| Definition | Bacillus cereus subsp. cytotoxis NVH 391-98, complete genome. |
|---|---|
| Accession | NC_009674 |
| Length | 4,087,024 |
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The map label for this gene is eryA [H]
Identifier: 152976894
GI number: 152976894
Start: 3246922
End: 3256221
Strand: Reverse
Name: eryA [H]
Synonym: Bcer98_3193
Alternate gene names: 152976894
Gene position: 3256221-3246922 (Counterclockwise)
Preceding gene: 152976895
Following gene: 152976893
Centisome position: 79.67
GC content: 36.35
Gene sequence:
>9300_bases ATGAAGCGAGTTAAAAGGGAGAAGAATTGTAAGTTATCTATAGCAATTGGAAAAAATATCGAAGGGGAATTATATAAAAA AGAAAATATTGGGCGATTGTTAATGGAAGCAGCAGATGAAAGAAAAGATAGTGGAATTACCTTTATTCAAAACGATGGAG TTGAGGATTTTTTATCCTATGAATCTCTCTTAAATCGTGCGGTACGATGCCTTGGTGGATTGCAGAAAAAAGGGATTCAG CAAGGACAACATGTCATGCTGGTATTGGAAGATAGTCGTGATTTTATTATATCATTTTGGGCATGTATACTCGGAGGGAT TATACCTGTACCACTTGTTTATCCGACTTCGCTGAAGATGAAAAATTCGATTTTGGATAAATTATTTGTTGTATGGAATT TATTAGAGAAACCGGTTATTTTATCGGATGATCATGTCGTGAATCATCATGAAAAGATTGAATCGCTTCTAGCGGTAAAA GGAATGGAATTTCTTTCGATATCAACATTGTATAGTGCGAATGAAGGAGGAGAAATCAATCTTGCACCTTCTGATACACC TGCCTTTATTCAATTTAGCTCGGGAAGTACGAGTGTACCGAAAGGTGTTATTTTAACGCATCGAAATTTATTAACAAATA TAGAGGCAATGATAGCAGGAATTCATCTCAATCATGAAGATAAATCGTTTAGTTGGATGCCTTATCATCATGATATGGGG TTAATTGGTTTTCATTTAGTACCAACAGCAAAAGGGATTCATCAGTTTAATATGAGTCCGATGAAATTCGTCAAAAGACC AAATTTATGGCTGGATTATATAACAAAACATCGTATTACACTCACTGGTTCTCCTAATTTTGGATATCGTTTACTGTTAA GTAGAGCAAAGGAAGAGCAGTTTAAGAAGTGGGATTTACGATCTTTGCGATTAATTTTTAATGGAGCAGAGCCTATTTCC GTTTCGTTAATGCGTGAATTTATGAGTAAATTGAAACAATGTCATTTAAGAAAAGAAGCAATGTTTCCAGTTTATGGGAT GGCGGAAGCTTGTTTAGCTGTCAGTTTTCCAAAGTGGAATGATGAACCTTTCGTGAATTGTATAAACCGTAAAACGCTAG TTTCAGAATCGAGGGTAGAGAAATGTCTAGAAACAGATCGGCAAGCGATGTTGTTAGTTGAAGAAGGTTCTCCTGTAGCA GGAATGAAAATTCGTATTGTGGATGAAGTTGGAAATGTTGTCCCAGAAGGAATAGTGGGCGAAGTGCAAATATATGGTGA AAATGTAACAGATGGGTATATATATAATGATCGTGTTACAAAAGAATCAATCCAGGATGGATGGTTAAAGACGGGGGACA CGGGTTTTCTACTGAATGATAGACTTACAATAGTAGGACGAATTAAAGATATTATTTTTGTGAATGGTCAAAATTTTTAC GCTCATGATATAGAGGGAATAATTGAAAAGATAGAAGGGGTTAAACCTGGTCGCATTGCAATTTGCGGCTGGCACGATGA AAAAGAAGAGAAAGATAAAGTGGCTCTTTTTTCGAGTCTTCCTATTAAACAAAAAGACACGAACAAAATATATTCTAAAA TTGTTAGTCGTGTGAATGAACTGATCGGAATCCCGATTGACTACGTAGTTTTAACGCCTTCTATACCGAAAACGACCAGC GGTAAAGTACAACGTTTCGTATTAATTGACGCATTTAAAAACAATAAATACGAAGGGAAAGTGCTTAGTAGAACGGATTT AAGTGTCGGATTACAAGATGAAAATATAGTAGAAAAACAAGAAAAGAAAGAGAAACAAAAGACTATGGAGTTTGGTAAGT ATGCAGAGAAAATTCGAGAAATATGGTCGGAAGTTTTAGAGATTCCTTTGGAGCATACGCCGTATAATGAATCATTCTTA TCATTAGGTGGTACATCTATTAAAGCTATTCAAATACTAGGCTATCTTGAAGATGAATTATCATTAACTCTCAGCCATGA TATTTTAATCAATTGTCGTACAGTGAATGAAATGGATGAGTATATTGTGAAAGTTGTACAAGGGAATGAAGGGATTGAGA GTGGAAAGGTAAAGGTTTCTTCTCGGAAAATGTCAGAAGAATATGAAGGTGATATTGCTGTTATTGCTCTATCGTGTCGT TTTCCGGATGCTTCAACTCCAGAAGCTTTTTGGGAAAACCTTGTTCAGGGGAAATGCAGCATTAAAGAAATACCATCTGA TCGATGGAGCGTAAAGGATTATTATAATCAAATTCCTCAATTTGGAAAGACGTATTGCCGTAAAGGGGCCTTTATTCAAA ATCCGTATGCATTTGATGCGAGTTTATTTAACATATCAGAAGAAGAGGCAGCTATTATGGACCCGCAGCAACGTATGATT CTTGAACTCACATATGAATTGATAGAAAGAGCTGGTTATACGACGCAGATGGTTGATGGAGAAAAAGTGGGGCTTTTTAT TGGAGCAGGTATGAATTCTTACTATGAATACCATTTAAGTACGTTAAATCGTCAAAACTTACAAACGTTCGATAGTTTTA AGGCTCTTCCGAAAGTGCAACAAGAAGCTATTATGAATGAGTGGAAAAAGAAATTTGGAATCATGGCAGCGCATCCTAAT ATTTTAGTAGATAACATTTTAAATATGATTGCAGCACGTACATCGCAAGAATTTAACTTTAAAGGTCCAAGTATGGTTGT TGATACAGCGTGTTCTTCATCATTAGTCACTCTTCATATGGCATATGAGTCGTTAAAAAGAGGGGAATGTGAAGTTGCGA TTGCTGGTGGTATTAATTTATTGTTAACGCCAGCTCCATATATATTTTTTAGCCATGCAGGAGCATTATCTTCCAGCGGG CGTTCCATGGTGTTTGATGAACAAGCGGACGGATTTGTTCCTGGTGAGGGAGCGGGTCTTGTTATGTTAAAGACTTTAAA GAAAGCAAAGGCAGATGGAGATAAAGTATTAGCGACTATAAAAGCGAGTACGATTAATAACGATGGTCGTTCTATTGGAG TTATGGCGCCAAATCCAGATGGACAAAGAGAAGTTATTGAGTCGTTGTATGTGGAAAATGAAATCAGTCCTCAAACAATT CAATATGTTGAGGCACATGGTACAGGGACACGGGTTGGTGATCCGAGTGAAGTGCGTGCGATTGATACTGCATTTCGTAA ATGGAATGTAGGCCAACAATCCATTGCAATCGGCTCTGTAAAAGCAAATATCGGACATTTGCTAGGAGCAGCAGGAATTG GAAGTTTCATAAAAGTGATTATGTCACTACTGTATCGCAAAATGCCACCGAATATAAATATCTTTACTCCAAATCCGATG ATTAAATTAGAACAAACGCCATTTTATTTATTAGATGAGCCGAAAGAATGGAGTAAGGAAAAAGGGGTTCCGAGAAGAGC TGCAATTAACTCGTTTGGATTTGGTGGAACAAATTGTCATTTAATTGTAGAGGAAGCATCAGAAACAAAAGAAGTGAAAG TAAATCAAGCGATAGAGCTTCCAAAACATGTATTATGTTTATCTGCTCATAGTGAATCTGCATTACAACAAAAAGTGACA AACCTTATTGCGTGTTTAGAAGACTCTTACGAATATTCTTTAGGGGACGTATGTTATACAGAAAATGTAACAAGGACACC