BacMap

Definition	Corynebacterium diphtheriae NCTC 13129 chromosome, complete genome.
Accession	NC_002935
Length	2,488,635

Click here to switch to the map view.

The map label for this gene is eryA [H]

Identifier: 38234703

GI number: 38234703

Start: 2221492

End: 2229396

Strand: Reverse

Name: eryA [H]

Synonym: DIP2160

Alternate gene names: 38234703

Gene position: 2229396-2221492 (Counterclockwise)

Preceding gene: 38234704

Following gene: 38234702

Centisome position: 89.58

GC content: 59.08

Gene sequence:

>7905_bases
ATGACCACATTCGCATCAACAGACATCGCTGTGGTGGCTGCGGAATGCCGATTCCCAGGCATCCACACCATGGCTGAGCT
GCACCAGCAACTATGTTCTGGAACTCCAGTAACGCATTCGGTGCCTGATACTGGGCAATCGGGTTGTGTTCCGGTGGGCA
CCACCATGGACAACATTGAGTTTTTCGACCCTGCCCCGTTTGGGATGTCCAAGCGTGAGGCGGAGTTGTTGGAACCGCAG
GCACGATTGCTACACGAGTTGTGTTTGCAGGCGCTTGATTCTGCCGGTCATGGCTTTGGTCGGGGTATTGAGCGAGCCGG
AGTGATCATGGGTGGTACGCATCCGGCGTTTTTGCATGATCGTTTTCCAGATTTCGATCCGGTGGGTATTCACGATCCGA
TTGAAACCATGGAAGCCTCATTGGGCTCCTATATGGATTATTTGGCTACCGGCATTGCCCATAGGTTGTCGTTGACGGGG
CCGGCGTTTACGGTCCAGACGGCGTGTTCTACGTCGTTAGTAGCGATTCATTTGGGTGTGCAGCAGCTGCTGTTGGGGGA
ATCGGATCTGGTTCTTGCTGGTGGCGCCACCATTCATGTGCCACAAGGCCACGGCTACCAGCACATTCCTGACGGCCCGT
TTTCTGCTGATGGTTTCACCCGCCCCTATTCGGCGCAGTCCTCGGGGGCGGTATTTACCCAAGGCGCTGGCGTTGTGGCG
TTAAGACGCGCTCGCGATGCCGAAGCCGACGGTGATCCGATTCTCGCAGTGATCCGCGGTACAGCAGTGAACAATGACGG
CGGACGCTCCGCGGGGTTGGTGGCTCCGTCGATGCACGCACATGCTGAGGTGATTAAAGAAGCCCACGCCATGGCCGATA
TAAGCCCACGTCAGGTCACCTACGTGGAGGGGCATGGCACCGGCACTCGGGTGGGTGATCCTTTGGAATTTGCGGCCTTT
GCTGAGGTTTTTGGTTCTGCCAGCACACCGTGGTGCACGCTAGGATCCGCAAAAGCCATCCTTGGACATACGGAGGCCGC
CGCTGGTGTAGCCAGCATGATTGCGGTGATCGGTTCGCTGCAAGCACGTGAAATCCCTGGCACCATTGGTACCGGCGAGC
CCTCGCCGGACTTAGCGCTTGAGGGATCTGCGTTGCGGTTGGCGGATCGCACACAGCCATGGGGAACACCGGATGAGGAA
CTCATCGCAGGTATTAGCTCCCTTGGATTCGGTGGCACCAATTGTCACGTGGTGGTGGCGCAGGCTCCCCGGCGGGTGGA
GAAGACACCGCAGCGCCCGCAATCTTTCAGCGTGCTTCCGATTTCCGCGGCCACCAGTGGGGCTGCCAATGCGATGACAA
CGGAATTATCGCAATGGGCCCACAGCAATCCTGAACGGCTTGCCGATGCAGCGTGGACGCTTCAGCATGGGCGCCACACC
ATGGCATACAAAAGCGCGATCGTTGTTGATCCCCACGGGACTACGGTCGATACTTTCGAGGCCTGCCATAGTCCGCACAC
CGCGCGTGTGTTATTCGCCTTCCCAGGTGGAGGTGCTCAAAAGACCGGCATGCTAGAGCAGATTGTGCGCGTAAGCCCAC
GGTGGCGCGCCGAGTTCGAATCCATTGCGCGCGCCTTTAGCACGCATCTCGACGGCGACATTCGTGCCGTCTGTGCACCG
CAATTTTATGGTTGTAGCCCTGTTGATGCTGCTGATCCCATCCTTGGCCTACCGGCCTTGATAGCAGCGGAGATCCTCTG
CGCTCAGATGCTGACTGCTGCAGGGATCACGCCACACGGAGTAATAGGGCACTCGACCGGCGAGTACGCTGCAGCGATTG
CCGCAGGTGCACTAACAATCGATCAGTTAGCGCCTTTGATTGCTGCGCGTTCTACTGAGCTGGCACGGATGCGCTCTGGT
GCGATGGTGCGCGTGCGTGCCTCTGCCGCGGAGCTCGAGCAGGTGCTTGAGCAATTCCCCAGTGTGGAAATCTCGGCATT
GAATTCACCACGCTCGACGGTGCTCGCAGGAGATACCGCCACCATGAATGCGGTGGTTGCCCAGCTCGGCAGCAGTGCGG
AGCTGGTGCCGGTCACAGTTGCTGCGCATTCGACTTTCGTAGAACCAGCACTTCCTGCTGTACGCGCTGCCGCACAGCAG
CTGCAGGCGCATACTCCGATAGCACCTGTGTTTTCTGCAGCGACTGCTTCTCGGGTGACAATCGCGCAGTTAGCGGATCC
AGAGTTTTGGGCACAGCATATGCGCCAGCCGGTGCGTTTCCACGATGCACTAACAACTGCTGTTGATGAACTCGGTGGTC
CTGTAGTGGTAATTAACGTAGGCCCTGGTGCTACCTTGGCTTCCTTGGCTAGGGAGTCCGGCCTTGAAGGTATTAGTGCT
ACCGTGACCACCGCTGGGGATGATCGTCTGCTCAGCGAGCAGTCTATTGCTGGGGCAGTAGCTCAGCTTTACATCAGTGG
TGTACCTCTTGAGGTGGCGCAGGGGGCGATTACTGAACTTCCGCCGTATCAGTTTGATCGGCTGCATTTGTGGCCGGAGA
AGGCTGAACATACCCCGTCGGCTCAGCCGTCGCTGTGGTATCGCTTGCATTCTCGACGCATCCCGCGCAGGTCAGCACAG
CCCAGCGCAGCGAACTATCAGTTAGTGCGGATAACGATGGAAGCGGATCCGCAGGATCATGCAACCGCCGTAGTGGATTG
TTGCGCCGCACTGGTTGCGCATTCCCAGAGCACACAGCGCCAAAAAGTGGTGGTGCTGGAGTGTGTAGACAATACCACCG
CACAGATCGTTGCCGCTGCAGTGCGTTCTTGCTGTGATGAACTGGGTATCCGCGCTATTGCTACCTGTGGTGATGTAAGT
GATCATGACGTTAGCTACGGCCTTGCTCACGGAGCTGCGGTGGTCACACACAACGGAACCACCAGTACCTACGAGGTTCC
GCTGCGCACACAGATGCCGCCGCAGAACGAGGGCACGCTTCCTCGCACCGTGGTGATTCTTGGCGGTCGTGGTCGTATCG
GACAGGTGCTAGCTCATGCTTGCCAAGAAGCTGGCATTGAGGTTGTTATCGGTACCCGGCGCGAAGGCGCCGGGCATGTG
GATCCGCGTGAACCGCAGGATGTGGCGCGGTTGTTGCGTGAGCATGGTTGTGGTTGTGATACCGCTGTGGTGGTGGCTAC
TGGTGTGGTGGGGGAGCAGGCGTTCGCAGAGGCTTCGGATACGGATGCTGCGTGTGTGCGCCACCATTGGCAGGCAAAAC
CACAGGTTGTGGCGGCGGTGCGGGAAGCCTGTGAGCTGCTAGGTGATACCGCGCCGGGCCATGTGGTGGTGATGTCCTCG
CTGGCGGCTTATACCGGTGGTGTGGGGTTGGCCGCATATGCTGCGGCGAATCGTGCTGCGGAATGTGTGGTTGCTCCTGG
GACGGATACGCGTTGGTCGGTGGTTGCTAGTGATGGTTGGCGCAGCGGTGAGCAGAATTCCTTTGGCCGGAAGTTGTTGC
GGCAGTCCTTGTCGCAGGACCAGGGTGTGGCAGCGGTGATGTCGGTGTTGGCATCGGCACTTGATGGCATAGCGTTGTTG
ACTACTCGCGATACGGATGGTGCTTCTTTCGTGGGGTCTGATACTGCAGAAGGCGCCCAAGAGCATGCGTCTGTGCAGGC
