAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLER HHHHCCCCEECCCCCCCHHHEEEEEECCCCCEEEEEEHHHHHCCCCCCEEEEECCCHHHH ISAFSDSAVIETERHAPLDPLHPAYVIYTSGSTGKPKGVVASHESARNRVTAQLWINPPT HHHCCCCCEEEECCCCCCCCCCCEEEEEECCCCCCCCCEEECCHHHCCCEEEEEEECCCC QADVCCQKTSISFVDSVYELLLPLLGGAHVCIAPDEIGTDLQALLNFIEVHSVTRIVLVP CHHHHHHHCHHHHHHHHHHHHHHHHCCCEEEECCHHHCHHHHHHHHHHHHHHHHEEEEEH SVAEKLLSLAEAKQKCNTLAVWTLSGEALESNLVATMRRAFPDASVFNLYGSSEIAADAV HHHHHHHHHHHHHHCCCEEEEEEECCHHHHHHHHHHHHHHCCCCCEEEECCCCHHHHHHH MHRISDVESEGSVPIGRPISNTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLT HHHHHCCCCCCCCCCCCCCCCCEEEEEECCHHHCCCCCCEEHEEECCHHHHHHHCCCCCC AERFVADPFGEAGTRMYRTGDLVKWRSDGILDYLGRADEQVKIRGFRIEPGEIEAALLSH HHHHHCCCCCCCCCEEEECCCEEEECCCCHHHHHCCCCCEEEEEEEEECCCCHHHHHHCC PSVSQAVVIAREDSSGDKKLLGYVVSQSGSLIDAQALRQFLRDRLPDYMVPAAIIALDRL CCCCCEEEEEECCCCCCHHHHHHHHHCCCCEECHHHHHHHHHHCCCCHHHHHHHHHHHCC PLSPNGKLDRKALPSPTYEVSVGREPSTPQEELLCGLFAEVLGLNQVGIDDNFFDLGGHS CCCCCCCCCCCCCCCCCEEEEECCCCCCCHHHHHHHHHHHHHCCCCCCCCCCCCCCCCHH LLATRLISRIRSTFSREVAIRTLFEAPTVAQLDRYLNKSDTARTALQKQMRPPRLPLSPA HHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHCCCHHHHHHHHHHCCCCCCCCCHH QRRLWLLDRIDGHSSTYNIPIALHLNGDIEISVLKSCLKDILLRHESLATTFVEVEGIPH HHHEEEEEECCCCCCEEEEEEEEEECCCEEHHHHHHHHHHHHHHHHHHHEEEEEECCCCH QEVVSADNLNIDIITKKIAHENLSTALVAAANYNFDLSIDVPIRPYLFQLGQNEYVLLIL HHHHCCCCCCEEEEEHHHHHCCCCEEEEEEECCCEEEEECCCCHHHHHHCCCCCEEEEHH LHHIAADGWSMFPLLRDLSASYNARSKGKEPEWTPLSVQYADYTLWHQDVLGSESDQDSL HHHHHCCCCHHHHHHHHHHCCCCCCCCCCCCCCCEEEEEECCEEEEHHHHCCCCCCHHHH ISKQIEYWREALKGLPDEINLPVDRTRPAIESHRGAEVEFALSGELHAGLKALARNERVT HHHHHHHHHHHHHCCCCCCCCCCCCCCCHHHHCCCCEEEEEECCCHHHHHHHHHCCCCEE LFMLFHSTLAALLYRLGAGTDIAIGSPVAGRMDAALEDLVGFFVNTLVFRIDTADNPTFR EEHHHHHHHHHHHHHHCCCCCEEECCCCCCHHHHHHHHHHHHHHHHHEEEEECCCCCHHH ELCGRVRDITLDAYAHQDLPFERLVELLNPSRSLAKHPLFQVLLVLHNNLEANLAFDGVD HHHHHHHEEEEEHHHCCCCCHHHHHHHHCCCHHHHHHHHHHHHHHHHCCCCCEEEECCCC ASIEKVNVTSAKFDLSFALREQFDADKAPAGIFGAIEYATDLFDRDTVEAFADRFIRLLE CCCEEEEEEEEEEEHHHHHHHHCCCCCCCCCHHHHHHHHHHHHCCHHHHHHHHHHHHHHH AIVSDPEQRLDEIDLLDPDERHKVLVEWNDTRRPISEALLPELFQAQVARTPDAIALECE