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The map label for this gene is ebh [H]

Identifier: 148268606

GI number: 148268606

Start: 2317880

End: 2325325

Strand: Reverse

Name: ebh [H]

Synonym: SaurJH9_2192

Alternate gene names: 148268606

Gene position: 2325325-2317880 (Counterclockwise)

Preceding gene: 148268607

Following gene: 148268601

Centisome position: 80.0

GC content: 35.21

Gene sequence:

>7446_bases
ATGAATTTATTCAGACAACAAAAATTTAGTATCAGAAAATTTAATGTCGGTATTTTTTCAGCTTTAATTGCCACTGTTAC
TTTTATATCTACTAACCCGACAACAGCGTCTGCAGCAGAGCAAAATCAGCCTGCACAAAATCAACCAGCACAACCAGCTG
ATGCCAATACACAGCCTAACGCAAATGCTGGTGCTCAAGCTAATCCTGCAGCACAGCCAGCAAACCAAGGTGGACAGGCT
AATCCAGCAGGAGGAGCAGCACAACCAGCTGGACAAGGTAATCAAGCTGATCCGAATAACGCTGCACAAGCACAACCTGG
AAATCAAGCAGCACCGGCAAACCAAGCAGGTCAAGGAAATAACCAAGCAACACCTAATAATAATGCAACACCGGCAAATC
AAACACAGCCAGCGAATGCTCCAGCAGCAGCGCAACCAGCAGCACCTGTAGCAGCAAACGCACAAACTCAAGATCCAAAT
GCTAGCAATACTGGTGAAGGCAGTATTAATACGACATTAACATTTGATGATCCTGCCATATCAACAGATGAGAATAGACA
GGATCCAACTGTAACTGTTACAGATAAAGTAAATGGTTATTCATTAATTAACAACGGTAAGATTGGTTTCGTTAACTCAG
AATTAAGACGAAGCGATATGTTTGATAAGAATAACCCTCAAAACTATCAAGCTAAAGGAAACGTGGCTGCATTAGGTCGT
GTGAATGCAAATGATTCTACAGATCATGGTAACTTTAACGGTATTACAAAAACTGTAAATGTAAAACCAGATTCAGAATT
AATTATTAACTTTACTACTATGCAAACGAATAGTAAGCAAGGTGCAACAAATTTAGTTATTAAAGATGCTAAGAAAAATA
CTGAATTAGCAACTGTAAATGTTGCTAAGACTGGTACTGCACATTTATTTAAAGTACCAACTGATGCTGATCGTTTAGAT
TTACAATTTATTCCTGACAATACAGCAGTTGCTGATGCTTCAAGAATTACAACAAATAAAGATGGTTATAAATACTATTC
ATTCATTGATAATGTAGGTCTATTCTCAGGATCACATTTATATGTCAAAAATAGAGATTTAGCACCGAAAGCAACTAACA
ATAAAGAATATACTATTAATACTGAAATCGGTAACAATGGTAATTTTGGTGCTTCATTAAAAGCAGATCAATTTAAATAT
GAAGTAACATTACCACAAGGTGTAACTTACGTTAATGATTCATTAACTACAACATTCCCTAATGGTAATGAAGACAGTAC
AGTATTGAAAAATATGACTGTTAATTATGATCAAACTGCAAATAAAGTTACATTTACAAGCCAAGGTGTGACAACGGCAC
GTGGTACACACACTAAAGAAGTTTTATTCCCAGATAAATCTTTAAAATTATCATATAAAGTTAATGTTGCGAATATCGAT
ACACCTAAAAATATTGATTTTAATGAAAAATTAACATATCGTACTGCTTCAGATGTTGTAATTAATAATGCGCAACCAGA
AGTTACACTAACTGCAGATCCATTTTCAGTAGCGGTTGAAATGAACAAAGATGCGTTGCAACAACAAGTAAACTCACAAG
TTGATAATAGTCATTACACAACAGCATCAATTGCAGAATACAATAAACTTAAACAACAAGCAGACACTATTTTAAATGAA
GATGCGAATCACGTTGAAACTGCAAATCGTGCATCTCAAGCGGATATTGACGGTTTAGTAACTAAATTACAAGCTGCATT
AATTGATAATCAAGCAGCAATTGCTGAATTAGATACTAAAGCTCAAGAAAAGGTTACAGCAGCACAACAAAGTAAAAAAG
TTACGCAAGATGAAGTTGCAGCGCTTGTGACTAAAATTAACAATGATAAAAATAATGCAATCGCAGAAATTAATAAACAA
ATAACATCACAAGGTGTCACAACTGAAAAAGATAATGGTATCGCAGTGTTAGAACAAGATGTGATTACACCAACAGTTAA
ACCTCAAGCGAAACAAGATATTATCCAAGCAGTTACAACTCGTAAACAACAAATTAAAAAGTCAAATGCATCATTACAAG
ATGAAAAAGATGTAGCAAATGATAAAATTGGTAAAATTGAAACAAAGGCAATTAAAGATATTGATGCAGCAACAACAAAT
GCACAAGTAGAAGCCATTAAAACAAAAGCAATCAATGATATTAATCAAACTACACCTGCTACAACAGCTAAAGCAGCAGC
TCTTGAAGAATTTGACGAAGTTGTTCAAGCACAAATTGATCAAGCACCTTTAAATCCTGATACAACAAATGAAGAAGTAG
CGGAAGCTATTGAACGTATTAATGCAGCTAAAGTTTCTGGTGTTAAAGCAATTGAAGCGACAACGACTGCACAAGATTTA
GAACGCGTTAAAAACGAAGAAATATTCAAAATTGAGAATATTACGGATTCAACTCAAACTAAAATGGATGCTTATAAAGA
AGTTAGACAAGCAGCTACAGCTAGAAAAGCGCAAAATGCTACAGTTTCAAATGCAACTGATGAAGAAGTAGCAGAGGCAA
ATGCAGCAGTAGATGCAGCTCAAACAGAAGGTTTACATGACATCCAAGTTGTTAAATCACAACAAGAAGTGGCTGATACT
AAAGCAAAAGTATTAGATAAAATCAATGCAATTCAAACACAAGCAAAAGTTAAACCTGCAGCTGATACAGAAGTAGAAAA
CGCATATAATACACGTAAACAAGAAATCCAAAATAGCAATGCTTCAACTACAGAAGAAAAAGAAGCTGCATATACAGAAT
TAGATGCTAAAAAGCAAGAAGCAAGAACAAATCTTGATGCTGCAAATACAAACAGTGATGTAACAACAGCTAAAGACAAT
GGTATTGCTGCAATTAATCAAGTGCAAGCTGCCACAACTAAGAAATCGGATGCTAAAGCGGAAATCGCTCAAAAAGCAAG
TGAACGTAAAACTGCAATTGAAGCAATGAATGATTCGACTACTGAAGAACAACAAGCTGCAAAAGATAAAGTTGATCAAG
CAGTAGTTACTGCAAACGCTGATATAGATAATGCTACAGCAAATACAGATGTAGATAATGCAAAAACTACTAATGAAGCT
ACAATAGCTGCAATTACGCCAGATGCAAATGTTAAACCAGCAGCAAAACAAGCAATTGCAGATAAAGTACAAGCTCAAGA
AACAGCAATTGATGCTAATAACGGTTCAACAACAGAAGAAAAAGAAGCTGCTAAACAACAAGTTCAAACTGAAAAAACGG
CTGCTGATGCAGCAATAGATGCAGCTCATTCAAATGTGGAAGTTGAAGCGGCTAAAAATGCAGAAATTGCTAAAATTGAA
GCGATTCAGCCAGCAACAACAACTAAAGATAATGCGAAACAAGCAATTGCTACGAAAGCGAATGAACGTAAAACAGCAAT
CGCTCAAACGCAAGATATTACTGCTGAAGAAATTGCAGCGGCTAATGCGGACGTAGATAATGCTGTGACACAAGCAAATA