TGTGGTGTCCTCGGGCAGTGTTGCTAAGGATGTCAAACAGATGTGGTCGCAGTCTTTGGGGGTTGATGTTGATGATTCTG
CAGACTTTTTTGATCTCGGTGGCAGTTCTTTGCAGGCGACGAAGTTGCTTGCGGATGTGCGAGATCGCTTCGGCGTAGAT
ATTCGGTTGCGGCACTTGTTAGCGCAGCCGTCGATAAGCGCGATGATTGAGCGTATTCATAGCCAGCGTGGTGAGGTTCC
GGAAGCTCCGTTTGCCCCAGAAACCCCTGCTAACAGTGTGGAGACGTGGCCGCTGACGCCTGTGCAGCGTGCTTATATGA
CGGGTAGAACGCACAGCTTTGGGCTTAATGCGGCTGCATGCCATAGTTTTGTGGAAACTCTGGTTACCGACATCGAGTCT
TTTGATAGTGAGGCGTTAAACCGTGCGGTGTCGACCGTGATCGATCGGCATCCGATGCTGCGAGCTATCGTGGACGTAGA
GGGCCACCATGCGTTAGATCCCAGTGCCTATCGGGTGCCGGTGACTGATTGCCGTCGTAGTGGTGACCCAGAACGGGCGT
TGCAGCGCTGGCGTGAGAAGTATTCCAGGCGGGAAAGTGCTGCCGACCAGTGGCCGTTGGTGTCGTTGGCCGTGGCCTAT
GCGCCTGATGGGGTGCATGTGGGCTGGTCTGTTGACGTTTTGGTTTGCGACGCTTCTAGTTTTGGCATCTTGTTTGATGA
GATTTCTACCGCATATCGTGGGCAGGCGTTGCCACCAGCGCCGCAGCGGCATTTCGCCGAGCATGTTGCCGCGGTGCATA
CCAGCGTGAAGGATCGCGAGTATTGGGAGGAGCAGATTCCGACGCTGCCCCCAGCACCCGCGCTGGGAGAACCTGCTGGT
GAGAACGACTCCTTCCACCGGCTCACCTATGCGCTTGATGCTGCGCAAGCAGAACGCCTAGAGCAGGCGGCTAAGGAACA
CAAAACTACTGTGACCTCGTTGTTCTTGTGGGCATATGCGAAAGCGCTGAGCGAATATACAGGCCAAGGGGATATGTCCT
TAATGTTGACGGTTTTCGATCGCGCTGAGGAGTTCGCCGGCGTAATCGGCGACTTTACCTCCCTTGTTCCGTGCCCGATT
CGTTGGAAAGACGGCGGGGATTCGATTGCGGCGGTCAGCACCTCGCTTTTCGATACCCTCGACCACAGCTCCATGCCGGG
GCCTGAAATTGTGGCGCGGAAATCAGCGCAGGATGGCACCGCATTCCGGCTGCCGGTGGTGTTTACCTCCACGATTGGTA
CGCAGGTAGACGGCGGTGCTCATGATGGGTTGGGCACAATGATCGGTGGGGCAAGCCAAACCCCGCAGGTGGTGTTGGAT
CATCAGGTATTCCAGTGGGGTGGGACTCTTCACGCACAATTCGACGCTGTGGAGTCGGTACTCGATGCAGAGGCACTAGA
GCGTTTCTTGGCTATTTATCGTGGGTATCTCGACCAGATTGCCCCAGTCTCGCAGCCTGACAACTCGGATGTGATAGCAG
TGTGGGAGCAGATTTTGGGGGTGTCCGAGGTATGCGCACAGTCGCAGTGGGCGCAGTGCGGTGGCGATTCCTTAGATGCG
ATTCGTGTGGTGGCAGCGCTGCGTCGAATTGGCGTGCACACCACGGTAGAGGAAGTCCTTGGTGGTATTACCCCAGATGA
GCTGGGCAGTAAGCGTACTGAGGTTGATGTGGTGACGGTGCGTCGTCATCCTGCCGGAGAGCCTTTTGTTCTTACTCCTT
TGCAGCAGGCGTACTTGGTGGGTGCTGATGGCGGCTGGGATTTTTCGCATAATTCTGCGCACTTTTACGTCGATTATGCG
GACCCAGATGCCACGGGTGAGCAGATAATTCATGCGGTGCGTGCGTTGATCCAGCACCAACCTATGTTGCGCGCAATCGT
TACTGACGACGGCCACCAGCTGATTCTTGATGCTGATGATCCGCAGGTTGCCACCCCGCCAGTCGAAGTGGTTGACCTCT
GTGACGCTACGGCAGATGAGGTCGACCAAGCGATTATCGAGGTACGTGAGCGCTGGTCGGTGGCACCTGTTGATCCCCGC
AGCTGGCCAACATTTCGTATCCTCGTGCACGAGTTACCCGAAGGCGGTTCGCGCATTCACGTGCAAGCAAGTTTGCTGTT
TGTCGACGGCTGGTCGTTCTACCTGTTCTTCGATCAGCTATTTACCTTCCTAGACAACCCGAACACGGTGCTGCCTGCGG
CGTCGTTAAGCTTCGCCGACTATGTGGCCACCACCGCGGAACTCGACGCCGAGCAACGCGAAGCCGACACGCAGTGGTGG
AGCCAACGTCTAGCGGACCTGCCGCAACCACCGGCACTGCCCATCGCACAACCAGAGTCCTATGACGGTGTGGTCGGCAT
GCACCGCGACGCCGGGCGACTCAGCGCACAACGGGCACAGGAGTTCTTCCGCATATGCCAAGAACACAACACCACGCCCA
CCGCAGTCATTGGTGCCGCGTGGACGCAAGCAGTGTGCGCACTCAGCGGCGATGAAGAACTACTCATGGCCGTGCTGTAC
TTCAACCGCAAGGCCATAGCAGAAGACGTCGATCGTGTGCTGGGGCCATTTGCCACCACCTGTTTGGTGCACTGCACCCC
GAAGCACTGGGGCACAGATCAGCCTGCTGGATTTGCAGGCGCGCTTGCTACCTCCTTGTCCCATGCCAGCCTGTCTGGCA
TCGAGGTAGCGCGGATGGTGTCGCGGCATCGCTCCAACCACGACGTGGTAGCCCCCGTGGTGTTTACCTCCACGCTGGGA
TTCGACGATCAAGCTAGCGCCGCCGCCACCGCACGAGTGGATGAGACAGACGTATTTGAACGCGTGGTCACACCCCAAGT
GCTGCTGGATTTGCAGACCTCGATGGAAAACGGCTCGGTAGCTATCAACTTGGACTCCCCACGCGGAGCATTCAACCCAG
AAGCCACCGCGGCACTGCTTGACCATGTGCTTTGCCAAGTCAACGCCTACATCGATAACGCTGGGCAGTTTGAACCCGAG
ACAGCAGCAACCGCTGCGTTACAACAATGGGCACAGCCGCGCGAAGACCACGCGGTTGCCGTGCACGATAATCGCACTAT
CCAGCGTTCGTTGGCACGCTGCTGTTCGCCGGAGTCCTTAGCGGCGGTGACCAGCGAATTTAGCCATGTGCTCGGACAGG
ATTGTGCTGCGGAAACCAACATGTATGCTGCGGGCGGCGATTCGCTATCCATGGTGCGCATTATTGCCCGATTGCGGGCG
AAACAGCGCCTAGAGATTACCCCCGAGGCGTTTTTGAGCGATCCCACCCCAGCAGGAGTGGCCGCCCGCGCCGCCTATGA
GCTAGACCCAGACATCCACGTACTCCCGCTCGCCGACGGCACCGGCGAGCCACTGTACCTGCTCCATCCTTCCGGCGGCG
ATGTGCTGTGCTACATGGGCCTAGCCCGCGAGCTCCAAGGCCGGCCAGTCTATGCGGTAGCAGACCCAGGGCTCGAAGAC
ACCCCCATGCCAGTTGACCTCGATGTCGTAGCGCTGACCTATGGCCGCGTTATCATGGCTCACCGCGCTGGCCTTGCCGA
CACGGGCAAACACGGCGTGCGCGAAGCCACCGCCGGCTACCTCATCGGCGGCTGGTCCATGGGCGGCACAGTGGCACAAC
GAGTAGCGGTGCAGTGGCGCGACCAAGGAATCGCCGTGGGAGCCCTCGTGCTGATCGACTCTAATTCTCCCGACCGGATT
CGGGCGTTGACTGGCATGAACGACCGTGAGGTAGACGCGGAGTTCGCGCGTCGATACCTGCGCTCCTTGCAGGCCTTCGG
GGCAAAGGCCGTGGACGCCTCGGCGGTCACCGAATCCGACCCAGCATCAGGGGTCGCCCGCGCACTCGCCGGCCAAGGCC
TAGCGCTAAAAGACGTAGAACGCCGAATTTCCGTGTTCACACGCCACCTCGCCGGTCTAGCGCAGCTGCGCGTCCGCCCG
CTTGTCGACGTCCCCACGCTGCTCGTCATCGCTGAACACCAAAGCCCCGCCAACTCCGGGGTTGGCATGGGTGTCGACGA
CGCCCGCGACACCGAACACCTCGGTTGGGACGACAACCTGCCCACGTCCACCACAGAAATCATGGTGCCAGGACATCACT
ACTCCGTGCTGTCCGCGCCGGGTCTTGAGATTATTTCTGAGCAGATTCGGGAGCTTTTGGCATGA