TTTGAAGCATCGTTATTCTGTAATCGCAAGTTCAATAGATGATTTAATAGAGAAATTGAAAAATAGTTCATTAGACAATA CGATGGTGCAAGCATCTCCTAAAGTTGCGCTCATGTTTACTGGTCAAGGTTCACAGTATGCAGGAATGGCGAGACAGTTA TATAAACTTGTTCCACGGTTTAAAAAATATGTAGATGATTGTTCGGAAGCATTTTATCCTATTTTAAATCAAAGTATTGT GGACTTATTATATGTAGAAGCAAATGAGTCTCTACTTGCTCAAACTCATATTACGCAACCAGTTGTATTTACAATCGATT ATGCTCTTGGAAAATTACTTTTAGATTTAGGTGTGAAGCCTGCGTGTATGTTAGGTCATAGTGTAGGTGAGTGGGTGGCT GCTTGTTTATCAGAAATGATTACGTTGCAAGATGCAGCAAGGCTTGTAGCGATTAGAGGGGAGTTGATGAATGAAATTCA AACAACTGGCGCAATGACAGCTATATTTAGTTCAATCGCTACAATTGAACCGTTGCTAGAACCATTTAAAGATTCTTTAT GGTTTGCTGGCTATAATATTACGCATCAAGTCATTTCAGGACAAGCGGAAGCGATGGAGAAGTTTTTAAGTTTGCTTGAG AAGAAAGGGATTGTATTTAAAAAATTAAAAGTTTCACAGGCATTTCATACACCGCTCATGGAAACGATGCTAGCGCCATT TAAAAAGGAATTAAGTGCAATTACATTTAATAAACCGAAAATTCCTATTGTTTCTAATGTTACAGCGGAGTATATAAGCC AACCAATTCATCCGGAATATTGGCTAGAGCATATTCTTGGAACTGTGAAATTTGAGCAAAGTATGAAATATGTCCTTGAT AAAGGAATTAATATTTTTGTGGAAGCAGGTCCTGATAAAGTATTGACCAGTATGGCAAACGGCCTTATTTCTTATAAAGA CAAATGTCTTATTTCGATGATTGAACGAAAAAAAGAAAATTGGGATGTATATGTCAATGCAGTGAGTAAATTGTACACGC TAGGTGTAAATATAGACTGGAAAACATTTATGAAGGATTATGGGAATGAACGGGTTATATTGCCATCTTATCCATTTGAA CACAAGATTTTTAAACCGGATTTTGGAGAAGAACTTCGTTTTATGGACTGGCTTTATGAATGGAAATGGGAGATGGAAAC ACCTCTTTATATAGAAAATGACAAACGAGGCTCTATTCTTGTTTTCGACGATGAACAACAGGTAGGAAAAGAAGTATGTG GTATTTTGGAGCAGATTAATACTTCGGTTTATGTGGTCATTCCTGGTAATGAATTTCACTATGATGGAGATACACGTTTT ACAATTCGTCCTGAAAGCATCGAAGATTATATGATGATGTTACAGCATATACAAGGGGATAGTATCTCTATTATTCATTT ATGGAATGGTACAAAAGAAAGTGTAACTCCAACATTATTTCTTCAAGATGAAAGTGCGTTATTTCAAACATCTTATAGCA TTATATTGATGGCAAAAGCTTTAAAGATAAAAGCATATAAGAATGTAGAATTTATAGTTGTTACAGATAGAGCCTTTGCC GTGTTACAGGATGAGGAAATTCAAAAACCGCAGCAATCTATATCTGCGGTAATTGGGCAGGTAATTGATCAAGAAAATAG TGAATTTAGCAGTTGTATATTGGATGTAGACAACAGGGCATATGAGAATAAATTTGCAGAATTAGCAGAACTCATTGTAC GCGAATTAAGTATGGGTAGACAGGAAGAAGCGATTGTTGCGATTCGAGGTGGTAAACGCTTTGTTCGAAAACTAGAAAGA ATTGTGCCTAGTAAGAAACAGGAAATTACAATACAAGATAATGAAACATATGTCATTACTGGAGGAACGGGGCATATTGG TGGAGAGATTGCACGCGCTTTTTTTAAAAAAGCAAAAGTGAATTTGGTTTTAACAGGAAGAGAGCAACTGCCTTCTAGAG AAGAGTGGAAGAAGGGAAATTTGAGTTCGAAAGTAGTAAGTAAAATAAATGTAATACAAGATTTAGAAAATCAAGGAGCG AAAGTTGAATACTTTGCAGTAGATGTTACAAATGAACAAAAAATGAAAGAAATGATACAAGCTGTTAAGCAACTGTATGG TTCTATACATGGTGTTGTACATGCTGCGGGAACTATTCATCATTCTGCAGGTAAACTTTTAAGTAAAGATTTAAACGACA TCCAGCAAGTGATGTCTTCAAAGGTACAGGGCACAATCATAGCCGATATGGTAACAAGACAAGAACCATTGAAATTTTTT GTAACACTATCTTCTATTTCAGCATCTAAAAAGATATGGGCGGCAAATTTAGGGGACTATGCAGCAGCGAATGCTTTTTT AAATGGTTATAGTCAGTATAGAAAGAATACTGGTGCACCTGGTCGTTCGTTATCTATAAATTATTCTTTATGGGCTGATA AAGGGTTGTCAGAAATGTTTGGGGATTTATCTGCTCTTGCAGTAAAAGCGCAAAAACTAAATCCGCTTTCATCAGAAGGC GGAACGCAAGCATTTTTTGAAGTGCTGCAATATGAGGGGAAAAGTGTTGTTCATATTCTCGATCGGCAGGAAGATTGTGT AGCAAACAATGTAGCAGAAAAGGTGGTCGTATTATCTCCTTCCAATGAGCCTGCACATCCTGTTCGCTATAAAACTGCAA AAGAAATAAAAGAAATTGTGTATCAAGTAATTGCGGCAGAAATAAATTGTGATGCTGAAAGTCTTGAAGTTACAAAGAAT TTCTTGGAGTTATCGATTGATTCATTAAAAGCTACGAAAGTGATTGCGGAAATTGGAAAACAATTAAATACAGAATTATA TCCTACTTTATTATTTGAATATCAAACCCCAGAAGCACTAGCTGAATATATTGAAAAAACGTATGCAGTAAATCGTCAAG AAAAGGTAGAAGTGAGGCAGAAAGAAAAGATAGGTAAAGATGAAGAATCGGTAAAAGATATCGCAATTATTGGTATGAGT GTTCGAATACCTGGGGCAAATAATTTAGAAGAATACTGGAAGATATTACGAGAAGGGGAATGTATGATTCAAGAGGTTCC AGAGGATCGTTGGAGAAAAGAATATCATTATAGTTCAGATCAAGGGATATTGCATAAAACTTACTCTAAACACGGTGGGT TTATTGAGAGACCATATGACTTTGATCCGTTATTCTTCGGCATGTCCCCGAAAGAAGCGGAAGCAACTGATCCACAACAA AGAATCTTTATGCAAGTTGCTTGGGAAGCTTTGCAACAAGCGGGTTATGGTGGAAAGCATCGAACAAATCAGATCGGTGT GTTTGTCGGATGCGAACAGAATACGTATATGGAGCACTTTATTGGATATCGTTATTACATGATGATGAAAGATGTATTAG AGAAAGAGAACACTTTTGCACATCTTCCTCTGTCAGATCGCCAAAATCTTCTTAAACAGATGGTACGTATATTAGAGCCT GGACAACTAGTGGCAGATGCAATTGCAGGAAATGGATTGAATGAGGTCGCTGCAAGGGTTAGCCATTGTTTAAATTTAAC GGGACCAAGCATGATTGTAAATACCGCTTGTTCGTCTTCTCTTGTTGCTCTTCATCATGCATGTCAAAGTATACGACAAG GTGAAACGAATATGGCGATAGCAGGAGGTGTGAATTTAAACTTATCACCTACGCCATTTGTTAGTTTGAGTAGAGTGACA GCCTTATCATCCAATGGAAACTGTTATCCTTTTGATGCAAGGGCAAATGGTATGGTTTTATCGGAAGGAGCAGGGGCAGT TCTTCTGAAATCATTAGAGCAGGCAATGGAAGATGGGGATCATATATTTGCTGTTATTAAAGGATCGGCTATTAATAACG ATGGACGTTCTCAAGGCATTACAGCACCGAGACCTCAAGGACAGGCAGAAGTGATTCGAAGCGCATATTTGAATGCGAAT GTTCATCCAGAAACAGTCTCATATATTGAGACGCATGGAACGGCAACACCATTAGGAGATCCAATTGAAGTAGAGGGGAT GACTCGCGCTTTTCGTACTTTTACAGATAAAGAAGGTTTTTGTGGGATTGGATCTGTCAAATCATCTATCGGTCATATGC TTTCAGCAGCAGGGATTGTTAGCCTTGTTAAAGTAGCGCTTGCGATGAAACATAAAGTGATTCCGCATACAGTCAATTAT