HHHCCHHHHHHHCCCCCCCCCCEEEEEECCCCCHHHHHHHHHHHHHHHHCCCCCEEEEEC GEQISYAELEARANRMARYLIELGVGPETIVALALPRSIDMVVSLLAVLKSGGAYLPLDP CCCCCHHHHHHHHHHHHHHHHHHCCCHHHEEEEECCCHHHHHHHHHHHHHCCCCEECCCC QYPTERLAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLERISAFSDSAVIETER CCCHHHEEEEEECCCCCEEEEEEHHHHHCCCCCCEEEEECCCHHHHHHHCCCCCEEEECC HAPLDPLHPGYVIYTSGSTGKPKGVVVNHSGFTNYLLWAESYYPKNRGTGTPLTTSLAFD CCCCCCCCCCEEEEECCCCCCCCCEEEECCCCCEEEEEECCCCCCCCCCCCCEEEEEEHH ATVTSLYLPLLRGSRVILHAEGTEIERVQKDIAGGPLNYSLMKITPAHLDLFGSVVASDR HHHHHHHHHHHCCCEEEEEECCCHHHHHHHHHCCCCCCEEEEEECHHHHHHHHHHHHHHH LHEISNCLIVGGEALLSSHIKPWLTGGSPVKIFNEYGPTETVVGCTVFMAGSDRQLAASV HHHHCCEEEECCHHHHHHCCCCEECCCCCEEEECCCCCCCEEEEEEEEEECCCCEEEECC PIGRPISNTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLTAERFVADPFGEAG CCCCCCCCCEEEEEECCHHHCCCCCCEEHEEECCHHHHHHHCCCCCCHHHHHCCCCCCCC TRMYRTGDLVKWRSDGILDYLGRADEQVKIRGFRIEPGEIEAALLSHPSVSQAVVIARED CEEEECCCEEEECCCCHHHHHCCCCCEEEEEEEEECCCCHHHHHHCCCCCCCEEEEEECC SPGDKKLLGYVVHNSHGLAPADVRESKLAEWHELYENEYALPSDAPFGEDFRGWTNSYDG CCCCCCEEEEEEECCCCCCCCHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCC APIPRQEMEDWREETVKRIIALNPSKVLEIGVGTGLILSRIAPLCDEYWGSDISGTAISK CCCCHHHHHHHHHHHHHHHHHCCCHHEEEEECCHHHHHHHHHHHHHHHCCCCCCHHHHHH LASLLSAHDKLNEKVRLITAPAHDLSTMPLGYFDTIIINSVTQYFPELGYLTELLERLQG HHHHHHHHHHHCCCEEEEEECCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHH YLAPRGAIFIGDVRNHRLFRMFETAKQVRIAAPEDTPAIISERIERALQSPSELLIDPCY HCCCCCEEEEECCCCCHHHHHHHHHHHEEEECCCCCHHHHHHHHHHHHCCCHHHEECHHH FEKLNSHAAVNMIADVRVKTGRFSNELTKYRYDVILNFPVPSSAAGPQINCVQFNSRHHD HHHHCCCHHEEEHEEEEEECCCCHHHHHHEEEEEEEECCCCCCCCCCEEEEEEECCCCCC ADVIGQLLEASQNALVLVGVPNQKLDEDRFVLATFRARVKPSNADSHTTAHPGGELLPVF HHHHHHHHHCCCCCEEEEECCCCCCCCCCEEEEEHHHHCCCCCCCCCCCCCCCCCHHHHH QTLAQRYGRDLILRWNNESTTGAMDVAFVPAHISAQAVSGPSFPGNHDISSIPARISFAD HHHHHHCCCEEEEEECCCCCCCCEEEEEECCCCEEEECCCCCCCCCCCCCCCCCEEEHHH DMAHELREYLEIFLPAHMLPASIIAVESIPLSPNGKVDRGSLPSPDLNPRKGSDPKTAIE HHHHHHHHHHHHHHHHHHCCHHHEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHH HQLCQIFSDVLGIPEIGTDDDFFRLGGNSISVIRLISRARHEMLSLSPRDVFECKTVAKL