GCAACATTGAAGCTGCTAATAGTCAAAATGATGTAGACCAAGCGAAAACGACAGGTGAAACTAGTATTGATCAAGTAACA
CCAACAGTTAATAAAAAAGCAACTGCACGTAATGAAATCACAGCAATTTTAAATAACAAATTGCAAGAGATTCAAGCTAC
ACCAGATGCAACAGATGAAGAAAAACAAGCAGCTGATGCAGAAGCAAATACTGAAAATGGTAAAGCAAATCAAGCCATTT
CAGCAGCAACTACTAACGCACAAGTTGATGAAGCGAAAGCTAATGCAGAAGCAGCAATTAATGCGGTAACACCAAAAGTT
GTTAAGAAACAAGCGGCTAAAGATGAGATTGATCAATTACAAGCAACGCAAACAAATGTTATCAATAATGATCAGAACGC
TACAAATGAAGAAAAAGAAGCAGCTATTCAACAATTAGCAACAGCAGTTACAGACGCGAAAAATAATATTACAGCTGCAA
CTGATGATAATGGTGTAGATACAGCGAAAGACGCTGGAAAGAATTCAATTCAAAGCACACAACCAGCAACAGCAGTTAAA
TCGAATGCGAAAAATGAAGTTGATCAAGCTGTGACAACTCAAAATCAAGCAATTGATAATACAACTGGCGCTACAACTGA
AGAGAAAAATGCAGCAAAAGATTTAGTTTTAAAAGCTAAAGAAAAAGCGTATCAAGATATCTTAAATGCACAAACAACTA
ATGATGTTACGCAAATTAAAGATCAAGCAGTTGCTGATATTCAAGGTATTACTGCAGATACAACAATTAAAGATGTTGCG
AAAGATGAATTAGCAACAAAAGCAAACGAACAAAAAGCGCTTATTGCACAAACTGCAGATGCGACTACTGAAGAAAAAGA
ACAAGCAAATCAACAAGTAGACGCACAATTAACACAAGGTAATCAAAATATTGAAAATGCACAGTCAATCGATGATGTAA
ACACTGCAAAAGATAATGCAATTCAAGCAATTGACCCAATTCAAGCATCAACAGATGTTAAAACGAATGCAAGAGCAGAA
TTGCTAACTGAAATGCAAAATAAAATAACTGAAATACTTAATAATAATGAGACTACTAATGAAGAAAAAGGTAACGATAT
TGGACCAGTTAGAGCAGCATATGAAGAAGGTTTAAATAATATTAATGCAGCAACTACTACAGGTGATGTAACTACTGCTA
AAGATACAGCAGTACAAAAAGTTCAACAACTTCATGCAAATCCTGTTAAGAAACCAGCAGGTAAAAAAGAATTAGATCAA
GCTGCAGCTGATAAGAAAACACAAATAGAACAAACACCAAATGCATCACAACAAGAAATTAATGATGCAAAACAAGAAGT
TGATACTGAATTAAATCAAGCGAAAACAAATGTCGATCAATCATCAACAAATGAATATGTTGATAATGCAGTTAAAGAAG
GAAAAGCTAAAATTAATGCAGTTAAAACATTTAGTGAGTACAAAAAAGATGCTTTAGCTAAAATTGAAGATGCATATAAT
GCTAAAGTAAACGAAGCGGATAACTCTAACGCATCGACTTCAAGTGAAATTGCTGAAGCGAAACAAAAACTTGCTGAATT
AAAACAAACTGCGGATCAAAATGTTAATCAAGCTACTTCTAAAGATGACATTGAAGTTCAAATTCATAATGACTTAGATA
ATATTAACGATTACACAATTCCAACAGGTAAAAAAGAATCAGCTACAACAGATTTATATGCTTATGCAGATCAGAAGAAA
AATAATATTTCAGCTGACACTAATGCAACACAAGATGAAAAGCAACAAGCAATTAAGCAAGTTGACCAAAATGTTCAAAC
TGCATTAGAAAACATTAATAATGGTGTGGATAATGGTGACGTTGATGATGCATTAACACAAGGTAAAGCAGCAATTGATA
CTATTCAAGTAGATGCTACTGTTAAACCTAAAGCGAACCAAGCTATTGAAGCTAAAGCAGAAGATACGAAAGAATCAATT
GATCATAGTGACCAGTTAACTGCTGAAGAAAAAACTGAAGCATTAGCAATGATTAAACAAATTACAGATCAAGCTAAACA
AGGTATTACTGATGCAACAACAACTGCTGAAGTTGAAAAAGCGAAAGCTCAAGGACTTGAGGCATTTGATAACATTCAAA
TTGACTCAACAGAAAAACAAAAAGCTATCGAAGAATTAGAAACTGCACTAGACCAGATTGAAGCAGGTGTAAATGTCGAC
GCTGATGCTACAACTGAAGAAAAAGAAGCGTTTACGAATGCTTTAGAAGACATTTTATCAAAAGCAACTGAAGATATTTC
TGATCAAACTACAAATGCAGAAATCGCTACTGTCAAAAATAGTGCGCTTGAACAACTTAAAGCACAACGTATTAATCCAG
TAGTTAAGAAAAATGCTTTGGAAGCAATTAGAGAAGTGGTTAACAAGCAAATAGAAATAATTAAAAATGCAGATGCAGAT
GCATCGGCGAAAGAAATTGCACGTACAGATTTAGGTAGATATTTTGACAGATTTGCTGATAAATTAGATAAAACACAAAC
AAATACAGAGGTTGCTGAATTACAAAATGTAACGATACCTGCAATTGAAGCGATTGTGCCTCAGAATGATCCAGATGCTA
ATGATACTAATAATGGTACAGATAATAATGATGCAACAGCAAATTCAAATGCTAATGCAACACCAGAAAACACTGGACAA
CCTAACGTATCTGAGACGACAGATAATGGCAAAGCAGACGCTTCTCCGACAACACCAAATAATAGTGATGCGGCAACAGG
TGAAACAACAGTAACATCAGCAACTGATGATGCAAAGGATAAACCGCAAGCTAATAACAATTCTAGTGCAGATGCATCAA
CAAACAGTCCGACAATGGATAACGATGTAACTAGTAAACCAGAAGTAGAATCAACTAATAACGGCACAACTGATAAACCT
GTAACAGAAACAGATAATGCAACGCCAGCAGAAAGCACAACAAATAACAATAGTACAACTACAGCAACAAACGAGAATGC
ACCAACAGGATCAACAGCAACGGCTCCAACAACTGCGAGCACAGAAGCAGCATCATCTGCTGATAGTAAAGATAATGCAT
CTGTAAATGATTCAAAACAAAATGCTGAAGTAAATAATAGTGCTGAATCTCAATCAACTAATGGCAAGGTTGCACAACCA
AAATCTGAAAATAAAGCTAAGGCAGAAAAAGATGGTAGAGATTCAACAAATCAAAGTATGGTTGAATCAACAACTGAAAC
ATTGCCTTCAGCAGACATAACAGAACCAAATGTACCTTCTAATACATCAAAAGATAAAGAAGAAAGTACGACAAATCAAA
CTGATGCAGGACAACTTAAGTCTGAAACTAACGTTGCATCTAACGAAGCAGATAAATCGCCAAGCAAAGCTGATACTGAA
GTTTCGAATAAACCATCAACATCTGCATCTTCTGAAGCAAAAGATAAAATGACTTCAACTAATGTTAGCCAAAAAGATGA
TACGGCAACAGCAGATACTAATGATACGCAAAAATCAGTTGGCCCAGTTGCAAACAATAAAGCTAAAGATATGCAAACTA
ATGATACGCAAAAATCAGTTGGTTCAGCTGCAAACAATAAAGCTACGCAAAACGACGGTGCCAATGCATCTCCAGCAACA
GTTTCAAATGGTAGTCATAGTATGCATCAAGATATGCTTAATGTAACTAAGCCTGAAGAAAACAAAGCAAATGCAAAATC
AGACCAACAAGGAAAAGTTAATAAGCCTAAACAACAAGCTAAAACTTTACCAGATACTGGTATGTCACATAATGACGATT
TACCATATGCTGAATTAGCTCTAGGTGCAGGTATGGCATTCTTAATTAGAAGATTCACTAAGAAAGACCAACAAACTGAA
GAATAA