GATACGCCAAATCCAAATTTAGATTTTCAACATTCACCGTTTTATGTAGTAGCGAAACAACCTCAAATTTGGGGTGACGA GAAACAAAATCATCCGCTACGAGCGGGTGTAAATGCTTTTGGGTTTGGTGGGACAAATGCTCACGTTATCCTTGAAGAGG CACCAATTTTGCAAAGAAAAGTGAATCATTCTGTACCTGAAATGAAAAGGCCTTCTTTATTGCTGCTTACTGGAAGAACA GAGAAGGTAATCCAAAACGTTGCAATGCGTTTAAAAGAACATATAAAGCAGAATCCAGATCTTTGTGTTCCCGAAGTTTG TTATTCTATGAATAGTTCGCAAAAAGAGTTATCGTGCAAAGTAGCAACGGTGATTAAATCGAAGGAACATCTTTATTCCG TTTTAGAAGCGATTGAAATGGGAAGAGAACGCTCTGAAGTGATAAAAGGTCGTTCAAATCCAAATAAACGAATGACAACT CATTTTCTATTTGATGGTACATTATGCTTGGATAAAGCACATATAAAGCAATTGAATGATACATTTTCTATTTTTCACGC AGCGTATAAAAAGTGTTTAGATGTGTTTGAAACGGAAGAGAATGAAAATAGTACTTCTTATCGACAAATACAAAGTTTTT CGTGTCAATATGCGATTGGAAAATTGTTGTTGCATTCTGGAATACAGCCTAAAAGTTTCGTGTGTGAAGGAATTGGGATT CTTGTTGGGGCTGCGTGCACAGGAATCATTACGGTAGAAGCGGCAATCCAATTTATTAAAGGGAATAAAAATCTAACAAG TGAAATTTTGCAAAATAGAAACGATACAGAATATAAATATACGATTATAACTCCGATGGGAATTATCCATAAAGAGCATA CGGATATTTTAAAATCTTTATGTATGACAGATATGCAGTATACGATAACGACAAAGGATATTGCCGAATATGTAGATAAG AATGATGTTGTGATTCAATGCGGAATAAGTAAGAGTGATTTGCAAGGAAGATTAATATCAATGGATATAGGCAAAGTTTC TGATTCGGTACATGAGCTTCTTTTGTGTATGGCTAAACTTTATACGTTAGGTGTGAACTATAATTCAGTTGCATTTTTTG AAGGAAATGAGAACCGAATACCGTTACCAACATATCCATTCGAAAATAAAATGTACAAAGTTACGTTCGAAGATGAAAAC ATATATAAAGAAGCACTTTCTAATACGGAGTTACACCAAAAGAGTAATCTAGTTGAAAGAGATGTGCATAAATTAGTTCC ACTTCATCTAGATGAAACTGTACAGGATTCTGAAAAAAGTAAAAATATGAAACAGCTCAATCATGACTTAGTCATGTTAT TTGGAAACATAATTCAATAA
Upstream 100 bases:
>100_bases GGGTGGTTACGATGAAGAAAGATACAAACAGTCATATATTTATGAAAGATTTTTGAGTTCTATATAAATAAAAATGGTTG ATCAGAAGGAGCGAATCATA
Downstream 100 bases:
>100_bases GGATCAAATATTGTGATTGGATAGCGACATAGCGTATATAGAATAGTACCTATGTTGCTATTCATTATTTATATTCTAGA ATACAAAGTCACCTGGAATG
Product: Beta-ketoacyl synthase
Products: NA
Alternate protein names: 6-deoxyerythronolide B synthase II; DEBS 2; ORF 2 [H]
Number of amino acids: Translated: 3099; Mature: 3099
Protein sequence:
>3099_residues MKRVKREKNCKLSIAIGKNIEGELYKKENIGRLLMEAADERKDSGITFIQNDGVEDFLSYESLLNRAVRCLGGLQKKGIQ QGQHVMLVLEDSRDFIISFWACILGGIIPVPLVYPTSLKMKNSILDKLFVVWNLLEKPVILSDDHVVNHHEKIESLLAVK GMEFLSISTLYSANEGGEINLAPSDTPAFIQFSSGSTSVPKGVILTHRNLLTNIEAMIAGIHLNHEDKSFSWMPYHHDMG LIGFHLVPTAKGIHQFNMSPMKFVKRPNLWLDYITKHRITLTGSPNFGYRLLLSRAKEEQFKKWDLRSLRLIFNGAEPIS VSLMREFMSKLKQCHLRKEAMFPVYGMAEACLAVSFPKWNDEPFVNCINRKTLVSESRVEKCLETDRQAMLLVEEGSPVA GMKIRIVDEVGNVVPEGIVGEVQIYGENVTDGYIYNDRVTKESIQDGWLKTGDTGFLLNDRLTIVGRIKDIIFVNGQNFY AHDIEGIIEKIEGVKPGRIAICGWHDEKEEKDKVALFSSLPIKQKDTNKIYSKIVSRVNELIGIPIDYVVLTPSIPKTTS GKVQRFVLIDAFKNNKYEGKVLSRTDLSVGLQDENIVEKQEKKEKQKTMEFGKYAEKIREIWSEVLEIPLEHTPYNESFL SLGGTSIKAIQILGYLEDELSLTLSHDILINCRTVNEMDEYIVKVVQGNEGIESGKVKVSSRKMSEEYEGDIAVIALSCR FPDASTPEAFWENLVQGKCSIKEIPSDRWSVKDYYNQIPQFGKTYCRKGAFIQNPYAFDASLFNISEEEAAIMDPQQRMI LELTYELIERAGYTTQMVDGEKVGLFIGAGMNSYYEYHLSTLNRQNLQTFDSFKALPKVQQEAIMNEWKKKFGIMAAHPN ILVDNILNMIAARTSQEFNFKGPSMVVDTACSSSLVTLHMAYESLKRGECEVAIAGGINLLLTPAPYIFFSHAGALSSSG RSMVFDEQADGFVPGEGAGLVMLKTLKKAKADGDKVLATIKASTINNDGRSIGVMAPNPDGQREVIESLYVENEISPQTI QYVEAHGTGTRVGDPSEVRAIDTAFRKWNVGQQSIAIGSVKANIGHLLGAAGIGSFIKVIMSLLYRKMPPNINIFTPNPM IKLEQTPFYLLDEPKEWSKEKGVPRRAAINSFGFGGTNCHLIVEEASETKEVKVNQAIELPKHVLCLSAHSESALQQKVT NLIACLEDSYEYSLGDVCYTENVTRTPLKHRYSVIASSIDDLIEKLKNSSLDNTMVQASPKVALMFTGQGSQYAGMARQL YKLVPRFKKYVDDCSEAFYPILNQSIVDLLYVEANESLLAQTHITQPVVFTIDYALGKLLLDLGVKPACMLGHSVGEWVA ACLSEMITLQDAARLVAIRGELMNEIQTTGAMTAIFSSIATIEPLLEPFKDSLWFAGYNITHQVISGQAEAMEKFLSLLE KKGIVFKKLKVSQAFHTPLMETMLAPFKKELSAITFNKPKIPIVSNVTAEYISQPIHPEYWLEHILGTVKFEQSMKYVLD KGINIFVEAGPDKVLTSMANGLISYKDKCLISMIERKKENWDVYVNAVSKLYTLGVNIDWKTFMKDYGNERVILPSYPFE HKIFKPDFGEELRFMDWLYEWKWEMETPLYIENDKRGSILVFDDEQQVGKEVCGILEQINTSVYVVIPGNEFHYDGDTRF TIRPESIEDYMMMLQHIQGDSISIIHLWNGTKESVTPTLFLQDESALFQTSYSIILMAKALKIKAYKNVEFIVVTDRAFA VLQDEEIQKPQQSISAVIGQVIDQENSEFSSCILDVDNRAYENKFAELAELIVRELSMGRQEEAIVAIRGGKRFVRKLER IVPSKKQEITIQDNETYVITGGTGHIGGEIARAFFKKAKVNLVLTGREQLPSREEWKKGNLSSKVVSKINVIQDLENQGA KVEYFAVDVTNEQKMKEMIQAVKQLYGSIHGVVHAAGTIHHSAGKLLSKDLNDIQQVMSSKVQGTIIADMVTRQEPLKFF VTLSSISASKKIWAANLGDYAAANAFLNGYSQYRKNTGAPGRSLSINYSLWADKGLSEMFGDLSALAVKAQKLNPLSSEG GTQAFFEVLQYEGKSVVHILDRQEDCVANNVAEKVVVLSPSNEPAHPVRYKTAKEIKEIVYQVIAAEINCDAESLEVTKN FLELSIDSLKATKVIAEIGKQLNTELYPTLLFEYQTPEALAEYIEKTYAVNRQEKVEVRQKEKIGKDEESVKDIAIIGMS VRIPGANNLEEYWKILREGECMIQEVPEDRWRKEYHYSSDQGILHKTYSKHGGFIERPYDFDPLFFGMSPKEAEATDPQQ RIFMQVAWEALQQAGYGGKHRTNQIGVFVGCEQNTYMEHFIGYRYYMMMKDVLEKENTFAHLPLSDRQNLLKQMVRILEP GQLVADAIAGNGLNEVAARVSHCLNLTGPSMIVNTACSSSLVALHHACQSIRQGETNMAIAGGVNLNLSPTPFVSLSRVT