HHHHHHHHHHHCCCCCCCCCCCEEECCCCHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHH APRAAPAPQGKTAQNERGSPQMGLAPVAFDKLQDKWGGRSA CCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHCCCCCC >Mature Secondary Structure MFNRQVSAIARDAQDPSESTRIRSCIIAGEGTLAIRCAQHLMDSGHHLKGVLTSEKVLAD CCCCHHHHHHHCCCCCCHHHHHHEEEEECCCCHHHHHHHHHHCCCCCEEEEHHHHHHHHH WVYAKNITVLRSVEELATLLLDEGPVDWLFSIVNPILLPPNVIARVKGGAFNYHDAPLPR HHHHCCHHHHHHHHHHHHHHHCCCCHHHHHHHHCCCCCCCHHHHEECCCCCCCCCCCCCC YAGVHATSWAILAEERDYAISWHRISNFVDAGDIVLQRAVPIVDDDTALSLNLKCYQAAA CCCCCCCEEEEEECCCCCEEEHHHHHHHCCHHHHHHHHCCCEECCCCEEEEEEHHHHHHH GAFEELISRLTHGKVESYQQDLSQRTFFSRHDRPEADGILQFNRQAKQLSATVRALSFGP HHHHHHHHHHHCCHHHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHHHCCCC YRINTFCRPKLLVADIALGVGALDVLDERSTEPPGTVICVDHKGWRISTFDHDILVRNLV EEECCCCCCHHHHHHHHHCCCHHHHHHCCCCCCCCEEEEECCCCCEEECCCHHHHHHEEE VLETDEDVSPQILAAELEIEPGTQLPILSESEMSRLRRLHIETSKNNSFWQKRLAHANST EEECCCCCCCCEEEEEEEECCCCCCCCCCHHHHHHHHHHEEEECCCCHHHHHHHHCCCCC SLPFAPSWAEQGRERWRASAWHVLQAFDAIPLETSGSYILTSWLVYLSRVTGKSTIETGW CCCCCCCHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHHHHHHHHHHCCCCEECCCC AWQPDDSSSAAVRATLADVVPLQLNVGWVESFDSVRSALSSECATVRVKNTFAKDTFPSK CCCCCCCCCHHHHHHHHHHEEEEEECHHHHHHHHHHHHHHCCCEEEEEECCCCCCCCCCC TNLRSSKILRPRRAWDTAVELVDSEVLPQDHPKANVVTFQVDPRKRSFRLIYNAERLSPA CCCCHHHCCCCHHHHHHHHHHHHHHCCCCCCCCCCEEEEEECCCCCCEEEEEECCCCCCC DVDRITEHLIVLSRSIMTPGNEFVPAHGLEILSRQETELVLEGWNETSVDFPSERCIHQL HHHHHHHHHHHHHHHHCCCCCCCCCCCCHHHHCCCCHHHEEECCCCCCCCCCHHHHHHHH FERQVAETPDVVAVEQDGISVTYAELNAKANILADKIRMRMTRPDNIVAICVERRIYMIT HHHHHHCCCCEEEEECCCCEEEEEECCCCHHHHHHHHHHHCCCCCCEEEEEEHHHHHHHH AFIAVVKAGATYLPLDPTNPPEHIADTVADAGAVLILTDTVGAKALSAAVAEGPHTLDIG HHHHHHHCCCEEECCCCCCCHHHHHHHHHCCCEEEEEECCCCHHHHHHHHHCCCCEEECC EAMSAKHPAEIDLVSGFPLIAPSQLAYVIYTSGSTGKPKGVMIEHAGLVNLATWHIKTFG HHHCCCCCCCEEEECCCCCCCCCCEEEEEEECCCCCCCCCEEEECCCEEEEEEEEEEEEC LKTGSRCTLMSRPVFDASVWEMWPALCSGATLVLPPVNLLDDVDVLLKWWHQQDLHVSFL CCCCCEEEEECCCCCCHHHHHHHHHHHCCCEEEECCCHHHHHHHHHHHHHCCCCCCHHHH STPLASIAFQENLTNPNLQSLLVGGDQLRSVPPTLPPKLTLVNNYGPTEATVVATSGEVR HHHHHHHHHHHCCCCCCHHHHEECCHHHCCCCCCCCCCEEEEECCCCCCEEEEEECCCCC