Upstream 100 bases:

>100_bases
CCCCAGATACCCCGACTACCTCGCAGGTGACTACCGATTCTGCTCATCAACGCGGCCACAGAAGGCGTCGTATAGCTCGT
GCTTTGAATGGAGAACTCTC

Downstream 100 bases:

>100_bases
CATCTTCTAGTCTTAATGGGAACCTATTTCACCTACAAGGATCAGTGCACTAATGGAATCACACACAACTGAGGCTGCTC
CCACTGCACCCAGCCGACCC

Product: modular polyketide synthase

Products: NA

Alternate protein names: 6-deoxyerythronolide B synthase I; DEBS 1; ORF 1 [H]

Number of amino acids: Translated: 2634; Mature: 2633

Protein sequence:

>2634_residues
MTTFASTDIAVVAAECRFPGIHTMAELHQQLCSGTPVTHSVPDTGQSGCVPVGTTMDNIEFFDPAPFGMSKREAELLEPQ
ARLLHELCLQALDSAGHGFGRGIERAGVIMGGTHPAFLHDRFPDFDPVGIHDPIETMEASLGSYMDYLATGIAHRLSLTG
PAFTVQTACSTSLVAIHLGVQQLLLGESDLVLAGGATIHVPQGHGYQHIPDGPFSADGFTRPYSAQSSGAVFTQGAGVVA
LRRARDAEADGDPILAVIRGTAVNNDGGRSAGLVAPSMHAHAEVIKEAHAMADISPRQVTYVEGHGTGTRVGDPLEFAAF
AEVFGSASTPWCTLGSAKAILGHTEAAAGVASMIAVIGSLQAREIPGTIGTGEPSPDLALEGSALRLADRTQPWGTPDEE
LIAGISSLGFGGTNCHVVVAQAPRRVEKTPQRPQSFSVLPISAATSGAANAMTTELSQWAHSNPERLADAAWTLQHGRHT
MAYKSAIVVDPHGTTVDTFEACHSPHTARVLFAFPGGGAQKTGMLEQIVRVSPRWRAEFESIARAFSTHLDGDIRAVCAP
QFYGCSPVDAADPILGLPALIAAEILCAQMLTAAGITPHGVIGHSTGEYAAAIAAGALTIDQLAPLIAARSTELARMRSG
AMVRVRASAAELEQVLEQFPSVEISALNSPRSTVLAGDTATMNAVVAQLGSSAELVPVTVAAHSTFVEPALPAVRAAAQQ
LQAHTPIAPVFSAATASRVTIAQLADPEFWAQHMRQPVRFHDALTTAVDELGGPVVVINVGPGATLASLARESGLEGISA
TVTTAGDDRLLSEQSIAGAVAQLYISGVPLEVAQGAITELPPYQFDRLHLWPEKAEHTPSAQPSLWYRLHSRRIPRRSAQ
PSAANYQLVRITMEADPQDHATAVVDCCAALVAHSQSTQRQKVVVLECVDNTTAQIVAAAVRSCCDELGIRAIATCGDVS
DHDVSYGLAHGAAVVTHNGTTSTYEVPLRTQMPPQNEGTLPRTVVILGGRGRIGQVLAHACQEAGIEVVIGTRREGAGHV
DPREPQDVARLLREHGCGCDTAVVVATGVVGEQAFAEASDTDAACVRHHWQAKPQVVAAVREACELLGDTAPGHVVVMSS
LAAYTGGVGLAAYAAANRAAECVVAPGTDTRWSVVASDGWRSGEQNSFGRKLLRQSLSQDQGVAAVMSVLASALDGIALL
TTRDTDGASFVGSDTAEGAQEHASVQAVVSSGSVAKDVKQMWSQSLGVDVDDSADFFDLGGSSLQATKLLADVRDRFGVD
IRLRHLLAQPSISAMIERIHSQRGEVPEAPFAPETPANSVETWPLTPVQRAYMTGRTHSFGLNAAACHSFVETLVTDIES
FDSEALNRAVSTVIDRHPMLRAIVDVEGHHALDPSAYRVPVTDCRRSGDPERALQRWREKYSRRESAADQWPLVSLAVAY
APDGVHVGWSVDVLVCDASSFGILFDEISTAYRGQALPPAPQRHFAEHVAAVHTSVKDREYWEEQIPTLPPAPALGEPAG
ENDSFHRLTYALDAAQAERLEQAAKEHKTTVTSLFLWAYAKALSEYTGQGDMSLMLTVFDRAEEFAGVIGDFTSLVPCPI
RWKDGGDSIAAVSTSLFDTLDHSSMPGPEIVARKSAQDGTAFRLPVVFTSTIGTQVDGGAHDGLGTMIGGASQTPQVVLD
HQVFQWGGTLHAQFDAVESVLDAEALERFLAIYRGYLDQIAPVSQPDNSDVIAVWEQILGVSEVCAQSQWAQCGGDSLDA
IRVVAALRRIGVHTTVEEVLGGITPDELGSKRTEVDVVTVRRHPAGEPFVLTPLQQAYLVGADGGWDFSHNSAHFYVDYA
DPDATGEQIIHAVRALIQHQPMLRAIVTDDGHQLILDADDPQVATPPVEVVDLCDATADEVDQAIIEVRERWSVAPVDPR
SWPTFRILVHELPEGGSRIHVQASLLFVDGWSFYLFFDQLFTFLDNPNTVLPAASLSFADYVATTAELDAEQREADTQWW
SQRLADLPQPPALPIAQPESYDGVVGMHRDAGRLSAQRAQEFFRICQEHNTTPTAVIGAAWTQAVCALSGDEELLMAVLY
FNRKAIAEDVDRVLGPFATTCLVHCTPKHWGTDQPAGFAGALATSLSHASLSGIEVARMVSRHRSNHDVVAPVVFTSTLG
FDDQASAAATARVDETDVFERVVTPQVLLDLQTSMENGSVAINLDSPRGAFNPEATAALLDHVLCQVNAYIDNAGQFEPE
TAATAALQQWAQPREDHAVAVHDNRTIQRSLARCCSPESLAAVTSEFSHVLGQDCAAETNMYAAGGDSLSMVRIIARLRA
KQRLEITPEAFLSDPTPAGVAARAAYELDPDIHVLPLADGTGEPLYLLHPSGGDVLCYMGLARELQGRPVYAVADPGLED
TPMPVDLDVVALTYGRVIMAHRAGLADTGKHGVREATAGYLIGGWSMGGTVAQRVAVQWRDQGIAVGALVLIDSNSPDRI
RALTGMNDREVDAEFARRYLRSLQAFGAKAVDASAVTESDPASGVARALAGQGLALKDVERRISVFTRHLAGLAQLRVRP
LVDVPTLLVIAEHQSPANSGVGMGVDDARDTEHLGWDDNLPTSTTEIMVPGHHYSVLSAPGLEIISEQIRELLA