ALSSNGNCYPFDARANGMVLSEGAGAVLLKSLEQAMEDGDHIFAVIKGSAINNDGRSQGITAPRPQGQAEVIRSAYLNAN VHPETVSYIETHGTATPLGDPIEVEGMTRAFRTFTDKEGFCGIGSVKSSIGHMLSAAGIVSLVKVALAMKHKVIPHTVNY DTPNPNLDFQHSPFYVVAKQPQIWGDEKQNHPLRAGVNAFGFGGTNAHVILEEAPILQRKVNHSVPEMKRPSLLLLTGRT EKVIQNVAMRLKEHIKQNPDLCVPEVCYSMNSSQKELSCKVATVIKSKEHLYSVLEAIEMGRERSEVIKGRSNPNKRMTT HFLFDGTLCLDKAHIKQLNDTFSIFHAAYKKCLDVFETEENENSTSYRQIQSFSCQYAIGKLLLHSGIQPKSFVCEGIGI LVGAACTGIITVEAAIQFIKGNKNLTSEILQNRNDTEYKYTIITPMGIIHKEHTDILKSLCMTDMQYTITTKDIAEYVDK NDVVIQCGISKSDLQGRLISMDIGKVSDSVHELLLCMAKLYTLGVNYNSVAFFEGNENRIPLPTYPFENKMYKVTFEDEN IYKEALSNTELHQKSNLVERDVHKLVPLHLDETVQDSEKSKNMKQLNHDLVMLFGNIIQ
Sequences:
>Translated_3099_residues MKRVKREKNCKLSIAIGKNIEGELYKKENIGRLLMEAADERKDSGITFIQNDGVEDFLSYESLLNRAVRCLGGLQKKGIQ QGQHVMLVLEDSRDFIISFWACILGGIIPVPLVYPTSLKMKNSILDKLFVVWNLLEKPVILSDDHVVNHHEKIESLLAVK GMEFLSISTLYSANEGGEINLAPSDTPAFIQFSSGSTSVPKGVILTHRNLLTNIEAMIAGIHLNHEDKSFSWMPYHHDMG LIGFHLVPTAKGIHQFNMSPMKFVKRPNLWLDYITKHRITLTGSPNFGYRLLLSRAKEEQFKKWDLRSLRLIFNGAEPIS VSLMREFMSKLKQCHLRKEAMFPVYGMAEACLAVSFPKWNDEPFVNCINRKTLVSESRVEKCLETDRQAMLLVEEGSPVA GMKIRIVDEVGNVVPEGIVGEVQIYGENVTDGYIYNDRVTKESIQDGWLKTGDTGFLLNDRLTIVGRIKDIIFVNGQNFY AHDIEGIIEKIEGVKPGRIAICGWHDEKEEKDKVALFSSLPIKQKDTNKIYSKIVSRVNELIGIPIDYVVLTPSIPKTTS GKVQRFVLIDAFKNNKYEGKVLSRTDLSVGLQDENIVEKQEKKEKQKTMEFGKYAEKIREIWSEVLEIPLEHTPYNESFL SLGGTSIKAIQILGYLEDELSLTLSHDILINCRTVNEMDEYIVKVVQGNEGIESGKVKVSSRKMSEEYEGDIAVIALSCR FPDASTPEAFWENLVQGKCSIKEIPSDRWSVKDYYNQIPQFGKTYCRKGAFIQNPYAFDASLFNISEEEAAIMDPQQRMI LELTYELIERAGYTTQMVDGEKVGLFIGAGMNSYYEYHLSTLNRQNLQTFDSFKALPKVQQEAIMNEWKKKFGIMAAHPN ILVDNILNMIAARTSQEFNFKGPSMVVDTACSSSLVTLHMAYESLKRGECEVAIAGGINLLLTPAPYIFFSHAGALSSSG RSMVFDEQADGFVPGEGAGLVMLKTLKKAKADGDKVLATIKASTINNDGRSIGVMAPNPDGQREVIESLYVENEISPQTI QYVEAHGTGTRVGDPSEVRAIDTAFRKWNVGQQSIAIGSVKANIGHLLGAAGIGSFIKVIMSLLYRKMPPNINIFTPNPM IKLEQTPFYLLDEPKEWSKEKGVPRRAAINSFGFGGTNCHLIVEEASETKEVKVNQAIELPKHVLCLSAHSESALQQKVT NLIACLEDSYEYSLGDVCYTENVTRTPLKHRYSVIASSIDDLIEKLKNSSLDNTMVQASPKVALMFTGQGSQYAGMARQL YKLVPRFKKYVDDCSEAFYPILNQSIVDLLYVEANESLLAQTHITQPVVFTIDYALGKLLLDLGVKPACMLGHSVGEWVA ACLSEMITLQDAARLVAIRGELMNEIQTTGAMTAIFSSIATIEPLLEPFKDSLWFAGYNITHQVISGQAEAMEKFLSLLE KKGIVFKKLKVSQAFHTPLMETMLAPFKKELSAITFNKPKIPIVSNVTAEYISQPIHPEYWLEHILGTVKFEQSMKYVLD KGINIFVEAGPDKVLTSMANGLISYKDKCLISMIERKKENWDVYVNAVSKLYTLGVNIDWKTFMKDYGNERVILPSYPFE HKIFKPDFGEELRFMDWLYEWKWEMETPLYIENDKRGSILVFDDEQQVGKEVCGILEQINTSVYVVIPGNEFHYDGDTRF TIRPESIEDYMMMLQHIQGDSISIIHLWNGTKESVTPTLFLQDESALFQTSYSIILMAKALKIKAYKNVEFIVVTDRAFA VLQDEEIQKPQQSISAVIGQVIDQENSEFSSCILDVDNRAYENKFAELAELIVRELSMGRQEEAIVAIRGGKRFVRKLER IVPSKKQEITIQDNETYVITGGTGHIGGEIARAFFKKAKVNLVLTGREQLPSREEWKKGNLSSKVVSKINVIQDLENQGA KVEYFAVDVTNEQKMKEMIQAVKQLYGSIHGVVHAAGTIHHSAGKLLSKDLNDIQQVMSSKVQGTIIADMVTRQEPLKFF VTLSSISASKKIWAANLGDYAAANAFLNGYSQYRKNTGAPGRSLSINYSLWADKGLSEMFGDLSALAVKAQKLNPLSSEG GTQAFFEVLQYEGKSVVHILDRQEDCVANNVAEKVVVLSPSNEPAHPVRYKTAKEIKEIVYQVIAAEINCDAESLEVTKN FLELSIDSLKATKVIAEIGKQLNTELYPTLLFEYQTPEALAEYIEKTYAVNRQEKVEVRQKEKIGKDEESVKDIAIIGMS VRIPGANNLEEYWKILREGECMIQEVPEDRWRKEYHYSSDQGILHKTYSKHGGFIERPYDFDPLFFGMSPKEAEATDPQQ RIFMQVAWEALQQAGYGGKHRTNQIGVFVGCEQNTYMEHFIGYRYYMMMKDVLEKENTFAHLPLSDRQNLLKQMVRILEP GQLVADAIAGNGLNEVAARVSHCLNLTGPSMIVNTACSSSLVALHHACQSIRQGETNMAIAGGVNLNLSPTPFVSLSRVT ALSSNGNCYPFDARANGMVLSEGAGAVLLKSLEQAMEDGDHIFAVIKGSAINNDGRSQGITAPRPQGQAEVIRSAYLNAN VHPETVSYIETHGTATPLGDPIEVEGMTRAFRTFTDKEGFCGIGSVKSSIGHMLSAAGIVSLVKVALAMKHKVIPHTVNY DTPNPNLDFQHSPFYVVAKQPQIWGDEKQNHPLRAGVNAFGFGGTNAHVILEEAPILQRKVNHSVPEMKRPSLLLLTGRT EKVIQNVAMRLKEHIKQNPDLCVPEVCYSMNSSQKELSCKVATVIKSKEHLYSVLEAIEMGRERSEVIKGRSNPNKRMTT HFLFDGTLCLDKAHIKQLNDTFSIFHAAYKKCLDVFETEENENSTSYRQIQSFSCQYAIGKLLLHSGIQPKSFVCEGIGI LVGAACTGIITVEAAIQFIKGNKNLTSEILQNRNDTEYKYTIITPMGIIHKEHTDILKSLCMTDMQYTITTKDIAEYVDK NDVVIQCGISKSDLQGRLISMDIGKVSDSVHELLLCMAKLYTLGVNYNSVAFFEGNENRIPLPTYPFENKMYKVTFEDEN IYKEALSNTELHQKSNLVERDVHKLVPLHLDETVQDSEKSKNMKQLNHDLVMLFGNIIQ >Mature_3099_residues MKRVKREKNCKLSIAIGKNIEGELYKKENIGRLLMEAADERKDSGITFIQNDGVEDFLSYESLLNRAVRCLGGLQKKGIQ QGQHVMLVLEDSRDFIISFWACILGGIIPVPLVYPTSLKMKNSILDKLFVVWNLLEKPVILSDDHVVNHHEKIESLLAVK GMEFLSISTLYSANEGGEINLAPSDTPAFIQFSSGSTSVPKGVILTHRNLLTNIEAMIAGIHLNHEDKSFSWMPYHHDMG LIGFHLVPTAKGIHQFNMSPMKFVKRPNLWLDYITKHRITLTGSPNFGYRLLLSRAKEEQFKKWDLRSLRLIFNGAEPIS VSLMREFMSKLKQCHLRKEAMFPVYGMAEACLAVSFPKWNDEPFVNCINRKTLVSESRVEKCLETDRQAMLLVEEGSPVA