Upstream 100 bases:

>100_bases
AGTTGCTTTGTGTTTTTAACGCAGATGCTACTACTTATCTTAACAGTTGATTAAGTGAAATCATTTAACAGCGAGAATAA
TCAACCAGGAGGATGACTTA

Downstream 100 bases:

>100_bases
AATTTATTCAAGAATGTGAACATCTAGTTATTTCATAGGGAAATATTCCTTACTAAGTAACCAAGTCTAACAGTTAATAT
GAATTTGTTTTAGTAATGAC

Product: cell wall anchor domain-containing protein

Products: NA

Alternate protein names: ECM-binding protein homolog [H]

Number of amino acids: Translated: 2481; Mature: 2481

Protein sequence:

>2481_residues
MNLFRQQKFSIRKFNVGIFSALIATVTFISTNPTTASAAEQNQPAQNQPAQPADANTQPNANAGAQANPAAQPANQGGQA
NPAGGAAQPAGQGNQADPNNAAQAQPGNQAAPANQAGQGNNQATPNNNATPANQTQPANAPAAAQPAAPVAANAQTQDPN
ASNTGEGSINTTLTFDDPAISTDENRQDPTVTVTDKVNGYSLINNGKIGFVNSELRRSDMFDKNNPQNYQAKGNVAALGR
VNANDSTDHGNFNGITKTVNVKPDSELIINFTTMQTNSKQGATNLVIKDAKKNTELATVNVAKTGTAHLFKVPTDADRLD
LQFIPDNTAVADASRITTNKDGYKYYSFIDNVGLFSGSHLYVKNRDLAPKATNNKEYTINTEIGNNGNFGASLKADQFKY
EVTLPQGVTYVNDSLTTTFPNGNEDSTVLKNMTVNYDQTANKVTFTSQGVTTARGTHTKEVLFPDKSLKLSYKVNVANID
TPKNIDFNEKLTYRTASDVVINNAQPEVTLTADPFSVAVEMNKDALQQQVNSQVDNSHYTTASIAEYNKLKQQADTILNE
DANHVETANRASQADIDGLVTKLQAALIDNQAAIAELDTKAQEKVTAAQQSKKVTQDEVAALVTKINNDKNNAIAEINKQ
ITSQGVTTEKDNGIAVLEQDVITPTVKPQAKQDIIQAVTTRKQQIKKSNASLQDEKDVANDKIGKIETKAIKDIDAATTN
AQVEAIKTKAINDINQTTPATTAKAAALEEFDEVVQAQIDQAPLNPDTTNEEVAEAIERINAAKVSGVKAIEATTTAQDL
ERVKNEEIFKIENITDSTQTKMDAYKEVRQAATARKAQNATVSNATDEEVAEANAAVDAAQTEGLHDIQVVKSQQEVADT
KAKVLDKINAIQTQAKVKPAADTEVENAYNTRKQEIQNSNASTTEEKEAAYTELDAKKQEARTNLDAANTNSDVTTAKDN
GIAAINQVQAATTKKSDAKAEIAQKASERKTAIEAMNDSTTEEQQAAKDKVDQAVVTANADIDNATANTDVDNAKTTNEA
TIAAITPDANVKPAAKQAIADKVQAQETAIDANNGSTTEEKEAAKQQVQTEKTAADAAIDAAHSNVEVEAAKNAEIAKIE
AIQPATTTKDNAKQAIATKANERKTAIAQTQDITAEEIAAANADVDNAVTQANSNIEAANSQNDVDQAKTTGETSIDQVT
PTVNKKATARNEITAILNNKLQEIQATPDATDEEKQAADAEANTENGKANQAISAATTNAQVDEAKANAEAAINAVTPKV
VKKQAAKDEIDQLQATQTNVINNDQNATNEEKEAAIQQLATAVTDAKNNITAATDDNGVDTAKDAGKNSIQSTQPATAVK
SNAKNEVDQAVTTQNQAIDNTTGATTEEKNAAKDLVLKAKEKAYQDILNAQTTNDVTQIKDQAVADIQGITADTTIKDVA
KDELATKANEQKALIAQTADATTEEKEQANQQVDAQLTQGNQNIENAQSIDDVNTAKDNAIQAIDPIQASTDVKTNARAE
LLTEMQNKITEILNNNETTNEEKGNDIGPVRAAYEEGLNNINAATTTGDVTTAKDTAVQKVQQLHANPVKKPAGKKELDQ
AAADKKTQIEQTPNASQQEINDAKQEVDTELNQAKTNVDQSSTNEYVDNAVKEGKAKINAVKTFSEYKKDALAKIEDAYN
AKVNEADNSNASTSSEIAEAKQKLAELKQTADQNVNQATSKDDIEVQIHNDLDNINDYTIPTGKKESATTDLYAYADQKK
NNISADTNATQDEKQQAIKQVDQNVQTALENINNGVDNGDVDDALTQGKAAIDTIQVDATVKPKANQAIEAKAEDTKESI
DHSDQLTAEEKTEALAMIKQITDQAKQGITDATTTAEVEKAKAQGLEAFDNIQIDSTEKQKAIEELETALDQIEAGVNVD
ADATTEEKEAFTNALEDILSKATEDISDQTTNAEIATVKNSALEQLKAQRINPVVKKNALEAIREVVNKQIEIIKNADAD
ASAKEIARTDLGRYFDRFADKLDKTQTNTEVAELQNVTIPAIEAIVPQNDPDANDTNNGTDNNDATANSNANATPENTGQ
PNVSETTDNGKADASPTTPNNSDAATGETTVTSATDDAKDKPQANNNSSADASTNSPTMDNDVTSKPEVESTNNGTTDKP
VTETDNATPAESTTNNNSTTTATNENAPTGSTATAPTTASTEAASSADSKDNASVNDSKQNAEVNNSAESQSTNGKVAQP
KSENKAKAEKDGRDSTNQSMVESTTETLPSADITEPNVPSNTSKDKEESTTNQTDAGQLKSETNVASNEADKSPSKADTE
VSNKPSTSASSEAKDKMTSTNVSQKDDTATADTNDTQKSVGPVANNKAKDMQTNDTQKSVGSAANNKATQNDGANASPAT
VSNGSHSMHQDMLNVTKPEENKANAKSDQQGKVNKPKQQAKTLPDTGMSHNDDLPYAELALGAGMAFLIRRFTKKDQQTE
E