Sequences:

>Translated_2634_residues
MTTFASTDIAVVAAECRFPGIHTMAELHQQLCSGTPVTHSVPDTGQSGCVPVGTTMDNIEFFDPAPFGMSKREAELLEPQ
ARLLHELCLQALDSAGHGFGRGIERAGVIMGGTHPAFLHDRFPDFDPVGIHDPIETMEASLGSYMDYLATGIAHRLSLTG
PAFTVQTACSTSLVAIHLGVQQLLLGESDLVLAGGATIHVPQGHGYQHIPDGPFSADGFTRPYSAQSSGAVFTQGAGVVA
LRRARDAEADGDPILAVIRGTAVNNDGGRSAGLVAPSMHAHAEVIKEAHAMADISPRQVTYVEGHGTGTRVGDPLEFAAF
AEVFGSASTPWCTLGSAKAILGHTEAAAGVASMIAVIGSLQAREIPGTIGTGEPSPDLALEGSALRLADRTQPWGTPDEE
LIAGISSLGFGGTNCHVVVAQAPRRVEKTPQRPQSFSVLPISAATSGAANAMTTELSQWAHSNPERLADAAWTLQHGRHT
MAYKSAIVVDPHGTTVDTFEACHSPHTARVLFAFPGGGAQKTGMLEQIVRVSPRWRAEFESIARAFSTHLDGDIRAVCAP
QFYGCSPVDAADPILGLPALIAAEILCAQMLTAAGITPHGVIGHSTGEYAAAIAAGALTIDQLAPLIAARSTELARMRSG
AMVRVRASAAELEQVLEQFPSVEISALNSPRSTVLAGDTATMNAVVAQLGSSAELVPVTVAAHSTFVEPALPAVRAAAQQ
LQAHTPIAPVFSAATASRVTIAQLADPEFWAQHMRQPVRFHDALTTAVDELGGPVVVINVGPGATLASLARESGLEGISA
TVTTAGDDRLLSEQSIAGAVAQLYISGVPLEVAQGAITELPPYQFDRLHLWPEKAEHTPSAQPSLWYRLHSRRIPRRSAQ
PSAANYQLVRITMEADPQDHATAVVDCCAALVAHSQSTQRQKVVVLECVDNTTAQIVAAAVRSCCDELGIRAIATCGDVS
DHDVSYGLAHGAAVVTHNGTTSTYEVPLRTQMPPQNEGTLPRTVVILGGRGRIGQVLAHACQEAGIEVVIGTRREGAGHV
DPREPQDVARLLREHGCGCDTAVVVATGVVGEQAFAEASDTDAACVRHHWQAKPQVVAAVREACELLGDTAPGHVVVMSS
LAAYTGGVGLAAYAAANRAAECVVAPGTDTRWSVVASDGWRSGEQNSFGRKLLRQSLSQDQGVAAVMSVLASALDGIALL
TTRDTDGASFVGSDTAEGAQEHASVQAVVSSGSVAKDVKQMWSQSLGVDVDDSADFFDLGGSSLQATKLLADVRDRFGVD
IRLRHLLAQPSISAMIERIHSQRGEVPEAPFAPETPANSVETWPLTPVQRAYMTGRTHSFGLNAAACHSFVETLVTDIES
FDSEALNRAVSTVIDRHPMLRAIVDVEGHHALDPSAYRVPVTDCRRSGDPERALQRWREKYSRRESAADQWPLVSLAVAY
APDGVHVGWSVDVLVCDASSFGILFDEISTAYRGQALPPAPQRHFAEHVAAVHTSVKDREYWEEQIPTLPPAPALGEPAG
ENDSFHRLTYALDAAQAERLEQAAKEHKTTVTSLFLWAYAKALSEYTGQGDMSLMLTVFDRAEEFAGVIGDFTSLVPCPI
RWKDGGDSIAAVSTSLFDTLDHSSMPGPEIVARKSAQDGTAFRLPVVFTSTIGTQVDGGAHDGLGTMIGGASQTPQVVLD
HQVFQWGGTLHAQFDAVESVLDAEALERFLAIYRGYLDQIAPVSQPDNSDVIAVWEQILGVSEVCAQSQWAQCGGDSLDA
IRVVAALRRIGVHTTVEEVLGGITPDELGSKRTEVDVVTVRRHPAGEPFVLTPLQQAYLVGADGGWDFSHNSAHFYVDYA
DPDATGEQIIHAVRALIQHQPMLRAIVTDDGHQLILDADDPQVATPPVEVVDLCDATADEVDQAIIEVRERWSVAPVDPR
SWPTFRILVHELPEGGSRIHVQASLLFVDGWSFYLFFDQLFTFLDNPNTVLPAASLSFADYVATTAELDAEQREADTQWW
SQRLADLPQPPALPIAQPESYDGVVGMHRDAGRLSAQRAQEFFRICQEHNTTPTAVIGAAWTQAVCALSGDEELLMAVLY
FNRKAIAEDVDRVLGPFATTCLVHCTPKHWGTDQPAGFAGALATSLSHASLSGIEVARMVSRHRSNHDVVAPVVFTSTLG
FDDQASAAATARVDETDVFERVVTPQVLLDLQTSMENGSVAINLDSPRGAFNPEATAALLDHVLCQVNAYIDNAGQFEPE
TAATAALQQWAQPREDHAVAVHDNRTIQRSLARCCSPESLAAVTSEFSHVLGQDCAAETNMYAAGGDSLSMVRIIARLRA
KQRLEITPEAFLSDPTPAGVAARAAYELDPDIHVLPLADGTGEPLYLLHPSGGDVLCYMGLARELQGRPVYAVADPGLED
TPMPVDLDVVALTYGRVIMAHRAGLADTGKHGVREATAGYLIGGWSMGGTVAQRVAVQWRDQGIAVGALVLIDSNSPDRI
RALTGMNDREVDAEFARRYLRSLQAFGAKAVDASAVTESDPASGVARALAGQGLALKDVERRISVFTRHLAGLAQLRVRP
LVDVPTLLVIAEHQSPANSGVGMGVDDARDTEHLGWDDNLPTSTTEIMVPGHHYSVLSAPGLEIISEQIRELLA
>Mature_2633_residues
TTFASTDIAVVAAECRFPGIHTMAELHQQLCSGTPVTHSVPDTGQSGCVPVGTTMDNIEFFDPAPFGMSKREAELLEPQA
RLLHELCLQALDSAGHGFGRGIERAGVIMGGTHPAFLHDRFPDFDPVGIHDPIETMEASLGSYMDYLATGIAHRLSLTGP
AFTVQTACSTSLVAIHLGVQQLLLGESDLVLAGGATIHVPQGHGYQHIPDGPFSADGFTRPYSAQSSGAVFTQGAGVVAL
RRARDAEADGDPILAVIRGTAVNNDGGRSAGLVAPSMHAHAEVIKEAHAMADISPRQVTYVEGHGTGTRVGDPLEFAAFA
EVFGSASTPWCTLGSAKAILGHTEAAAGVASMIAVIGSLQAREIPGTIGTGEPSPDLALEGSALRLADRTQPWGTPDEEL
IAGISSLGFGGTNCHVVVAQAPRRVEKTPQRPQSFSVLPISAATSGAANAMTTELSQWAHSNPERLADAAWTLQHGRHTM
AYKSAIVVDPHGTTVDTFEACHSPHTARVLFAFPGGGAQKTGMLEQIVRVSPRWRAEFESIARAFSTHLDGDIRAVCAPQ
FYGCSPVDAADPILGLPALIAAEILCAQMLTAAGITPHGVIGHSTGEYAAAIAAGALTIDQLAPLIAARSTELARMRSGA
MVRVRASAAELEQVLEQFPSVEISALNSPRSTVLAGDTATMNAVVAQLGSSAELVPVTVAAHSTFVEPALPAVRAAAQQL
QAHTPIAPVFSAATASRVTIAQLADPEFWAQHMRQPVRFHDALTTAVDELGGPVVVINVGPGATLASLARESGLEGISAT
VTTAGDDRLLSEQSIAGAVAQLYISGVPLEVAQGAITELPPYQFDRLHLWPEKAEHTPSAQPSLWYRLHSRRIPRRSAQP
SAANYQLVRITMEADPQDHATAVVDCCAALVAHSQSTQRQKVVVLECVDNTTAQIVAAAVRSCCDELGIRAIATCGDVSD
HDVSYGLAHGAAVVTHNGTTSTYEVPLRTQMPPQNEGTLPRTVVILGGRGRIGQVLAHACQEAGIEVVIGTRREGAGHVD
PREPQDVARLLREHGCGCDTAVVVATGVVGEQAFAEASDTDAACVRHHWQAKPQVVAAVREACELLGDTAPGHVVVMSSL
AAYTGGVGLAAYAAANRAAECVVAPGTDTRWSVVASDGWRSGEQNSFGRKLLRQSLSQDQGVAAVMSVLASALDGIALLT
TRDTDGASFVGSDTAEGAQEHASVQAVVSSGSVAKDVKQMWSQSLGVDVDDSADFFDLGGSSLQATKLLADVRDRFGVDI
RLRHLLAQPSISAMIERIHSQRGEVPEAPFAPETPANSVETWPLTPVQRAYMTGRTHSFGLNAAACHSFVETLVTDIESF
DSEALNRAVSTVIDRHPMLRAIVDVEGHHALDPSAYRVPVTDCRRSGDPERALQRWREKYSRRESAADQWPLVSLAVAYA
PDGVHVGWSVDVLVCDASSFGILFDEISTAYRGQALPPAPQRHFAEHVAAVHTSVKDREYWEEQIPTLPPAPALGEPAGE
NDSFHRLTYALDAAQAERLEQAAKEHKTTVTSLFLWAYAKALSEYTGQGDMSLMLTVFDRAEEFAGVIGDFTSLVPCPIR
WKDGGDSIAAVSTSLFDTLDHSSMPGPEIVARKSAQDGTAFRLPVVFTSTIGTQVDGGAHDGLGTMIGGASQTPQVVLDH
QVFQWGGTLHAQFDAVESVLDAEALERFLAIYRGYLDQIAPVSQPDNSDVIAVWEQILGVSEVCAQSQWAQCGGDSLDAI
RVVAALRRIGVHTTVEEVLGGITPDELGSKRTEVDVVTVRRHPAGEPFVLTPLQQAYLVGADGGWDFSHNSAHFYVDYAD
PDATGEQIIHAVRALIQHQPMLRAIVTDDGHQLILDADDPQVATPPVEVVDLCDATADEVDQAIIEVRERWSVAPVDPRS
WPTFRILVHELPEGGSRIHVQASLLFVDGWSFYLFFDQLFTFLDNPNTVLPAASLSFADYVATTAELDAEQREADTQWWS
QRLADLPQPPALPIAQPESYDGVVGMHRDAGRLSAQRAQEFFRICQEHNTTPTAVIGAAWTQAVCALSGDEELLMAVLYF
NRKAIAEDVDRVLGPFATTCLVHCTPKHWGTDQPAGFAGALATSLSHASLSGIEVARMVSRHRSNHDVVAPVVFTSTLGF
DDQASAAATARVDETDVFERVVTPQVLLDLQTSMENGSVAINLDSPRGAFNPEATAALLDHVLCQVNAYIDNAGQFEPET
AATAALQQWAQPREDHAVAVHDNRTIQRSLARCCSPESLAAVTSEFSHVLGQDCAAETNMYAAGGDSLSMVRIIARLRAK
QRLEITPEAFLSDPTPAGVAARAAYELDPDIHVLPLADGTGEPLYLLHPSGGDVLCYMGLARELQGRPVYAVADPGLEDT
PMPVDLDVVALTYGRVIMAHRAGLADTGKHGVREATAGYLIGGWSMGGTVAQRVAVQWRDQGIAVGALVLIDSNSPDRIR
ALTGMNDREVDAEFARRYLRSLQAFGAKAVDASAVTESDPASGVARALAGQGLALKDVERRISVFTRHLAGLAQLRVRPL
VDVPTLLVIAEHQSPANSGVGMGVDDARDTEHLGWDDNLPTSTTEIMVPGHHYSVLSAPGLEIISEQIRELLA