GMKIRIVDEVGNVVPEGIVGEVQIYGENVTDGYIYNDRVTKESIQDGWLKTGDTGFLLNDRLTIVGRIKDIIFVNGQNFY AHDIEGIIEKIEGVKPGRIAICGWHDEKEEKDKVALFSSLPIKQKDTNKIYSKIVSRVNELIGIPIDYVVLTPSIPKTTS GKVQRFVLIDAFKNNKYEGKVLSRTDLSVGLQDENIVEKQEKKEKQKTMEFGKYAEKIREIWSEVLEIPLEHTPYNESFL SLGGTSIKAIQILGYLEDELSLTLSHDILINCRTVNEMDEYIVKVVQGNEGIESGKVKVSSRKMSEEYEGDIAVIALSCR FPDASTPEAFWENLVQGKCSIKEIPSDRWSVKDYYNQIPQFGKTYCRKGAFIQNPYAFDASLFNISEEEAAIMDPQQRMI LELTYELIERAGYTTQMVDGEKVGLFIGAGMNSYYEYHLSTLNRQNLQTFDSFKALPKVQQEAIMNEWKKKFGIMAAHPN ILVDNILNMIAARTSQEFNFKGPSMVVDTACSSSLVTLHMAYESLKRGECEVAIAGGINLLLTPAPYIFFSHAGALSSSG RSMVFDEQADGFVPGEGAGLVMLKTLKKAKADGDKVLATIKASTINNDGRSIGVMAPNPDGQREVIESLYVENEISPQTI QYVEAHGTGTRVGDPSEVRAIDTAFRKWNVGQQSIAIGSVKANIGHLLGAAGIGSFIKVIMSLLYRKMPPNINIFTPNPM IKLEQTPFYLLDEPKEWSKEKGVPRRAAINSFGFGGTNCHLIVEEASETKEVKVNQAIELPKHVLCLSAHSESALQQKVT NLIACLEDSYEYSLGDVCYTENVTRTPLKHRYSVIASSIDDLIEKLKNSSLDNTMVQASPKVALMFTGQGSQYAGMARQL YKLVPRFKKYVDDCSEAFYPILNQSIVDLLYVEANESLLAQTHITQPVVFTIDYALGKLLLDLGVKPACMLGHSVGEWVA ACLSEMITLQDAARLVAIRGELMNEIQTTGAMTAIFSSIATIEPLLEPFKDSLWFAGYNITHQVISGQAEAMEKFLSLLE KKGIVFKKLKVSQAFHTPLMETMLAPFKKELSAITFNKPKIPIVSNVTAEYISQPIHPEYWLEHILGTVKFEQSMKYVLD KGINIFVEAGPDKVLTSMANGLISYKDKCLISMIERKKENWDVYVNAVSKLYTLGVNIDWKTFMKDYGNERVILPSYPFE HKIFKPDFGEELRFMDWLYEWKWEMETPLYIENDKRGSILVFDDEQQVGKEVCGILEQINTSVYVVIPGNEFHYDGDTRF TIRPESIEDYMMMLQHIQGDSISIIHLWNGTKESVTPTLFLQDESALFQTSYSIILMAKALKIKAYKNVEFIVVTDRAFA VLQDEEIQKPQQSISAVIGQVIDQENSEFSSCILDVDNRAYENKFAELAELIVRELSMGRQEEAIVAIRGGKRFVRKLER IVPSKKQEITIQDNETYVITGGTGHIGGEIARAFFKKAKVNLVLTGREQLPSREEWKKGNLSSKVVSKINVIQDLENQGA KVEYFAVDVTNEQKMKEMIQAVKQLYGSIHGVVHAAGTIHHSAGKLLSKDLNDIQQVMSSKVQGTIIADMVTRQEPLKFF VTLSSISASKKIWAANLGDYAAANAFLNGYSQYRKNTGAPGRSLSINYSLWADKGLSEMFGDLSALAVKAQKLNPLSSEG GTQAFFEVLQYEGKSVVHILDRQEDCVANNVAEKVVVLSPSNEPAHPVRYKTAKEIKEIVYQVIAAEINCDAESLEVTKN FLELSIDSLKATKVIAEIGKQLNTELYPTLLFEYQTPEALAEYIEKTYAVNRQEKVEVRQKEKIGKDEESVKDIAIIGMS VRIPGANNLEEYWKILREGECMIQEVPEDRWRKEYHYSSDQGILHKTYSKHGGFIERPYDFDPLFFGMSPKEAEATDPQQ RIFMQVAWEALQQAGYGGKHRTNQIGVFVGCEQNTYMEHFIGYRYYMMMKDVLEKENTFAHLPLSDRQNLLKQMVRILEP GQLVADAIAGNGLNEVAARVSHCLNLTGPSMIVNTACSSSLVALHHACQSIRQGETNMAIAGGVNLNLSPTPFVSLSRVT ALSSNGNCYPFDARANGMVLSEGAGAVLLKSLEQAMEDGDHIFAVIKGSAINNDGRSQGITAPRPQGQAEVIRSAYLNAN VHPETVSYIETHGTATPLGDPIEVEGMTRAFRTFTDKEGFCGIGSVKSSIGHMLSAAGIVSLVKVALAMKHKVIPHTVNY DTPNPNLDFQHSPFYVVAKQPQIWGDEKQNHPLRAGVNAFGFGGTNAHVILEEAPILQRKVNHSVPEMKRPSLLLLTGRT EKVIQNVAMRLKEHIKQNPDLCVPEVCYSMNSSQKELSCKVATVIKSKEHLYSVLEAIEMGRERSEVIKGRSNPNKRMTT HFLFDGTLCLDKAHIKQLNDTFSIFHAAYKKCLDVFETEENENSTSYRQIQSFSCQYAIGKLLLHSGIQPKSFVCEGIGI LVGAACTGIITVEAAIQFIKGNKNLTSEILQNRNDTEYKYTIITPMGIIHKEHTDILKSLCMTDMQYTITTKDIAEYVDK NDVVIQCGISKSDLQGRLISMDIGKVSDSVHELLLCMAKLYTLGVNYNSVAFFEGNENRIPLPTYPFENKMYKVTFEDEN IYKEALSNTELHQKSNLVERDVHKLVPLHLDETVQDSEKSKNMKQLNHDLVMLFGNIIQ
Specific function: Catalyzes The Condensation Reaction Of Fatty Acid Synthesis By The Addition To An Acyl Acceptor Of Two Carbons From Malonyl-Acp. Has A Preference For Short Chain Acid Substrates And May Function To Supply The Octanoic Substrates For Lipoic Acid Biosynthe
COG id: NA
COG function: NA
Gene ontology:
Cell location: Cytoplasm [C]
Metaboloic importance: Non_Essential [C]
Operon status: Not Known
Operon components: None
Similarity: Contains 2 acyl carrier domains [H]
Homologues:
Organism=Homo sapiens, GI41872631, Length=898, Percent_Identity=27.8396436525612, Blast_Score=282, Evalue=4e-75, Organism=Homo sapiens, GI8923559, Length=285, Percent_Identity=33.6842105263158, Blast_Score=156, Evalue=4e-37, Organism=Homo sapiens, GI223972627, Length=159, Percent_Identity=35.8490566037736, Blast_Score=94, Evalue=2e-18, Organism=Escherichia coli, GI1787337, Length=308, Percent_Identity=30.8441558441558, Blast_Score=126, Evalue=2e-29, Organism=Escherichia coli, GI145693145, Length=544, Percent_Identity=24.6323529411765, Blast_Score=113, Evalue=2e-25, Organism=Escherichia coli, GI1787334, Length=294, Percent_Identity=30.6122448979592, Blast_Score=99, Evalue=3e-21, Organism=Escherichia coli, GI1788663, Length=288, Percent_Identity=28.125, Blast_Score=98, Evalue=9e-21, Organism=Escherichia coli, GI1788107, Length=533, Percent_Identity=25.703564727955, Blast_Score=97, Evalue=2e-20, Organism=Caenorhabditis elegans, GI212642053, Length=938, Percent_Identity=27.7185501066098, Blast_Score=283, Evalue=1e-75, Organism=Caenorhabditis elegans, GI17550940, Length=962, Percent_Identity=25.1559251559252, Blast_Score=263, Evalue=1e-69, Organism=Caenorhabditis