Sequences:

>Translated_2481_residues
MNLFRQQKFSIRKFNVGIFSALIATVTFISTNPTTASAAEQNQPAQNQPAQPADANTQPNANAGAQANPAAQPANQGGQA
NPAGGAAQPAGQGNQADPNNAAQAQPGNQAAPANQAGQGNNQATPNNNATPANQTQPANAPAAAQPAAPVAANAQTQDPN
ASNTGEGSINTTLTFDDPAISTDENRQDPTVTVTDKVNGYSLINNGKIGFVNSELRRSDMFDKNNPQNYQAKGNVAALGR
VNANDSTDHGNFNGITKTVNVKPDSELIINFTTMQTNSKQGATNLVIKDAKKNTELATVNVAKTGTAHLFKVPTDADRLD
LQFIPDNTAVADASRITTNKDGYKYYSFIDNVGLFSGSHLYVKNRDLAPKATNNKEYTINTEIGNNGNFGASLKADQFKY
EVTLPQGVTYVNDSLTTTFPNGNEDSTVLKNMTVNYDQTANKVTFTSQGVTTARGTHTKEVLFPDKSLKLSYKVNVANID
TPKNIDFNEKLTYRTASDVVINNAQPEVTLTADPFSVAVEMNKDALQQQVNSQVDNSHYTTASIAEYNKLKQQADTILNE
DANHVETANRASQADIDGLVTKLQAALIDNQAAIAELDTKAQEKVTAAQQSKKVTQDEVAALVTKINNDKNNAIAEINKQ
ITSQGVTTEKDNGIAVLEQDVITPTVKPQAKQDIIQAVTTRKQQIKKSNASLQDEKDVANDKIGKIETKAIKDIDAATTN
AQVEAIKTKAINDINQTTPATTAKAAALEEFDEVVQAQIDQAPLNPDTTNEEVAEAIERINAAKVSGVKAIEATTTAQDL
ERVKNEEIFKIENITDSTQTKMDAYKEVRQAATARKAQNATVSNATDEEVAEANAAVDAAQTEGLHDIQVVKSQQEVADT
KAKVLDKINAIQTQAKVKPAADTEVENAYNTRKQEIQNSNASTTEEKEAAYTELDAKKQEARTNLDAANTNSDVTTAKDN
GIAAINQVQAATTKKSDAKAEIAQKASERKTAIEAMNDSTTEEQQAAKDKVDQAVVTANADIDNATANTDVDNAKTTNEA
TIAAITPDANVKPAAKQAIADKVQAQETAIDANNGSTTEEKEAAKQQVQTEKTAADAAIDAAHSNVEVEAAKNAEIAKIE
AIQPATTTKDNAKQAIATKANERKTAIAQTQDITAEEIAAANADVDNAVTQANSNIEAANSQNDVDQAKTTGETSIDQVT
PTVNKKATARNEITAILNNKLQEIQATPDATDEEKQAADAEANTENGKANQAISAATTNAQVDEAKANAEAAINAVTPKV
VKKQAAKDEIDQLQATQTNVINNDQNATNEEKEAAIQQLATAVTDAKNNITAATDDNGVDTAKDAGKNSIQSTQPATAVK
SNAKNEVDQAVTTQNQAIDNTTGATTEEKNAAKDLVLKAKEKAYQDILNAQTTNDVTQIKDQAVADIQGITADTTIKDVA
KDELATKANEQKALIAQTADATTEEKEQANQQVDAQLTQGNQNIENAQSIDDVNTAKDNAIQAIDPIQASTDVKTNARAE
LLTEMQNKITEILNNNETTNEEKGNDIGPVRAAYEEGLNNINAATTTGDVTTAKDTAVQKVQQLHANPVKKPAGKKELDQ
AAADKKTQIEQTPNASQQEINDAKQEVDTELNQAKTNVDQSSTNEYVDNAVKEGKAKINAVKTFSEYKKDALAKIEDAYN
AKVNEADNSNASTSSEIAEAKQKLAELKQTADQNVNQATSKDDIEVQIHNDLDNINDYTIPTGKKESATTDLYAYADQKK
NNISADTNATQDEKQQAIKQVDQNVQTALENINNGVDNGDVDDALTQGKAAIDTIQVDATVKPKANQAIEAKAEDTKESI
DHSDQLTAEEKTEALAMIKQITDQAKQGITDATTTAEVEKAKAQGLEAFDNIQIDSTEKQKAIEELETALDQIEAGVNVD
ADATTEEKEAFTNALEDILSKATEDISDQTTNAEIATVKNSALEQLKAQRINPVVKKNALEAIREVVNKQIEIIKNADAD
ASAKEIARTDLGRYFDRFADKLDKTQTNTEVAELQNVTIPAIEAIVPQNDPDANDTNNGTDNNDATANSNANATPENTGQ
PNVSETTDNGKADASPTTPNNSDAATGETTVTSATDDAKDKPQANNNSSADASTNSPTMDNDVTSKPEVESTNNGTTDKP
VTETDNATPAESTTNNNSTTTATNENAPTGSTATAPTTASTEAASSADSKDNASVNDSKQNAEVNNSAESQSTNGKVAQP
KSENKAKAEKDGRDSTNQSMVESTTETLPSADITEPNVPSNTSKDKEESTTNQTDAGQLKSETNVASNEADKSPSKADTE
VSNKPSTSASSEAKDKMTSTNVSQKDDTATADTNDTQKSVGPVANNKAKDMQTNDTQKSVGSAANNKATQNDGANASPAT
VSNGSHSMHQDMLNVTKPEENKANAKSDQQGKVNKPKQQAKTLPDTGMSHNDDLPYAELALGAGMAFLIRRFTKKDQQTE
E
>Mature_2481_residues
MNLFRQQKFSIRKFNVGIFSALIATVTFISTNPTTASAAEQNQPAQNQPAQPADANTQPNANAGAQANPAAQPANQGGQA
NPAGGAAQPAGQGNQADPNNAAQAQPGNQAAPANQAGQGNNQATPNNNATPANQTQPANAPAAAQPAAPVAANAQTQDPN