Specific function: Catalyzes The Condensation Reaction Of Fatty Acid Synthesis By The Addition To An Acyl Acceptor Of Two Carbons From Malonyl-Acp. Specific For Elongation From C-10 To Unsaturated C-16 And C-18 Fatty Acids. [C]

COG id: COG3321

COG function: function code Q; Polyketide synthase modules and related proteins

Gene ontology:

Cell location: Cytoplasm [C]

Metaboloic importance: Essential [C]

Operon status: Not Known

Operon components: None

Similarity: Contains 3 acyl carrier domains [H]

Homologues:

Organism=Homo sapiens, GI41872631, Length=857, Percent_Identity=24.0373395565928, Blast_Score=161, Evalue=1e-38,
Organism=Homo sapiens, GI8923559, Length=286, Percent_Identity=25.1748251748252, Blast_Score=77, Evalue=3e-13,
Organism=Escherichia coli, GI1788663, Length=279, Percent_Identity=33.3333333333333, Blast_Score=88, Evalue=6e-18,
Organism=Escherichia coli, GI1787337, Length=274, Percent_Identity=28.1021897810219, Blast_Score=76, Evalue=3e-14,
Organism=Escherichia coli, GI1786801, Length=225, Percent_Identity=29.7777777777778, Blast_Score=69, Evalue=4e-12,
Organism=Caenorhabditis elegans, GI17550940, Length=1688, Percent_Identity=22.3341232227488, Blast_Score=278, Evalue=2e-74,
Organism=Caenorhabditis elegans, GI212642053, Length=819, Percent_Identity=27.4725274725275, Blast_Score=229, Evalue=2e-59,
Organism=Caenorhabditis elegans, GI71983541, Length=288, Percent_Identity=26.0416666666667, Blast_Score=87, Evalue=2e-16,
Organism=Caenorhabditis elegans, GI71983535, Length=282, Percent_Identity=26.241134751773, Blast_Score=83, Evalue=2e-15,
Organism=Saccharomyces cerevisiae, GI6320904, Length=276, Percent_Identity=26.0869565217391, Blast_Score=81, Evalue=2e-15,
Organism=Drosophila melanogaster, GI19920632, Length=793, Percent_Identity=26.3556116015132, Blast_Score=221, Evalue=5e-57,
Organism=Drosophila melanogaster, GI221330659, Length=793, Percent_Identity=26.3556116015132, Blast_Score=221, Evalue=7e-57,
Organism=Drosophila melanogaster, GI24581345, Length=813, Percent_Identity=25.7072570725707, Blast_Score=209, Evalue=3e-53,
Organism=Drosophila melanogaster, GI24644341, Length=280, Percent_Identity=29.6428571428571, Blast_Score=94, Evalue=1e-18,

Paralogues:

None

Copy number: 24024 Molecules/Cell In: Growth Phase, Glucose-minimal MOPS Media. 30,000 Molecules/Cell In: Glucose minimal media [C]

Swissprot (AC and ID): NA

Other databases:

- InterPro:   IPR001227
- InterPro:   IPR009081
- InterPro:   IPR014043
- InterPro:   IPR016035
- InterPro:   IPR000794
- InterPro:   IPR018201
- InterPro:   IPR014031
- InterPro:   IPR014030
- InterPro:   IPR016036
- InterPro:   IPR016040
- InterPro:   IPR006163
- InterPro:   IPR020842
- InterPro:   IPR020801
- InterPro:   IPR020841
- InterPro:   IPR013968
- InterPro:   IPR020806
- InterPro:   IPR006162
- InterPro:   IPR016039
- InterPro:   IPR016038 [H]