AGEPVLTIGRPIANTRAYVLDEYLQPVPHGVVGEIYISGAGVARGYLGRAGLTAEHFVAD CCCCEEEECCCCCCHHHHHHHHHHHHCCCCCEEEEEEECCCHHHHHCCCCCCCHHHHHCC PFSRVAGKRMYKTGDLGRHLPDGRLHFIGRNDDQIKIRGFRLEPGEIQRQLCEHAGVRDA HHHHHHHHHHHCCCCCCCCCCCCCEEEEECCCCEEEEEEEECCHHHHHHHHHHHCCCCCE LVIKHDSHELNDYLAAYIVPEQKTLTAGADELRAYLRGYLPEYMVPATFTFLETFPLTQN EEEECCCHHHHHHEEEEECCCCCEECCCHHHHHHHHHHHCCHHHCCHHHHHHHHCCCCCC GKIDRKALPSPIEDPVSRPPYEAPSGHIEQLLATTWQDLLCITRIGTQDNFFELGGHSLL CCCCHHHCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHCCCCCCCEECCCCEEE AVKVQARLRQEGLNLKTSDLFSFPTIASLAGKVADADPVLVDHSKIDPNSPLMPSDLPLI EEEHHHHHHHCCCCCCHHHHCCCCHHHHHHCCCCCCCCEEEECCCCCCCCCCCCCCCCEE DLSKIDIDRIVERAPGGKGNIQDIYALSPLQDGILFHHMLGGIGDAYLLLDLIGFRERVI ECCCCCHHHHHHHCCCCCCCCCEEEEECCHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHH LQRYVEAVQTVVDRHEILRTGFMWHGLTTPAQFVLRKADISVEYVDLDPSAGLAVDQLIE HHHHHHHHHHHHHHHHHHHHCCHHCCCCCHHHHHHHHCCCEEEEEECCCCCCHHHHHHHH RYDPRTYRLDLSEPPLMRFFATRDFQTGHWLLLQLFHHLIADHTTLEILHSEVREIMGGS HCCCCEEEEECCCCCHHHHHHCCCCCCCHHHHHHHHHHHHCCCHHHHHHHHHHHHHHCCC GSNLPPATPYRNLIAQTRLRAADDEHHRHFFRSMLADIEDPSAPFDMVDVYNDGKDVTES CCCCCCCCHHHHHHHHHHHHCCCCHHHHHHHHHHHHCCCCCCCCCCEEEEECCCHHHHHH VVTLSVDLDRRLRRHARQLGVSLASICHVAWGIVVARTCGRDAAVFGTVLLGRNQAGGEV HEEEEECHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHEECCCCCCCHH DRAMGLFINTLPIRVDLDAVSVGDGICRTHSLLSELMQHEYASLTLAQGCSSVPASIPLF HHHHHHHHEEEEEEEEECCEECCCHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCHHHH SSLINYRHNDPLQHQADLGCGIERLKFEERTSYPITLSVDDTGVSLGLTVQAVPPVVPGT HHHHHCCCCCCCCHHHHCCCCHHHHHHHCCCCCCEEEEECCCCEEEEEEEEECCCCCCCC LSGYMVEALSQIASALEETASVALERLDICDQRTRHKVLVEWNDTRRPISEALLPELFQA HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCEEEEEECCCCCHHHHHHHHHHHHH QVARTPDAIAVEYEGEQISYAELEARANRMARYLIELGVGPETIVALALPRSIDMVVSLL HHHCCCCEEEEEECCCCCCHHHHHHHHHHHHHHHHHHCCCHHHEEEEECCCHHHHHHHHH AVLKSGGAYLPLDPQYPTERLAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLER HHHHCCCCEECCCCCCCHHHEEEEEECCCCCEEEEEEHHHHHCCCCCCEEEEECCCHHHH ISAFSDSAVIETERHAPLDPLHPAYVIYTSGSTGKPKGVVASHESARNRVTAQLWINPPT HHHCCCCCEEEECCCCCCCCCCCEEEEEECCCCCCCCCEEECCHHHCCCEEEEEEECCCC