ASNTGEGSINTTLTFDDPAISTDENRQDPTVTVTDKVNGYSLINNGKIGFVNSELRRSDMFDKNNPQNYQAKGNVAALGR
VNANDSTDHGNFNGITKTVNVKPDSELIINFTTMQTNSKQGATNLVIKDAKKNTELATVNVAKTGTAHLFKVPTDADRLD
LQFIPDNTAVADASRITTNKDGYKYYSFIDNVGLFSGSHLYVKNRDLAPKATNNKEYTINTEIGNNGNFGASLKADQFKY
EVTLPQGVTYVNDSLTTTFPNGNEDSTVLKNMTVNYDQTANKVTFTSQGVTTARGTHTKEVLFPDKSLKLSYKVNVANID
TPKNIDFNEKLTYRTASDVVINNAQPEVTLTADPFSVAVEMNKDALQQQVNSQVDNSHYTTASIAEYNKLKQQADTILNE
DANHVETANRASQADIDGLVTKLQAALIDNQAAIAELDTKAQEKVTAAQQSKKVTQDEVAALVTKINNDKNNAIAEINKQ
ITSQGVTTEKDNGIAVLEQDVITPTVKPQAKQDIIQAVTTRKQQIKKSNASLQDEKDVANDKIGKIETKAIKDIDAATTN
AQVEAIKTKAINDINQTTPATTAKAAALEEFDEVVQAQIDQAPLNPDTTNEEVAEAIERINAAKVSGVKAIEATTTAQDL
ERVKNEEIFKIENITDSTQTKMDAYKEVRQAATARKAQNATVSNATDEEVAEANAAVDAAQTEGLHDIQVVKSQQEVADT
KAKVLDKINAIQTQAKVKPAADTEVENAYNTRKQEIQNSNASTTEEKEAAYTELDAKKQEARTNLDAANTNSDVTTAKDN
GIAAINQVQAATTKKSDAKAEIAQKASERKTAIEAMNDSTTEEQQAAKDKVDQAVVTANADIDNATANTDVDNAKTTNEA
TIAAITPDANVKPAAKQAIADKVQAQETAIDANNGSTTEEKEAAKQQVQTEKTAADAAIDAAHSNVEVEAAKNAEIAKIE
AIQPATTTKDNAKQAIATKANERKTAIAQTQDITAEEIAAANADVDNAVTQANSNIEAANSQNDVDQAKTTGETSIDQVT
PTVNKKATARNEITAILNNKLQEIQATPDATDEEKQAADAEANTENGKANQAISAATTNAQVDEAKANAEAAINAVTPKV
VKKQAAKDEIDQLQATQTNVINNDQNATNEEKEAAIQQLATAVTDAKNNITAATDDNGVDTAKDAGKNSIQSTQPATAVK
SNAKNEVDQAVTTQNQAIDNTTGATTEEKNAAKDLVLKAKEKAYQDILNAQTTNDVTQIKDQAVADIQGITADTTIKDVA
KDELATKANEQKALIAQTADATTEEKEQANQQVDAQLTQGNQNIENAQSIDDVNTAKDNAIQAIDPIQASTDVKTNARAE
LLTEMQNKITEILNNNETTNEEKGNDIGPVRAAYEEGLNNINAATTTGDVTTAKDTAVQKVQQLHANPVKKPAGKKELDQ
AAADKKTQIEQTPNASQQEINDAKQEVDTELNQAKTNVDQSSTNEYVDNAVKEGKAKINAVKTFSEYKKDALAKIEDAYN
AKVNEADNSNASTSSEIAEAKQKLAELKQTADQNVNQATSKDDIEVQIHNDLDNINDYTIPTGKKESATTDLYAYADQKK
NNISADTNATQDEKQQAIKQVDQNVQTALENINNGVDNGDVDDALTQGKAAIDTIQVDATVKPKANQAIEAKAEDTKESI
DHSDQLTAEEKTEALAMIKQITDQAKQGITDATTTAEVEKAKAQGLEAFDNIQIDSTEKQKAIEELETALDQIEAGVNVD
ADATTEEKEAFTNALEDILSKATEDISDQTTNAEIATVKNSALEQLKAQRINPVVKKNALEAIREVVNKQIEIIKNADAD
ASAKEIARTDLGRYFDRFADKLDKTQTNTEVAELQNVTIPAIEAIVPQNDPDANDTNNGTDNNDATANSNANATPENTGQ
PNVSETTDNGKADASPTTPNNSDAATGETTVTSATDDAKDKPQANNNSSADASTNSPTMDNDVTSKPEVESTNNGTTDKP
VTETDNATPAESTTNNNSTTTATNENAPTGSTATAPTTASTEAASSADSKDNASVNDSKQNAEVNNSAESQSTNGKVAQP
KSENKAKAEKDGRDSTNQSMVESTTETLPSADITEPNVPSNTSKDKEESTTNQTDAGQLKSETNVASNEADKSPSKADTE
VSNKPSTSASSEAKDKMTSTNVSQKDDTATADTNDTQKSVGPVANNKAKDMQTNDTQKSVGSAANNKATQNDGANASPAT
VSNGSHSMHQDMLNVTKPEENKANAKSDQQGKVNKPKQQAKTLPDTGMSHNDDLPYAELALGAGMAFLIRRFTKKDQQTE
E

Specific function: Promotes bacterial attachment to both soluble and immobilized forms of fibronectin (Fn), in a dose-dependent and saturable manner [H]

COG id: NA

COG function: NA

Gene ontology:

Cell location: Cell membrane; Single-pass membrane protein (Potential) [H]

Metaboloic importance: NA

Operon status: Not Known

Operon components: None

Similarity: Contains 49 FIVAR domains [H]

Homologues:

Organism=Drosophila melanogaster, GI221472639, Length=407, Percent_Identity=22.1130221130221, Blast_Score=75, Evalue=5e-13,

Paralogues:

None

Copy number: NA

Swissprot (AC and ID): NA

Other databases:

- InterPro:   IPR011439
- InterPro:   IPR011490
- InterPro:   IPR020840
- InterPro:   IPR002988
- InterPro:   IPR005877
- InterPro:   IPR009063 [H]

Pfam domain/function: PF07564 DUF1542; PF07554 FIVAR; PF01468 GA; PF04650 YSIRK_signal [H]

EC number: NA

Molecular weight: Translated: 263780; Mature: 263780

Theoretical pI: Translated: 4.32; Mature: 4.32

Prosite motif: PS01075 ACETATE_KINASE_1

Important sites: NA

Signals:

None

Transmembrane regions:

None

Cys/Met content:

0.0 %Cys     (Translated Protein)
0.7 %Met     (Translated Protein)
0.7 %Cys+Met (Translated Protein)
0.0 %Cys     (Mature Protein)
0.7 %Met     (Mature Protein)
0.7 %Cys+Met (Mature Protein)

Secondary structure:

>Translated Secondary Structure
MNLFRQQKFSIRKFNVGIFSALIATVTFISTNPTTASAAEQNQPAQNQPAQPADANTQPN
CCCHHHHCCCHHHCCHHHHHHHHHHHHHCCCCCCCCCHHHCCCCCCCCCCCCCCCCCCCC
ANAGAQANPAAQPANQGGQANPAGGAAQPAGQGNQADPNNAAQAQPGNQAAPANQAGQGN
CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
NQATPNNNATPANQTQPANAPAAAQPAAPVAANAQTQDPNASNTGEGSINTTLTFDDPAI
CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCEEEEEEECCCCC
STDENRQDPTVTVTDKVNGYSLINNGKIGFVNSELRRSDMFDKNNPQNYQAKGNVAALGR
CCCCCCCCCEEEEEECCCCEEEECCCCEEEECHHHHHHHCCCCCCCCCEECCCCEEEEEE
VNANDSTDHGNFNGITKTVNVKPDSELIINFTTMQTNSKQGATNLVIKDAKKNTELATVN
CCCCCCCCCCCCCCEEEEEECCCCCEEEEEEEEEECCCCCCCCEEEEECCCCCCEEEEEE
VAKTGTAHLFKVPTDADRLDLQFIPDNTAVADASRITTNKDGYKYYSFIDNVGLFSGSHL
EECCCCEEEEECCCCCCCEEEEECCCCCCCCCHHHCCCCCCCCHHHHHHHCCCCCCCCEE
YVKNRDLAPKATNNKEYTINTEIGNNGNFGASLKADQFKYEVTLPQGVTYVNDSLTTTFP
EEECCCCCCCCCCCCCEEEEEECCCCCCCCCCCCCCCEEEEEECCCCCEEECCCCEEECC
NGNEDSTVLKNMTVNYDQTANKVTFTSQGVTTARGTHTKEVLFPDKSLKLSYKVNVANID
CCCCCCHHHHHEEECCCCCCCEEEEECCCCEECCCCCCCEEECCCCCEEEEEEEEEEECC
TPKNIDFNEKLTYRTASDVVINNAQPEVTLTADPFSVAVEMNKDALQQQVNSQVDNSHYT
CCCCCCCCCCEEEEECCCEEEECCCCCEEEECCCEEEEEECCHHHHHHHHHHHHCCCCCC
TASIAEYNKLKQQADTILNEDANHVETANRASQADIDGLVTKLQAALIDNQAAIAELDTK
HHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHHHHH
AQEKVTAAQQSKKVTQDEVAALVTKINNDKNNAIAEINKQITSQGVTTEKDNGIAVLEQD
HHHHHHHHHHHHCCCHHHHHHHHHHHCCCCCHHHHHHHHHHHHCCCCCCCCCCEEEEECC
VITPTVKPQAKQDIIQAVTTRKQQIKKSNASLQDEKDVANDKIGKIETKAIKDIDAATTN
CCCCCCCCHHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHCCCCCCHHHHHHHHHHHHCCC
AQVEAIKTKAINDINQTTPATTAKAAALEEFDEVVQAQIDQAPLNPDTTNEEVAEAIERI
CHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHH
NAAKVSGVKAIEATTTAQDLERVKNEEIFKIENITDSTQTKMDAYKEVRQAATARKAQNA
HHHHHCCCCHHHHHHHHHHHHHHCCCCEEEECCCCCHHHHHHHHHHHHHHHHHHHHHCCC
TVSNATDEEVAEANAAVDAAQTEGLHDIQVVKSQQEVADTKAKVLDKINAIQTQAKVKPA
CCCCCCHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCC
ADTEVENAYNTRKQEIQNSNASTTEEKEAAYTELDAKKQEARTNLDAANTNSDVTTAKDN
CCCHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCEECCCC
GIAAINQVQAATTKKSDAKAEIAQKASERKTAIEAMNDSTTEEQQAAKDKVDQAVVTANA
CCHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHEEEEECC
DIDNATANTDVDNAKTTNEATIAAITPDANVKPAAKQAIADKVQAQETAIDANNGSTTEE
CCCCCCCCCCCCCCCCCCCCEEEEECCCCCCCHHHHHHHHHHHHHHHHEEECCCCCCCHH
KEAAKQQVQTEKTAADAAIDAAHSNVEVEAAKNAEIAKIEAIQPATTTKDNAKQAIATKA
HHHHHHHHHHHHHHHHHHHHHHCCCEEEEECCCCCEEEEEECCCCCCCCHHHHHHHHHCC
NERKTAIAQTQDITAEEIAAANADVDNAVTQANSNIEAANSQNDVDQAKTTGETSIDQVT
CHHHHHHHHHHCCCHHHHHHCCCCHHHHHHHCCCCCCCCCCCCHHHHHHHCCCCCHHHCC
PTVNKKATARNEITAILNNKLQEIQATPDATDEEKQAADAEANTENGKANQAISAATTNA
CCCCCHHHHHHHHHHHHHHHHHHHHCCCCCCCHHHHHHCCCCCCCCCCCCHHHHHHCCCC
QVDEAKANAEAAINAVTPKVVKKQAAKDEIDQLQATQTNVINNDQNATNEEKEAAIQQLA
HHHHHHCCHHHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHH
TAVTDAKNNITAATDDNGVDTAKDAGKNSIQSTQPATAVKSNAKNEVDQAVTTQNQAIDN
HHHHHCCCCEEECCCCCCCCCHHHCCCCCCCCCCCHHHHHHCCHHHHHHHHHHHHHHCCC
TTGATTEEKNAAKDLVLKAKEKAYQDILNAQTTNDVTQIKDQAVADIQGITADTTIKDVA
CCCCCCCHHHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCCCCCHHHHHH
KDELATKANEQKALIAQTADATTEEKEQANQQVDAQLTQGNQNIENAQSIDDVNTAKDNA
HHHHHHHCCCCHHHHHHCCCCCHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHCCCCC
IQAIDPIQASTDVKTNARAELLTEMQNKITEILNNNETTNEEKGNDIGPVRAAYEEGLNN
HHHCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCHHHHHHHHCCCC
INAATTTGDVTTAKDTAVQKVQQLHANPVKKPAGKKELDQAAADKKTQIEQTPNASQQEI
CCCCCCCCCCCCHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHCHHHHHHCCCCCCHHHH
NDAKQEVDTELNQAKTNVDQSSTNEYVDNAVKEGKAKINAVKTFSEYKKDALAKIEDAYN
HHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHC
AKVNEADNSNASTSSEIAEAKQKLAELKQTADQNVNQATSKDDIEVQIHNDLDNINDYTI
CCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHCCHHHCCCCCCEEEEECCCCCCCCCCCC
PTGKKESATTDLYAYADQKKNNISADTNATQDEKQQAIKQVDQNVQTALENINNGVDNGD
CCCCCCCCCCHHHEECCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCC
VDDALTQGKAAIDTIQVDATVKPKANQAIEAKAEDTKESIDHSDQLTAEEKTEALAMIKQ
HHHHHHCCCHHEEEEEECEEECCCCCCHHHHHHHHHHHHHCCCHHCCHHHHHHHHHHHHH
ITDQAKQGITDATTTAEVEKAKAQGLEAFDNIQIDSTEKQKAIEELETALDQIEAGVNVD
HHHHHHCCCCCCHHHHHHHHHHHHCCHHHHCCCCCCHHHHHHHHHHHHHHHHHHCCCCCC
ADATTEEKEAFTNALEDILSKATEDISDQTTNAEIATVKNSALEQLKAQRINPVVKKNAL
CCCCCHHHHHHHHHHHHHHHHHHHHHHCCCCCCEEEEHHHHHHHHHHHHHCCHHHHHHHH
EAIREVVNKQIEIIKNADADASAKEIARTDLGRYFDRFADKLDKTQTNTEVAELQNVTIP
HHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHCCCHH
AIEAIVPQNDPDANDTNNGTDNNDATANSNANATPENTGQPNVSETTDNGKADASPTTPN
HHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
NSDAATGETTVTSATDDAKDKPQANNNSSADASTNSPTMDNDVTSKPEVESTNNGTTDKP
CCCCCCCCCEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
VTETDNATPAESTTNNNSTTTATNENAPTGSTATAPTTASTEAASSADSKDNASVNDSKQ
CCCCCCCCCCCCCCCCCCCEEECCCCCCCCCCCCCCCCCCCHHHCCCCCCCCCCCCCCCC
NAEVNNSAESQSTNGKVAQPKSENKAKAEKDGRDSTNQSMVESTTETLPSADITEPNVPS
CCCCCCCCCCCCCCCCCCCCCCCCHHHHHHCCCCCHHHHHHHHHHHHCCCCCCCCCCCCC
NTSKDKEESTTNQTDAGQLKSETNVASNEADKSPSKADTEVSNKPSTSASSEAKDKMTST
CCCCCCHHHCCCCCCHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHC
NVSQKDDTATADTNDTQKSVGPVANNKAKDMQTNDTQKSVGSAANNKATQNDGANASPAT
CCCCCCCCCCCCCCCHHHHCCCCCCCCCCCCCCCCHHHHHCCHHCCCCCCCCCCCCCCCE
VSNGSHSMHQDMLNVTKPEENKANAKSDQQGKVNKPKQQAKTLPDTGMSHNDDLPYAELA
ECCCCHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCHHHHHCCCCCCCCCCCCCCHHHHH
LGAGMAFLIRRFTKKDQQTEE
HHCCHHHHHHHHHHHCCCCCC
>Mature Secondary Structure
MNLFRQQKFSIRKFNVGIFSALIATVTFISTNPTTASAAEQNQPAQNQPAQPADANTQPN
CCCHHHHCCCHHHCCHHHHHHHHHHHHHCCCCCCCCCHHHCCCCCCCCCCCCCCCCCCCC
ANAGAQANPAAQPANQGGQANPAGGAAQPAGQGNQADPNNAAQAQPGNQAAPANQAGQGN
CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
NQATPNNNATPANQTQPANAPAAAQPAAPVAANAQTQDPNASNTGEGSINTTLTFDDPAI
CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCEEEEEEECCCCC
STDENRQDPTVTVTDKVNGYSLINNGKIGFVNSELRRSDMFDKNNPQNYQAKGNVAALGR
CCCCCCCCCEEEEEECCCCEEEECCCCEEEECHHHHHHHCCCCCCCCCEECCCCEEEEEE
VNANDSTDHGNFNGITKTVNVKPDSELIINFTTMQTNSKQGATNLVIKDAKKNTELATVN
CCCCCCCCCCCCCCEEEEEECCCCCEEEEEEEEEECCCCCCCCEEEEECCCCCCEEEEEE
VAKTGTAHLFKVPTDADRLDLQFIPDNTAVADASRITTNKDGYKYYSFIDNVGLFSGSHL
EECCCCEEEEECCCCCCCEEEEECCCCCCCCCHHHCCCCCCCCHHHHHHHCCCCCCCCEE
YVKNRDLAPKATNNKEYTINTEIGNNGNFGASLKADQFKYEVTLPQGVTYVNDSLTTTFP
EEECCCCCCCCCCCCCEEEEEECCCCCCCCCCCCCCCEEEEEECCCCCEEECCCCEEECC
NGNEDSTVLKNMTVNYDQTANKVTFTSQGVTTARGTHTKEVLFPDKSLKLSYKVNVANID
CCCCCCHHHHHEEECCCCCCCEEEEECCCCEECCCCCCCEEECCCCCEEEEEEEEEEECC
TPKNIDFNEKLTYRTASDVVINNAQPEVTLTADPFSVAVEMNKDALQQQVNSQVDNSHYT
CCCCCCCCCCEEEEECCCEEEECCCCCEEEECCCEEEEEECCHHHHHHHHHHHHCCCCCC
TASIAEYNKLKQQADTILNEDANHVETANRASQADIDGLVTKLQAALIDNQAAIAELDTK
HHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHHHHHHH
AQEKVTAAQQSKKVTQDEVAALVTKINNDKNNAIAEINKQITSQGVTTEKDNGIAVLEQD
HHHHHHHHHHHHCCCHHHHHHHHHHHCCCCCHHHHHHHHHHHHCCCCCCCCCCEEEEECC
VITPTVKPQAKQDIIQAVTTRKQQIKKSNASLQDEKDVANDKIGKIETKAIKDIDAATTN
CCCCCCCCHHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHCCCCCCHHHHHHHHHHHHCCC