Pfam domain/function: PF00698 Acyl_transf_1; PF00109 ketoacyl-synt; PF02801 Ketoacyl-synt_C; PF08659 KR; PF00550 PP-binding [H]

EC number: =2.3.1.94 [H]

Molecular weight: Translated: 280251; Mature: 280120

Theoretical pI: Translated: 4.84; Mature: 4.84

Prosite motif: PS00012 PHOSPHOPANTETHEINE ; PS50075 ACP_DOMAIN ; PS00606 B_KETOACYL_SYNTHASE

Important sites: NA

Signals:

None

Transmembrane regions:

None

Cys/Met content:

1.5 %Cys     (Translated Protein)
1.7 %Met     (Translated Protein)
3.2 %Cys+Met (Translated Protein)
1.5 %Cys     (Mature Protein)
1.6 %Met     (Mature Protein)
3.1 %Cys+Met (Mature Protein)

Secondary structure:

>Translated Secondary Structure
MTTFASTDIAVVAAECRFPGIHTMAELHQQLCSGTPVTHSVPDTGQSGCVPVGTTMDNIE
CCCCCCCCEEEEEECCCCCCHHHHHHHHHHHHCCCCCCCCCCCCCCCCCEECCCCCCCCE
FFDPAPFGMSKREAELLEPQARLLHELCLQALDSAGHGFGRGIERAGVIMGGTHPAFLHD
ECCCCCCCCCCHHHHHHCHHHHHHHHHHHHHHHHCCCCHHCCHHHCCEEECCCCCHHHHC
RFPDFDPVGIHDPIETMEASLGSYMDYLATGIAHRLSLTGPAFTVQTACSTSLVAIHLGV
CCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCEEEEHHCCCCHHHHHHHH
QQLLLGESDLVLAGGATIHVPQGHGYQHIPDGPFSADGFTRPYSAQSSGAVFTQGAGVVA
HHHHCCCCCEEEECCCEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCEEECCCCEEE
LRRARDAEADGDPILAVIRGTAVNNDGGRSAGLVAPSMHAHAEVIKEAHAMADISPRQVT
EEHHCCCCCCCCCEEEEEEECEECCCCCCCCCCCCCCHHHHHHHHHHHHHHHCCCCCEEE
YVEGHGTGTRVGDPLEFAAFAEVFGSASTPWCTLGSAKAILGHTEAAAGVASMIAVIGSL
EEECCCCCCCCCCCHHHHHHHHHHCCCCCCEEECCCCHHHHCCCHHHHHHHHHHHHHHCC
QAREIPGTIGTGEPSPDLALEGSALRLADRTQPWGTPDEELIAGISSLGFGGTNCHVVVA
HHHCCCCCCCCCCCCCCCEECCCEEEECCCCCCCCCCHHHHHHHHHHCCCCCCCEEEEEE
QAPRRVEKTPQRPQSFSVLPISAATSGAANAMTTELSQWAHSNPERLADAAWTLQHGRHT
CCCHHHHCCCCCCCCCEEEEECCCCCCCCHHHHHHHHHHHCCCHHHHHHHHHHHHCCCEE
MAYKSAIVVDPHGTTVDTFEACHSPHTARVLFAFPGGGAQKTGMLEQIVRVSPRWRAEFE
EEECEEEEECCCCCCHHHHHHHCCCCCEEEEEEECCCCCCHHHHHHHHHHCCCCHHHHHH
SIARAFSTHLDGDIRAVCAPQFYGCSPVDAADPILGLPALIAAEILCAQMLTAAGITPHG
HHHHHHHHHCCCCEEEEECCCCCCCCCCCCCCCHHCCHHHHHHHHHHHHHHHHCCCCCCC
VIGHSTGEYAAAIAAGALTIDQLAPLIAARSTELARMRSGAMVRVRASAAELEQVLEQFP
CCCCCCCHHHHHHHHHHHHHHHHHHHHHHCCHHHHHHCCCCEEEEECCHHHHHHHHHHCC
SVEISALNSPRSTVLAGDTATMNAVVAQLGSSAELVPVTVAAHSTFVEPALPAVRAAAQQ
CCEEEECCCCCCEEEECCHHHHHHHHHHHCCCCCEEEEEEECCHHHHHHHHHHHHHHHHH
LQAHTPIAPVFSAATASRVTIAQLADPEFWAQHMRQPVRFHDALTTAVDELGGPVVVINV
HHHCCCHHHHHHHHHHCCEEHHHHCCHHHHHHHHCCHHHHHHHHHHHHHHCCCCEEEEEC
GPGATLASLARESGLEGISATVTTAGDDRLLSEQSIAGAVAQLYISGVPLEVAQGAITEL
CCCHHHHHHHHHCCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHCCCCHHHHCCHHHCC
PPYQFDRLHLWPEKAEHTPSAQPSLWYRLHSRRIPRRSAQPSAANYQLVRITMEADPQDH
CCCCCCEEEECCCHHCCCCCCCCHHHHHHHHHCCCCCCCCCCCCCEEEEEEEEECCCCHH
ATAVVDCCAALVAHSQSTQRQKVVVLECVDNTTAQIVAAAVRSCCDELGIRAIATCGDVS
HHHHHHHHHHHHHCCCCCCCCEEEEEEECCCCHHHHHHHHHHHHHHHHCCEEEEECCCCC
DHDVSYGLAHGAAVVTHNGTTSTYEVPLRTQMPPQNEGTLPRTVVILGGRGRIGQVLAHA
CCCCHHHHCCCEEEEEECCCCCEEEECEECCCCCCCCCCCCEEEEEECCCCCHHHHHHHH
CQEAGIEVVIGTRREGAGHVDPREPQDVARLLREHGCGCDTAVVVATGVVGEQAFAEASD
HHHCCCEEEEECCCCCCCCCCCCCHHHHHHHHHHCCCCCCCHHHHEECHHCHHHHHCCCC
TDAACVRHHWQAKPQVVAAVREACELLGDTAPGHVVVMSSLAAYTGGVGLAAYAAANRAA
CHHHHHHHHCCCCHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHCCCHHHHHHHHCCCC
ECVVAPGTDTRWSVVASDGWRSGEQNSFGRKLLRQSLSQDQGVAAVMSVLASALDGIALL
EEEEECCCCCCEEEEECCCCCCCCCCHHHHHHHHHHHCCCCCHHHHHHHHHHHHCCEEEE
TTRDTDGASFVGSDTAEGAQEHASVQAVVSSGSVAKDVKQMWSQSLGVDVDDSADFFDLG
EECCCCCCCCCCCCCHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHCCCCCCCCCCHHHCC
GSSLQATKLLADVRDRFGVDIRLRHLLAQPSISAMIERIHSQRGEVPEAPFAPETPANSV
CCCHHHHHHHHHHHHHHCCCHHHHHHHHCCCHHHHHHHHHHHCCCCCCCCCCCCCCCCCC
ETWPLTPVQRAYMTGRTHSFGLNAAACHSFVETLVTDIESFDSEALNRAVSTVIDRHPML
CCCCCCHHHHHHHCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCHHH
RAIVDVEGHHALDPSAYRVPVTDCRRSGDPERALQRWREKYSRRESAADQWPLVSLAVAY
HHHHCCCCCCCCCCCCEECCHHHHHCCCCHHHHHHHHHHHHHHHHCCCCCCCHHEEEEEE
APDGVHVGWSVDVLVCDASSFGILFDEISTAYRGQALPPAPQRHFAEHVAAVHTSVKDRE
CCCCEEECEEEEEEEECCCCCCHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHHHH
YWEEQIPTLPPAPALGEPAGENDSFHRLTYALDAAQAERLEQAAKEHKTTVTSLFLWAYA
HHHHHCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH
KALSEYTGQGDMSLMLTVFDRAEEFAGVIGDFTSLVPCPIRWKDGGDSIAAVSTSLFDTL