elegans, GI71983541, Length=266, Percent_Identity=31.9548872180451, Blast_Score=132, Evalue=2e-30, Organism=Caenorhabditis elegans, GI71983535, Length=266, Percent_Identity=31.9548872180451, Blast_Score=130, Evalue=9e-30, Organism=Caenorhabditis elegans, GI17558820, Length=466, Percent_Identity=27.4678111587983, Blast_Score=122, Evalue=3e-27, Organism=Caenorhabditis elegans, GI32563687, Length=517, Percent_Identity=24.5647969052224, Blast_Score=115, Evalue=3e-25, Organism=Caenorhabditis elegans, GI17560308, Length=394, Percent_Identity=26.9035532994924, Blast_Score=92, Evalue=5e-18, Organism=Caenorhabditis elegans, GI17559526, Length=576, Percent_Identity=23.4375, Blast_Score=91, Evalue=1e-17, Organism=Caenorhabditis elegans, GI71994690, Length=342, Percent_Identity=26.3157894736842, Blast_Score=85, Evalue=8e-16, Organism=Caenorhabditis elegans, GI71994694, Length=326, Percent_Identity=26.3803680981595, Blast_Score=84, Evalue=1e-15, Organism=Caenorhabditis elegans, GI71994703, Length=342, Percent_Identity=26.3157894736842, Blast_Score=84, Evalue=2e-15, Organism=Caenorhabditis elegans, GI193202679, Length=537, Percent_Identity=20.4841713221602, Blast_Score=82, Evalue=3e-15, Organism=Saccharomyces cerevisiae, GI6320904, Length=478, Percent_Identity=24.6861924686192, Blast_Score=138, Evalue=1e-32, Organism=Saccharomyces cerevisiae, GI6319699, Length=424, Percent_Identity=25, Blast_Score=85, Evalue=2e-16, Organism=Drosophila melanogaster, GI24581345, Length=967, Percent_Identity=26.6804550155119, Blast_Score=270, Evalue=1e-71, Organism=Drosophila melanogaster, GI221330659, Length=889, Percent_Identity=26.9966254218223, Blast_Score=264, Evalue=7e-70, Organism=Drosophila melanogaster, GI19920632, Length=889, Percent_Identity=26.9966254218223, Blast_Score=264, Evalue=8e-70, Organism=Drosophila melanogaster, GI24644341, Length=275, Percent_Identity=32.3636363636364, Blast_Score=125, Evalue=5e-28, Organism=Drosophila melanogaster, GI24581924, Length=570, Percent_Identity=26.140350877193, Blast_Score=100, Evalue=2e-20, Organism=Drosophila melanogaster, GI24654656, Length=449, Percent_Identity=21.1581291759465, Blast_Score=79, Evalue=4e-14, Organism=Drosophila melanogaster, GI24653035, Length=547, Percent_Identity=23.7659963436929, Blast_Score=79, Evalue=6e-14, Organism=Drosophila melanogaster, GI20130357, Length=403, Percent_Identity=24.8138957816377, Blast_Score=75, Evalue=6e-13,
Paralogues:
None
Copy number: NA
Swissprot (AC and ID): NA
Other databases:
- InterPro: IPR001227 - InterPro: IPR009081 - InterPro: IPR014043 - InterPro: IPR016035 - InterPro: IPR013149 - InterPro: IPR013154 - InterPro: IPR000794 - InterPro: IPR002198 - InterPro: IPR015357 - InterPro: IPR011032 - InterPro: IPR018201 - InterPro: IPR014031 - InterPro: IPR014030 - InterPro: IPR016036 - InterPro: IPR016040 - InterPro: IPR006163 - InterPro: IPR020842 - InterPro: IPR020801 - InterPro: IPR020841 - InterPro: IPR020807 - InterPro: IPR020843 - InterPro: IPR020806 - InterPro: IPR015083 - InterPro: IPR006162 - InterPro: IPR016039 - InterPro: IPR016038 [H]
Pfam domain/function: PF00698 Acyl_transf_1; PF08240 ADH_N; PF00106 adh_short; PF00107 ADH_zinc_N; PF08990 Docking; PF09277 Erythro-docking; PF00109 ketoacyl-synt; PF02801 Ketoacyl-synt_C; PF00550 PP-binding [H]
EC number: =2.3.1.94 [H]
Molecular weight: Translated: 347357; Mature: 347357
Theoretical pI: Translated: 6.37; Mature: 6.37
Prosite motif: PS50075 ACP_DOMAIN ; PS00098 THIOLASE_1 ; PS00606 B_KETOACYL_SYNTHASE ; PS00639 THIOL_PROTEASE_HIS ; PS00455 AMP_BINDING
Important sites: NA
Signals:
None
Transmembrane regions:
None
Cys/Met content:
1.4 %Cys (Translated Protein) 2.9 %Met (Translated Protein) 4.3 %Cys+Met (Translated Protein) 1.4 %Cys (Mature Protein) 2.9 %Met (Mature Protein) 4.3 %Cys+Met (Mature Protein)
Secondary structure:
>Translated Secondary Structure MKRVKREKNCKLSIAIGKNIEGELYKKENIGRLLMEAADERKDSGITFIQNDGVEDFLSY CCCCCCCCCCEEEEEECCCCCCCEECHHHHHHHHHHHHHCCCCCCEEEEECCCHHHHHHH ESLLNRAVRCLGGLQKKGIQQGQHVMLVLEDSRDFIISFWACILGGIIPVPLVYPTSLKM HHHHHHHHHHHHHHHHHHHCCCCEEEEEEECCCHHHHHHHHHHHCCCCCCCEECCCCHHH KNSILDKLFVVWNLLEKPVILSDDHVVNHHEKIESLLAVKGMEFLSISTLYSANEGGEIN HHHHHHHHHHHHHHHCCCEEECCCCHHHHHHHHHHHHHHCCCHHEEEEHHEECCCCCEEE LAPSDTPAFIQFSSGSTSVPKGVILTHRNLLTNIEAMIAGIHLNHEDKSFSWMPYHHDMG ECCCCCCCEEEECCCCCCCCCCEEEEHHHHHHHHHHHHEEEEECCCCCCCEECCCCCCCC LIGFHLVPTAKGIHQFNMSPMKFVKRPNLWLDYITKHRITLTGSPNFGYRLLLSRAKEEQ EEEEEECCCCCCHHHCCCCHHHHHCCCCHHHHHHCCCEEEEECCCCCCHHHHHHHHHHHH FKKWDLRSLRLIFNGAEPISVSLMREFMSKLKQCHLRKEAMFPVYGMAEACLAVSFPKWN HHHHCHHHEEEEECCCCCHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHEEECCCCC DEPFVNCINRKTLVSESRVEKCLETDRQAMLLVEEGSPVAGMKIRIVDEVGNVVPEGIVG CCHHHHHHCHHHHHHHHHHHHHHHCCCEEEEEEECCCCCCCEEEEEEHHHCCCCCCCCEE EVQIYGENVTDGYIYNDRVTKESIQDGWLKTGDTGFLLNDRLTIVGRIKDIIFVNGQNFY EEEEEECCCCCCEEECCCCCHHHHHCCCEECCCCCEEECCCEEEEEEEEEEEEECCCCCC AHDIEGIIEKIEGVKPGRIAICGWHDEKEEKDKVALFSSLPIKQKDTNKIYSKIVSRVNE HHHHHHHHHHHCCCCCCEEEEECCCCCCCCHHHEEHHHCCCCCCCHHHHHHHHHHHHHHH LIGIPIDYVVLTPSIPKTTSGKVQRFVLIDAFKNNKYEGKVLSRTDLSVGLQDENIVEKQ HHCCCEEEEEECCCCCCCCCCCEEEEEEEEECCCCCCCCEEEEECCCEECCCCCHHHHHH EKKEKQKTMEFGKYAEKIREIWSEVLEIPLEHTPYNESFLSLGGTSIKAIQILGYLEDEL HHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHCCCCCEEEHHHHHHHCCHH SLTLSHDILINCRTVNEMDEYIVKVVQGNEGIESGKVKVSSRKMSEEYEGDIAVIALSCR EEEEECEEEEEEEEHHHHHHHHHHHHCCCCCCCCCEEEEHHHHHHHHHCCCEEEEEEEEC FPDASTPEAFWENLVQGKCSIKEIPSDRWSVKDYYNQIPQFGKTYCRKGAFIQNPYAFDA CCCCCCHHHHHHHHHCCCCCHHCCCCCCCCHHHHHHHHHHHHHHHHHCCCEECCCCEECC SLFNISEEEAAIMDPQQRMILELTYELIERAGYTTQMVDGEKVGLFIGAGMNSYYEYHLS CEECCCCHHHHHCCHHHHHHHHHHHHHHHHCCCEEEEECCCEEEEEEECCCCHHHHHHHH TLNRQNLQTFDSFKALPKVQQEAIMNEWKKKFGIMAAHPNILVDNILNMIAARTSQEFNF HCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCEEECCCCHHHHHHHHHHHHHCCCCCCC KGPSMVVDTACSSSLVTLHMAYESLKRGECEVAIAGGINLLLTPAPYIFFSHAGALSSSG CCCCEEEECCCCCCHHHHHHHHHHHCCCCEEEEEECCCEEEECCCCEEEEECCCCCCCCC RSMVFDEQADGFVPGEGAGLVMLKTLKKAKADGDKVLATIKASTINNDGRSIGVMAPNPD CEEEEECCCCCCCCCCCCCCHHHHHHHHHCCCCCCEEEEEEEEEECCCCCEEEEECCCCC GQREVIESLYVENEISPQTIQYVEAHGTGTRVGDPSEVRAIDTAFRKWNVGQQSIAIGSV CHHHHHHHHHHCCCCCCHHHHEEEECCCCCCCCCCHHHHHHHHHHHHCCCCCHHEEEEHH KANIGHLLGAAGIGSFIKVIMSLLYRKMPPNINIFTPNPMIKLEQTPFYLLDEPKEWSKE HHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCEEEECCCCEEEEECCCEEEECCCHHHHHH KGVPRRAAINSFGFGGTNCHLIVEEASETKEVKVNQAIELPKHVLCLSAHSESALQQKVT CCCCHHHHHCCCCCCCCCEEEEEECCCCCHHEEHHHHHCCCCCEEEEECCCHHHHHHHHH NLIACLEDSYEYSLGDVCYTENVTRTPLKHRYSVIASSIDDLIEKLKNSSLDNTMVQASP HHHHHHHCCCCCCCCCEEECCCCCCCHHHHHHHHHHHHHHHHHHHHHCCCCCCCCEECCC KVALMFTGQGSQYAGMARQLYKLVPRFKKYVDDCSEAFYPILNQSIVDLLYVEANESLLA CEEEEEECCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHEEEEECCCHHHH QTHITQPVVFTIDYALGKLLLDLGVKPACMLGHSVGEWVAACLSEMITLQDAARLVAIRG HHHCCCCEEEEEHHHHHHHHHHCCCCCHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHH ELMNEIQTTGAMTAIFSSIATIEPLLEPFKDSLWFAGYNITHQVISGQAEAMEKFLSLLE HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHEEECCCHHHHHHCCHHHHHHHHHHHHH KKGIVFKKLKVSQAFHTPLMETMLAPFKKELSAITFNKPKIPIVSNVTAEYISQPIHPEY HCCCEEEHHHHHHHHHHHHHHHHHHHHHHHHHEEECCCCCCCEECCCHHHHHCCCCCHHH WLEHILGTVKFEQSMKYVLDKGINIFVEAGPDKVLTSMANGLISYKDKCLISMIERKKEN HHHHHHHHHHHHHHHHHHHHCCCEEEEECCCHHHHHHHHHHHHHHHHHHHHHHHHHCCCC WDVYVNAVSKLYTLGVNIDWKTFMKDYGNERVILPSYPFEHKIFKPDFGEELRFMDWLYE CHHHHHHHHHHHHCCCCCCHHHHHHHCCCCEEEECCCCCCCCCCCCCCCHHHHHHHHHHH WKWEMETPLYIENDKRGSILVFDDEQQVGKEVCGILEQINTSVYVVIPGNEFHYDGDTRF HCCCCCCCEEEECCCCCCEEEECCHHHHHHHHHHHHHHHCCEEEEEECCCEEEECCCCEE TIRPESIEDYMMMLQHIQGDSISIIHLWNGTKESVTPTLFLQDESALFQTSYSIILMAKA EECCCCHHHHHHHHHHCCCCCEEEEEEECCCCCCCCCEEEECCCHHHHHHHHHHEEEEHH LKIKAYKNVEFIVVTDRAFAVLQDEEIQKPQQSISAVIGQVIDQENSEFSSCILDVDNRA HEEEEECCEEEEEEECCEEEEECCHHHCCHHHHHHHHHHHHHCCCCCCHHHHEEECCCHH YENKFAELAELIVRELSMGRQEEAIVAIRGGKRFVRKLERIVPSKKQEITIQDNETYVIT HHHHHHHHHHHHHHHHHCCCCCCEEEEEECCHHHHHHHHHHCCCCCCEEEEECCCEEEEE GGTGHIGGEIARAFFKKAKVNLVLTGREQLPSREEWKKGNLSSKVVSKINVIQDLENQGA CCCCCCCHHHHHHHHHHCCEEEEEECHHHCCCHHHHCCCCCHHHHHHHHHHHHHHHCCCC KVEYFAVDVTNEQKMKEMIQAVKQLYGSIHGVVHAAGTIHHSAGKLLSKDLNDIQQVMSS EEEEEEEECCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH KVQGTIIADMVTRQEPLKFFVTLSSISASKKIWAANLGDYAAANAFLNGYSQYRKNTGAP HCCCCHHHHHHHCCCCCEEEEEEECCCCCCCEEECCCCCHHHHHHHHHHHHHHHHCCCCC GRSLSINYSLWADKGLSEMFGDLSALAVKAQKLNPLSSEGGTQAFFEVLQYEGKSVVHIL CCEEEEEEEEECCCCHHHHHCCHHHHHHHHHHCCCCCCCCCHHHHHHHHHHCCCCEEEEE DRQEDCVANNVAEKVVVLSPSNEPAHPVRYKTAKEIKEIVYQVIAAEINCDAESLEVTKN CCCHHHHHHHHHCEEEEECCCCCCCCCCCHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHH FLELSIDSLKATKVIAEIGKQLNTELYPTLLFEYQTPEALAEYIEKTYAVNRQEKVEVRQ HHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEECCHHHHHHHHHHHHHCCCHHHHHHHH