AQVEAIKTKAINDINQTTPATTAKAAALEEFDEVVQAQIDQAPLNPDTTNEEVAEAIERI
CHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHH
NAAKVSGVKAIEATTTAQDLERVKNEEIFKIENITDSTQTKMDAYKEVRQAATARKAQNA
HHHHHCCCCHHHHHHHHHHHHHHCCCCEEEECCCCCHHHHHHHHHHHHHHHHHHHHHCCC
TVSNATDEEVAEANAAVDAAQTEGLHDIQVVKSQQEVADTKAKVLDKINAIQTQAKVKPA
CCCCCCHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCC
ADTEVENAYNTRKQEIQNSNASTTEEKEAAYTELDAKKQEARTNLDAANTNSDVTTAKDN
CCCHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHCCCCCCCCCCCCEECCCC
GIAAINQVQAATTKKSDAKAEIAQKASERKTAIEAMNDSTTEEQQAAKDKVDQAVVTANA
CCHHHHHHHHHHCCCCHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHEEEEECC
DIDNATANTDVDNAKTTNEATIAAITPDANVKPAAKQAIADKVQAQETAIDANNGSTTEE
CCCCCCCCCCCCCCCCCCCCEEEEECCCCCCCHHHHHHHHHHHHHHHHEEECCCCCCCHH
KEAAKQQVQTEKTAADAAIDAAHSNVEVEAAKNAEIAKIEAIQPATTTKDNAKQAIATKA
HHHHHHHHHHHHHHHHHHHHHHCCCEEEEECCCCCEEEEEECCCCCCCCHHHHHHHHHCC
NERKTAIAQTQDITAEEIAAANADVDNAVTQANSNIEAANSQNDVDQAKTTGETSIDQVT
CHHHHHHHHHHCCCHHHHHHCCCCHHHHHHHCCCCCCCCCCCCHHHHHHHCCCCCHHHCC
PTVNKKATARNEITAILNNKLQEIQATPDATDEEKQAADAEANTENGKANQAISAATTNA
CCCCCHHHHHHHHHHHHHHHHHHHHCCCCCCCHHHHHHCCCCCCCCCCCCHHHHHHCCCC
QVDEAKANAEAAINAVTPKVVKKQAAKDEIDQLQATQTNVINNDQNATNEEKEAAIQQLA
HHHHHHCCHHHHHHHCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHHH
TAVTDAKNNITAATDDNGVDTAKDAGKNSIQSTQPATAVKSNAKNEVDQAVTTQNQAIDN
HHHHHCCCCEEECCCCCCCCCHHHCCCCCCCCCCCHHHHHHCCHHHHHHHHHHHHHHCCC
TTGATTEEKNAAKDLVLKAKEKAYQDILNAQTTNDVTQIKDQAVADIQGITADTTIKDVA
CCCCCCCHHHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHHCCCCCCCHHHHHH
KDELATKANEQKALIAQTADATTEEKEQANQQVDAQLTQGNQNIENAQSIDDVNTAKDNA
HHHHHHHCCCCHHHHHHCCCCCHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHCCCCC
IQAIDPIQASTDVKTNARAELLTEMQNKITEILNNNETTNEEKGNDIGPVRAAYEEGLNN
HHHCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHCCCCCCCCCCCCCCCHHHHHHHHCCCC
INAATTTGDVTTAKDTAVQKVQQLHANPVKKPAGKKELDQAAADKKTQIEQTPNASQQEI
CCCCCCCCCCCCHHHHHHHHHHHHHCCCCCCCCCHHHHHHHHHCHHHHHHCCCCCCHHHH
NDAKQEVDTELNQAKTNVDQSSTNEYVDNAVKEGKAKINAVKTFSEYKKDALAKIEDAYN
HHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHC
AKVNEADNSNASTSSEIAEAKQKLAELKQTADQNVNQATSKDDIEVQIHNDLDNINDYTI
CCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHCCHHHCCCCCCEEEEECCCCCCCCCCCC
PTGKKESATTDLYAYADQKKNNISADTNATQDEKQQAIKQVDQNVQTALENINNGVDNGD
CCCCCCCCCCHHHEECCCCCCCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCC
VDDALTQGKAAIDTIQVDATVKPKANQAIEAKAEDTKESIDHSDQLTAEEKTEALAMIKQ
HHHHHHCCCHHEEEEEECEEECCCCCCHHHHHHHHHHHHHCCCHHCCHHHHHHHHHHHHH
ITDQAKQGITDATTTAEVEKAKAQGLEAFDNIQIDSTEKQKAIEELETALDQIEAGVNVD
HHHHHHCCCCCCHHHHHHHHHHHHCCHHHHCCCCCCHHHHHHHHHHHHHHHHHHCCCCCC
ADATTEEKEAFTNALEDILSKATEDISDQTTNAEIATVKNSALEQLKAQRINPVVKKNAL
CCCCCHHHHHHHHHHHHHHHHHHHHHHCCCCCCEEEEHHHHHHHHHHHHHCCHHHHHHHH
EAIREVVNKQIEIIKNADADASAKEIARTDLGRYFDRFADKLDKTQTNTEVAELQNVTIP
HHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHCCCHH
AIEAIVPQNDPDANDTNNGTDNNDATANSNANATPENTGQPNVSETTDNGKADASPTTPN
HHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
NSDAATGETTVTSATDDAKDKPQANNNSSADASTNSPTMDNDVTSKPEVESTNNGTTDKP
CCCCCCCCCEEECCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC
VTETDNATPAESTTNNNSTTTATNENAPTGSTATAPTTASTEAASSADSKDNASVNDSKQ
CCCCCCCCCCCCCCCCCCCEEECCCCCCCCCCCCCCCCCCCHHHCCCCCCCCCCCCCCCC
NAEVNNSAESQSTNGKVAQPKSENKAKAEKDGRDSTNQSMVESTTETLPSADITEPNVPS
CCCCCCCCCCCCCCCCCCCCCCCCHHHHHHCCCCCHHHHHHHHHHHHCCCCCCCCCCCCC
NTSKDKEESTTNQTDAGQLKSETNVASNEADKSPSKADTEVSNKPSTSASSEAKDKMTST
CCCCCCHHHCCCCCCHHHHHHHCCCCCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHC
NVSQKDDTATADTNDTQKSVGPVANNKAKDMQTNDTQKSVGSAANNKATQNDGANASPAT
CCCCCCCCCCCCCCCHHHHCCCCCCCCCCCCCCCCHHHHHCCHHCCCCCCCCCCCCCCCE
VSNGSHSMHQDMLNVTKPEENKANAKSDQQGKVNKPKQQAKTLPDTGMSHNDDLPYAELA
ECCCCHHHHHHHHHCCCCCCCCCCCCCCCCCCCCCCHHHHHCCCCCCCCCCCCCCHHHHH
LGAGMAFLIRRFTKKDQQTEE
HHCCHHHHHHHHHHHCCCCCC

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: 6.0

TargetDB status: NA

Availability: NA

References: NA