HHHHHHCCCCCCEEEHHHHHHHHHHHHHHHHHHHHCCCCEEECCCCCCHHHHHHHHHHHH
DHSSMPGPEIVARKSAQDGTAFRLPVVFTSTIGTQVDGGAHDGLGTMIGGASQTPQVVLD
CCCCCCCHHHHEECCCCCCCEEEEEEEEEECCCCCCCCCCCCCCHHHCCCCCCCCCEEEC
HQVFQWGGTLHAQFDAVESVLDAEALERFLAIYRGYLDQIAPVSQPDNSDVIAVWEQILG
HHHHHHCCCEEHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHHHHHHC
VSEVCAQSQWAQCGGDSLDAIRVVAALRRIGVHTTVEEVLGGITPDELGSKRTEVDVVTV
HHHHHHHHHHHHCCCCCHHHHHHHHHHHHHCCHHHHHHHHCCCCHHHHCCCCCEEEEEEE
RRHPAGEPFVLTPLQQAYLVGADGGWDFSHNSAHFYVDYADPDATGEQIIHAVRALIQHQ
ECCCCCCCEEECCCCEEEEEECCCCCCCCCCCEEEEEEECCCCCCHHHHHHHHHHHHHCC
PMLRAIVTDDGHQLILDADDPQVATPPVEVVDLCDATADEVDQAIIEVRERWSVAPVDPR
CHHEEEEECCCCEEEEECCCCCCCCCCHHHHHHHCCCHHHHHHHHHHHHHHCCCCCCCCC
SWPTFRILVHELPEGGSRIHVQASLLFVDGWSFYLFFDQLFTFLDNPNTVLPAASLSFAD
CCCHHEEHEECCCCCCCEEEEEEEEEEEECCHHHHHHHHHHHHHCCCCCCCCCCHHHHHH
YVATTAELDAEQREADTQWWSQRLADLPQPPALPIAQPESYDGVVGMHRDAGRLSAQRAQ
HHHHHHHCCHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCEECCCCHHHHHHHHHH
EFFRICQEHNTTPTAVIGAAWTQAVCALSGDEELLMAVLYFNRKAIAEDVDRVLGPFATT
HHHHHHHHCCCCCHHHHHHHHHHHHHHCCCCHHHHHHHHHHCHHHHHHHHHHHHHHHHHH
CLVHCTPKHWGTDQPAGFAGALATSLSHASLSGIEVARMVSRHRSNHDVVAPVVFTSTLG
HEEEECCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEEEEECC
FDDQASAAATARVDETDVFERVVTPQVLLDLQTSMENGSVAINLDSPRGAFNPEATAALL
CCCCCCHHHHCCCCHHHHHHHHHCHHHHHHHHHCCCCCCEEEEECCCCCCCCCHHHHHHH
DHVLCQVNAYIDNAGQFEPETAATAALQQWAQPREDHAVAVHDNRTIQRSLARCCSPESL
HHHHHHHHHHHCCCCCCCCHHHHHHHHHHHCCCCCCCEEEEECCCHHHHHHHHHCCCHHH
AAVTSEFSHVLGQDCAAETNMYAAGGDSLSMVRIIARLRAKQRLEITPEAFLSDPTPAGV
HHHHHHHHHHHCCHHHHCCCEEECCCCHHHHHHHHHHHHHHHCCCCCHHHHCCCCCCCCH
AARAAYELDPDIHVLPLADGTGEPLYLLHPSGGDVLCYMGLARELQGRPVYAVADPGLED
HHHEEEECCCCEEEEECCCCCCCCEEEEECCCCCEEEEEHHHHHHCCCCEEEEECCCCCC
TPMPVDLDVVALTYGRVIMAHRAGLADTGKHGVREATAGYLIGGWSMGGTVAQRVAVQWR
CCCCCCHHHHHHHHHHHHHHHHCCCCCCCCCHHHHHCCCEEEECCCCCHHHHHHHHHHHH
DQGIAVGALVLIDSNSPDRIRALTGMNDREVDAEFARRYLRSLQAFGAKAVDASAVTESD
CCCEEEEEEEEEECCCCCHHHHCCCCCCCCCCHHHHHHHHHHHHHHCCCCCCHHHCCCCC
PASGVARALAGQGLALKDVERRISVFTRHLAGLAQLRVRPLVDVPTLLVIAEHQSPANSG
CHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCEEEEEECCCCCCCCC
VGMGVDDARDTEHLGWDDNLPTSTTEIMVPGHHYSVLSAPGLEIISEQIRELLA
CCCCCCCCCCCCCCCCCCCCCCCCEEEEECCCCEEEECCCCHHHHHHHHHHHHC
>Mature Secondary Structure 
TTFASTDIAVVAAECRFPGIHTMAELHQQLCSGTPVTHSVPDTGQSGCVPVGTTMDNIE
CCCCCCCEEEEEECCCCCCHHHHHHHHHHHHCCCCCCCCCCCCCCCCCEECCCCCCCCE
FFDPAPFGMSKREAELLEPQARLLHELCLQALDSAGHGFGRGIERAGVIMGGTHPAFLHD
ECCCCCCCCCCHHHHHHCHHHHHHHHHHHHHHHHCCCCHHCCHHHCCEEECCCCCHHHHC
RFPDFDPVGIHDPIETMEASLGSYMDYLATGIAHRLSLTGPAFTVQTACSTSLVAIHLGV
CCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCEEEEHHCCCCHHHHHHHH
QQLLLGESDLVLAGGATIHVPQGHGYQHIPDGPFSADGFTRPYSAQSSGAVFTQGAGVVA
HHHHCCCCCEEEECCCEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCEEECCCCEEE
LRRARDAEADGDPILAVIRGTAVNNDGGRSAGLVAPSMHAHAEVIKEAHAMADISPRQVT
EEHHCCCCCCCCCEEEEEEECEECCCCCCCCCCCCCCHHHHHHHHHHHHHHHCCCCCEEE
YVEGHGTGTRVGDPLEFAAFAEVFGSASTPWCTLGSAKAILGHTEAAAGVASMIAVIGSL
EEECCCCCCCCCCCHHHHHHHHHHCCCCCCEEECCCCHHHHCCCHHHHHHHHHHHHHHCC
QAREIPGTIGTGEPSPDLALEGSALRLADRTQPWGTPDEELIAGISSLGFGGTNCHVVVA
HHHCCCCCCCCCCCCCCCEECCCEEEECCCCCCCCCCHHHHHHHHHHCCCCCCCEEEEEE
QAPRRVEKTPQRPQSFSVLPISAATSGAANAMTTELSQWAHSNPERLADAAWTLQHGRHT
CCCHHHHCCCCCCCCCEEEEECCCCCCCCHHHHHHHHHHHCCCHHHHHHHHHHHHCCCEE
MAYKSAIVVDPHGTTVDTFEACHSPHTARVLFAFPGGGAQKTGMLEQIVRVSPRWRAEFE
EEECEEEEECCCCCCHHHHHHHCCCCCEEEEEEECCCCCCHHHHHHHHHHCCCCHHHHHH
SIARAFSTHLDGDIRAVCAPQFYGCSPVDAADPILGLPALIAAEILCAQMLTAAGITPHG
HHHHHHHHHCCCCEEEEECCCCCCCCCCCCCCCHHCCHHHHHHHHHHHHHHHHCCCCCCC
VIGHSTGEYAAAIAAGALTIDQLAPLIAARSTELARMRSGAMVRVRASAAELEQVLEQFP
CCCCCCCHHHHHHHHHHHHHHHHHHHHHHCCHHHHHHCCCCEEEEECCHHHHHHHHHHCC
SVEISALNSPRSTVLAGDTATMNAVVAQLGSSAELVPVTVAAHSTFVEPALPAVRAAAQQ
CCEEEECCCCCCEEEECCHHHHHHHHHHHCCCCCEEEEEEECCHHHHHHHHHHHHHHHHH
LQAHTPIAPVFSAATASRVTIAQLADPEFWAQHMRQPVRFHDALTTAVDELGGPVVVINV
HHHCCCHHHHHHHHHHCCEEHHHHCCHHHHHHHHCCHHHHHHHHHHHHHHCCCCEEEEEC
GPGATLASLARESGLEGISATVTTAGDDRLLSEQSIAGAVAQLYISGVPLEVAQGAITEL
CCCHHHHHHHHHCCCCCCEEEEEECCCCHHHHHHHHHHHHHHHHHCCCCHHHHCCHHHCC
PPYQFDRLHLWPEKAEHTPSAQPSLWYRLHSRRIPRRSAQPSAANYQLVRITMEADPQDH
CCCCCCEEEECCCHHCCCCCCCCHHHHHHHHHCCCCCCCCCCCCCEEEEEEEEECCCCHH