QADVCCQKTSISFVDSVYELLLPLLGGAHVCIAPDEIGTDLQALLNFIEVHSVTRIVLVP CHHHHHHHCHHHHHHHHHHHHHHHHCCCEEEECCHHHCHHHHHHHHHHHHHHHHEEEEEH SVAEKLLSLAEAKQKCNTLAVWTLSGEALESNLVATMRRAFPDASVFNLYGSSEIAADAV HHHHHHHHHHHHHHCCCEEEEEEECCHHHHHHHHHHHHHHCCCCCEEEECCCCHHHHHHH MHRISDVESEGSVPIGRPISNTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLT HHHHHCCCCCCCCCCCCCCCCCEEEEEECCHHHCCCCCCEEHEEECCHHHHHHHCCCCCC AERFVADPFGEAGTRMYRTGDLVKWRSDGILDYLGRADEQVKIRGFRIEPGEIEAALLSH HHHHHCCCCCCCCCEEEECCCEEEECCCCHHHHHCCCCCEEEEEEEEECCCCHHHHHHCC PSVSQAVVIAREDSSGDKKLLGYVVSQSGSLIDAQALRQFLRDRLPDYMVPAAIIALDRL CCCCCEEEEEECCCCCCHHHHHHHHHCCCCEECHHHHHHHHHHCCCCHHHHHHHHHHHCC PLSPNGKLDRKALPSPTYEVSVGREPSTPQEELLCGLFAEVLGLNQVGIDDNFFDLGGHS CCCCCCCCCCCCCCCCCEEEEECCCCCCCHHHHHHHHHHHHHCCCCCCCCCCCCCCCCHH LLATRLISRIRSTFSREVAIRTLFEAPTVAQLDRYLNKSDTARTALQKQMRPPRLPLSPA HHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHCCCHHHHHHHHHHCCCCCCCCCHH QRRLWLLDRIDGHSSTYNIPIALHLNGDIEISVLKSCLKDILLRHESLATTFVEVEGIPH HHHEEEEEECCCCCCEEEEEEEEEECCCEEHHHHHHHHHHHHHHHHHHHEEEEEECCCCH QEVVSADNLNIDIITKKIAHENLSTALVAAANYNFDLSIDVPIRPYLFQLGQNEYVLLIL HHHHCCCCCCEEEEEHHHHHCCCCEEEEEEECCCEEEEECCCCHHHHHHCCCCCEEEEHH LHHIAADGWSMFPLLRDLSASYNARSKGKEPEWTPLSVQYADYTLWHQDVLGSESDQDSL HHHHHCCCCHHHHHHHHHHCCCCCCCCCCCCCCCEEEEEECCEEEEHHHHCCCCCCHHHH ISKQIEYWREALKGLPDEINLPVDRTRPAIESHRGAEVEFALSGELHAGLKALARNERVT HHHHHHHHHHHHHCCCCCCCCCCCCCCCHHHHCCCCEEEEEECCCHHHHHHHHHCCCCEE LFMLFHSTLAALLYRLGAGTDIAIGSPVAGRMDAALEDLVGFFVNTLVFRIDTADNPTFR EEHHHHHHHHHHHHHHCCCCCEEECCCCCCHHHHHHHHHHHHHHHHHEEEEECCCCCHHH ELCGRVRDITLDAYAHQDLPFERLVELLNPSRSLAKHPLFQVLLVLHNNLEANLAFDGVD HHHHHHHEEEEEHHHCCCCCHHHHHHHHCCCHHHHHHHHHHHHHHHHCCCCCEEEECCCC ASIEKVNVTSAKFDLSFALREQFDADKAPAGIFGAIEYATDLFDRDTVEAFADRFIRLLE CCCEEEEEEEEEEEHHHHHHHHCCCCCCCCCHHHHHHHHHHHHCCHHHHHHHHHHHHHHH AIVSDPEQRLDEIDLLDPDERHKVLVEWNDTRRPISEALLPELFQAQVARTPDAIALECE HHHCCHHHHHHHCCCCCCCCCCEEEEEECCCCCHHHHHHHHHHHHHHHHCCCCCEEEEEC GEQISYAELEARANRMARYLIELGVGPETIVALALPRSIDMVVSLLAVLKSGGAYLPLDP CCCCCHHHHHHHHHHHHHHHHHHCCCHHHEEEEECCCHHHHHHHHHHHHHCCCCEECCCC QYPTERLAFMVADAQPATVIAVASTAEKLPEDAPLLLLDDAGVLERISAFSDSAVIETER