ATAVVDCCAALVAHSQSTQRQKVVVLECVDNTTAQIVAAAVRSCCDELGIRAIATCGDVS
HHHHHHHHHHHHHCCCCCCCCEEEEEEECCCCHHHHHHHHHHHHHHHHCCEEEEECCCCC
DHDVSYGLAHGAAVVTHNGTTSTYEVPLRTQMPPQNEGTLPRTVVILGGRGRIGQVLAHA
CCCCHHHHCCCEEEEEECCCCCEEEECEECCCCCCCCCCCCEEEEEECCCCCHHHHHHHH
CQEAGIEVVIGTRREGAGHVDPREPQDVARLLREHGCGCDTAVVVATGVVGEQAFAEASD
HHHCCCEEEEECCCCCCCCCCCCCHHHHHHHHHHCCCCCCCHHHHEECHHCHHHHHCCCC
TDAACVRHHWQAKPQVVAAVREACELLGDTAPGHVVVMSSLAAYTGGVGLAAYAAANRAA
CHHHHHHHHCCCCHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHCCCHHHHHHHHCCCC
ECVVAPGTDTRWSVVASDGWRSGEQNSFGRKLLRQSLSQDQGVAAVMSVLASALDGIALL
EEEEECCCCCCEEEEECCCCCCCCCCHHHHHHHHHHHCCCCCHHHHHHHHHHHHCCEEEE
TTRDTDGASFVGSDTAEGAQEHASVQAVVSSGSVAKDVKQMWSQSLGVDVDDSADFFDLG
EECCCCCCCCCCCCCHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHCCCCCCCCCCHHHCC
GSSLQATKLLADVRDRFGVDIRLRHLLAQPSISAMIERIHSQRGEVPEAPFAPETPANSV
CCCHHHHHHHHHHHHHHCCCHHHHHHHHCCCHHHHHHHHHHHCCCCCCCCCCCCCCCCCC
ETWPLTPVQRAYMTGRTHSFGLNAAACHSFVETLVTDIESFDSEALNRAVSTVIDRHPML
CCCCCCHHHHHHHCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCHHH
RAIVDVEGHHALDPSAYRVPVTDCRRSGDPERALQRWREKYSRRESAADQWPLVSLAVAY
HHHHCCCCCCCCCCCCEECCHHHHHCCCCHHHHHHHHHHHHHHHHCCCCCCCHHEEEEEE
APDGVHVGWSVDVLVCDASSFGILFDEISTAYRGQALPPAPQRHFAEHVAAVHTSVKDRE
CCCCEEECEEEEEEEECCCCCCHHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHHHH
YWEEQIPTLPPAPALGEPAGENDSFHRLTYALDAAQAERLEQAAKEHKTTVTSLFLWAYA
HHHHHCCCCCCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH
KALSEYTGQGDMSLMLTVFDRAEEFAGVIGDFTSLVPCPIRWKDGGDSIAAVSTSLFDTL
HHHHHHCCCCCCEEEHHHHHHHHHHHHHHHHHHHHCCCCEEECCCCCCHHHHHHHHHHHH
DHSSMPGPEIVARKSAQDGTAFRLPVVFTSTIGTQVDGGAHDGLGTMIGGASQTPQVVLD
CCCCCCCHHHHEECCCCCCCEEEEEEEEEECCCCCCCCCCCCCCHHHCCCCCCCCCEEEC
HQVFQWGGTLHAQFDAVESVLDAEALERFLAIYRGYLDQIAPVSQPDNSDVIAVWEQILG
HHHHHHCCCEEHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHHHHHHC
VSEVCAQSQWAQCGGDSLDAIRVVAALRRIGVHTTVEEVLGGITPDELGSKRTEVDVVTV
HHHHHHHHHHHHCCCCCHHHHHHHHHHHHHCCHHHHHHHHCCCCHHHHCCCCCEEEEEEE
RRHPAGEPFVLTPLQQAYLVGADGGWDFSHNSAHFYVDYADPDATGEQIIHAVRALIQHQ
ECCCCCCCEEECCCCEEEEEECCCCCCCCCCCEEEEEEECCCCCCHHHHHHHHHHHHHCC
PMLRAIVTDDGHQLILDADDPQVATPPVEVVDLCDATADEVDQAIIEVRERWSVAPVDPR
CHHEEEEECCCCEEEEECCCCCCCCCCHHHHHHHCCCHHHHHHHHHHHHHHCCCCCCCCC
SWPTFRILVHELPEGGSRIHVQASLLFVDGWSFYLFFDQLFTFLDNPNTVLPAASLSFAD
CCCHHEEHEECCCCCCCEEEEEEEEEEEECCHHHHHHHHHHHHHCCCCCCCCCCHHHHHH
YVATTAELDAEQREADTQWWSQRLADLPQPPALPIAQPESYDGVVGMHRDAGRLSAQRAQ
HHHHHHHCCHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCCCCCEECCCCHHHHHHHHHH
EFFRICQEHNTTPTAVIGAAWTQAVCALSGDEELLMAVLYFNRKAIAEDVDRVLGPFATT
HHHHHHHHCCCCCHHHHHHHHHHHHHHCCCCHHHHHHHHHHCHHHHHHHHHHHHHHHHHH
CLVHCTPKHWGTDQPAGFAGALATSLSHASLSGIEVARMVSRHRSNHDVVAPVVFTSTLG
HEEEECCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEEEEECC
FDDQASAAATARVDETDVFERVVTPQVLLDLQTSMENGSVAINLDSPRGAFNPEATAALL
CCCCCCHHHHCCCCHHHHHHHHHCHHHHHHHHHCCCCCCEEEEECCCCCCCCCHHHHHHH
DHVLCQVNAYIDNAGQFEPETAATAALQQWAQPREDHAVAVHDNRTIQRSLARCCSPESL
HHHHHHHHHHHCCCCCCCCHHHHHHHHHHHCCCCCCCEEEEECCCHHHHHHHHHCCCHHH
AAVTSEFSHVLGQDCAAETNMYAAGGDSLSMVRIIARLRAKQRLEITPEAFLSDPTPAGV
HHHHHHHHHHHCCHHHHCCCEEECCCCHHHHHHHHHHHHHHHCCCCCHHHHCCCCCCCCH
AARAAYELDPDIHVLPLADGTGEPLYLLHPSGGDVLCYMGLARELQGRPVYAVADPGLED
HHHEEEECCCCEEEEECCCCCCCCEEEEECCCCCEEEEEHHHHHHCCCCEEEEECCCCCC
TPMPVDLDVVALTYGRVIMAHRAGLADTGKHGVREATAGYLIGGWSMGGTVAQRVAVQWR
CCCCCCHHHHHHHHHHHHHHHHCCCCCCCCCHHHHHCCCEEEECCCCCHHHHHHHHHHHH
DQGIAVGALVLIDSNSPDRIRALTGMNDREVDAEFARRYLRSLQAFGAKAVDASAVTESD
CCCEEEEEEEEEECCCCCHHHHCCCCCCCCCCHHHHHHHHHHHHHHCCCCCCHHHCCCCC
PASGVARALAGQGLALKDVERRISVFTRHLAGLAQLRVRPLVDVPTLLVIAEHQSPANSG
CHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCEEEEEECCCCCCCCC
VGMGVDDARDTEHLGWDDNLPTSTTEIMVPGHHYSVLSAPGLEIISEQIRELLA
CCCCCCCCCCCCCCCCCCCCCCCCEEEEECCCCEEEECCCCHHHHHHHHHHHHC

PDB accession: NA

Resolution: NA

Structure class: Unstructured

Cofactors: NA

Metal ions: NA

Kcat value (1/min): NA

Specific activity: NA

Km value (mM): NA

Substrates: NA

Specific reaction: NA

General reaction: NA

Inhibitor: NA

Structure determination priority: 9.0

TargetDB status: NA

Availability: NA

References: 2024119; 8386127 [H]