CCCHHHEEEEEECCCCCEEEEEEHHHHHCCCCCCEEEEECCCHHHHHHHCCCCCEEEECC HAPLDPLHPGYVIYTSGSTGKPKGVVVNHSGFTNYLLWAESYYPKNRGTGTPLTTSLAFD CCCCCCCCCCEEEEECCCCCCCCCEEEECCCCCEEEEEECCCCCCCCCCCCCEEEEEEHH ATVTSLYLPLLRGSRVILHAEGTEIERVQKDIAGGPLNYSLMKITPAHLDLFGSVVASDR HHHHHHHHHHHCCCEEEEEECCCHHHHHHHHHCCCCCCEEEEEECHHHHHHHHHHHHHHH LHEISNCLIVGGEALLSSHIKPWLTGGSPVKIFNEYGPTETVVGCTVFMAGSDRQLAASV HHHHCCEEEECCHHHHHHCCCCEECCCCCEEEECCCCCCCEEEEEEEEEECCCCEEEECC PIGRPISNTFVYVLNDTLQLVPPGVVGELYIAGAGLARGYLRRPGLTAERFVADPFGEAG CCCCCCCCCEEEEEECCHHHCCCCCCEEHEEECCHHHHHHHCCCCCCHHHHHCCCCCCCC TRMYRTGDLVKWRSDGILDYLGRADEQVKIRGFRIEPGEIEAALLSHPSVSQAVVIARED CEEEECCCEEEECCCCHHHHHCCCCCEEEEEEEEECCCCHHHHHHCCCCCCCEEEEEECC SPGDKKLLGYVVHNSHGLAPADVRESKLAEWHELYENEYALPSDAPFGEDFRGWTNSYDG CCCCCCEEEEEEECCCCCCCCHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCC APIPRQEMEDWREETVKRIIALNPSKVLEIGVGTGLILSRIAPLCDEYWGSDISGTAISK CCCCHHHHHHHHHHHHHHHHHCCCHHEEEEECCHHHHHHHHHHHHHHHCCCCCCHHHHHH LASLLSAHDKLNEKVRLITAPAHDLSTMPLGYFDTIIINSVTQYFPELGYLTELLERLQG HHHHHHHHHHHCCCEEEEEECCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHH YLAPRGAIFIGDVRNHRLFRMFETAKQVRIAAPEDTPAIISERIERALQSPSELLIDPCY HCCCCCEEEEECCCCCHHHHHHHHHHHEEEECCCCCHHHHHHHHHHHHCCCHHHEECHHH FEKLNSHAAVNMIADVRVKTGRFSNELTKYRYDVILNFPVPSSAAGPQINCVQFNSRHHD HHHHCCCHHEEEHEEEEEECCCCHHHHHHEEEEEEEECCCCCCCCCCEEEEEEECCCCCC ADVIGQLLEASQNALVLVGVPNQKLDEDRFVLATFRARVKPSNADSHTTAHPGGELLPVF HHHHHHHHHCCCCCEEEEECCCCCCCCCCEEEEEHHHHCCCCCCCCCCCCCCCCCHHHHH QTLAQRYGRDLILRWNNESTTGAMDVAFVPAHISAQAVSGPSFPGNHDISSIPARISFAD HHHHHHCCCEEEEEECCCCCCCCEEEEEECCCCEEEECCCCCCCCCCCCCCCCCEEEHHH DMAHELREYLEIFLPAHMLPASIIAVESIPLSPNGKVDRGSLPSPDLNPRKGSDPKTAIE HHHHHHHHHHHHHHHHHHCCHHHEEEEECCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHH HQLCQIFSDVLGIPEIGTDDDFFRLGGNSISVIRLISRARHEMLSLSPRDVFECKTVAKL HHHHHHHHHHHCCCCCCCCCCCEEECCCCHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHH APRAAPAPQGKTAQNERGSPQMGLAPVAFDKLQDKWGGRSA CCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHHCCCCCC
PDB accession: NA
Resolution: NA
Structure class: Alpha Beta
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]