KEKIGKDEESVKDIAIIGMSVRIPGANNLEEYWKILREGECMIQEVPEDRWRKEYHYSSD HHHCCCCHHHHCEEEEEEEEEECCCCCCHHHHHHHHHCCCHHHHHCCHHHHHHHCCCCCC QGILHKTYSKHGGFIERPYDFDPLFFGMSPKEAEATDPQQRIFMQVAWEALQQAGYGGKH CCHHHHHHHHCCCEECCCCCCCCEEECCCCCCCCCCCHHHHHHHHHHHHHHHHCCCCCCC RTNQIGVFVGCEQNTYMEHFIGYRYYMMMKDVLEKENTFAHLPLSDRQNLLKQMVRILEP CCCEEEEEEECCCCHHHHHHHHHHHHHHHHHHHHCCCCEEECCCHHHHHHHHHHHHHCCC GQLVADAIAGNGLNEVAARVSHCLNLTGPSMIVNTACSSSLVALHHACQSIRQGETNMAI CHHHHHHHCCCCHHHHHHHHHHHHCCCCCHHHHHHHHCHHHHHHHHHHHHHHCCCCCEEE AGGVNLNLSPTPFVSLSRVTALSSNGNCYPFDARANGMVLSEGAGAVLLKSLEQAMEDGD ECCEEECCCCCCCEEHHHHEEECCCCCEEEECCCCCCEEEECCCCHHHHHHHHHHHHCCC HIFAVIKGSAINNDGRSQGITAPRPQGQAEVIRSAYLNANVHPETVSYIETHGTATPLGD EEEEEEECCEECCCCCCCCCCCCCCCCHHHHHHHHHHCCCCCCHHHHHHHHCCCCCCCCC PIEVEGMTRAFRTFTDKEGFCGIGSVKSSIGHMLSAAGIVSLVKVALAMKHKVIPHTVNY CEEECHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEECC DTPNPNLDFQHSPFYVVAKQPQIWGDEKQNHPLRAGVNAFGFGGTNAHVILEEAPILQRK CCCCCCCCCCCCCEEEEECCCCCCCCCCCCCCHHCCCCCCCCCCCCCEEEEECCCHHHHH VNHSVPEMKRPSLLLLTGRTEKVIQNVAMRLKEHIKQNPDLCVPEVCYSMNSSQKELSCK HCCCCCCCCCCCEEEEECCHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHCCCCHHHHHHH VATVIKSKEHLYSVLEAIEMGRERSEVIKGRSNPNKRMTTHFLFDGTLCLDKAHIKQLND HHHHHHHHHHHHHHHHHHHHCCHHHHHHCCCCCCCCCEEEEEEECCEEEECHHHHHHHHH TFSIFHAAYKKCLDVFETEENENSTSYRQIQSFSCQYAIGKLLLHSGIQPKSFVCEGIGI HHHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHCCHHHHHHHHHHHCCCCCHHHHHHHHHH LVGAACTGIITVEAAIQFIKGNKNLTSEILQNRNDTEYKYTIITPMGIIHKEHTDILKSL HHHHHHHHHEEHHHHHHHHCCCCCHHHHHHCCCCCCCEEEEEECCHHHHHHHHHHHHHHH CMTDMQYTITTKDIAEYVDKNDVVIQCGISKSDLQGRLISMDIGKVSDSVHELLLCMAKL HHCCCEEEEEHHHHHHHCCCCCEEEEECCCHHCCCCEEEEEEHHHHHHHHHHHHHHHHHH YTLGVNYNSVAFFEGNENRIPLPTYPFENKMYKVTFEDENIYKEALSNTELHQKSNLVER HHHCCCCCEEEEEECCCCCCCCCCCCCCCCEEEEEECCCHHHHHHHCCCHHHHHHHHHHH DVHKLVPLHLDETVQDSEKSKNMKQLNHDLVMLFGNIIQ HHHHHCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCC >Mature Secondary Structure MKRVKREKNCKLSIAIGKNIEGELYKKENIGRLLMEAADERKDSGITFIQNDGVEDFLSY CCCCCCCCCCEEEEEECCCCCCCEECHHHHHHHHHHHHHCCCCCCEEEEECCCHHHHHHH ESLLNRAVRCLGGLQKKGIQQGQHVMLVLEDSRDFIISFWACILGGIIPVPLVYPTSLKM HHHHHHHHHHHHHHHHHHHCCCCEEEEEEECCCHHHHHHHHHHHCCCCCCCEECCCCHHH KNSILDKLFVVWNLLEKPVILSDDHVVNHHEKIESLLAVKGMEFLSISTLYSANEGGEIN HHHHHHHHHHHHHHHCCCEEECCCCHHHHHHHHHHHHHHCCCHHEEEEHHEECCCCCEEE LAPSDTPAFIQFSSGSTSVPKGVILTHRNLLTNIEAMIAGIHLNHEDKSFSWMPYHHDMG ECCCCCCCEEEECCCCCCCCCCEEEEHHHHHHHHHHHHEEEEECCCCCCCEECCCCCCCC LIGFHLVPTAKGIHQFNMSPMKFVKRPNLWLDYITKHRITLTGSPNFGYRLLLSRAKEEQ EEEEEECCCCCCHHHCCCCHHHHHCCCCHHHHHHCCCEEEEECCCCCCHHHHHHHHHHHH FKKWDLRSLRLIFNGAEPISVSLMREFMSKLKQCHLRKEAMFPVYGMAEACLAVSFPKWN HHHHCHHHEEEEECCCCCHHHHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHHEEECCCCC DEPFVNCINRKTLVSESRVEKCLETDRQAMLLVEEGSPVAGMKIRIVDEVGNVVPEGIVG CCHHHHHHCHHHHHHHHHHHHHHHCCCEEEEEEECCCCCCCEEEEEEHHHCCCCCCCCEE EVQIYGENVTDGYIYNDRVTKESIQDGWLKTGDTGFLLNDRLTIVGRIKDIIFVNGQNFY EEEEEECCCCCCEEECCCCCHHHHHCCCEECCCCCEEECCCEEEEEEEEEEEEECCCCCC AHDIEGIIEKIEGVKPGRIAICGWHDEKEEKDKVALFSSLPIKQKDTNKIYSKIVSRVNE HHHHHHHHHHHCCCCCCEEEEECCCCCCCCHHHEEHHHCCCCCCCHHHHHHHHHHHHHHH LIGIPIDYVVLTPSIPKTTSGKVQRFVLIDAFKNNKYEGKVLSRTDLSVGLQDENIVEKQ HHCCCEEEEEECCCCCCCCCCCEEEEEEEEECCCCCCCCEEEEECCCEECCCCCHHHHHH EKKEKQKTMEFGKYAEKIREIWSEVLEIPLEHTPYNESFLSLGGTSIKAIQILGYLEDEL HHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCHHHHCCCCCEEEHHHHHHHCCHH SLTLSHDILINCRTVNEMDEYIVKVVQGNEGIESGKVKVSSRKMSEEYEGDIAVIALSCR EEEEECEEEEEEEEHHHHHHHHHHHHCCCCCCCCCEEEEHHHHHHHHHCCCEEEEEEEEC FPDASTPEAFWENLVQGKCSIKEIPSDRWSVKDYYNQIPQFGKTYCRKGAFIQNPYAFDA CCCCCCHHHHHHHHHCCCCCHHCCCCCCCCHHHHHHHHHHHHHHHHHCCCEECCCCEECC SLFNISEEEAAIMDPQQRMILELTYELIERAGYTTQMVDGEKVGLFIGAGMNSYYEYHLS CEECCCCHHHHHCCHHHHHHHHHHHHHHHHCCCEEEEECCCEEEEEEECCCCHHHHHHHH TLNRQNLQTFDSFKALPKVQQEAIMNEWKKKFGIMAAHPNILVDNILNMIAARTSQEFNF HCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCEEECCCCHHHHHHHHHHHHHCCCCCCC KGPSMVVDTACSSSLVTLHMAYESLKRGECEVAIAGGINLLLTPAPYIFFSHAGALSSSG CCCCEEEECCCCCCHHHHHHHHHHHCCCCEEEEEECCCEEEECCCCEEEEECCCCCCCCC RSMVFDEQADGFVPGEGAGLVMLKTLKKAKADGDKVLATIKASTINNDGRSIGVMAPNPD CEEEEECCCCCCCCCCCCCCHHHHHHHHHCCCCCCEEEEEEEEEECCCCCEEEEECCCCC GQREVIESLYVENEISPQTIQYVEAHGTGTRVGDPSEVRAIDTAFRKWNVGQQSIAIGSV CHHHHHHHHHHCCCCCCHHHHEEEECCCCCCCCCCHHHHHHHHHHHHCCCCCHHEEEEHH KANIGHLLGAAGIGSFIKVIMSLLYRKMPPNINIFTPNPMIKLEQTPFYLLDEPKEWSKE HHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCEEEECCCCEEEEECCCEEEECCCHHHHHH KGVPRRAAINSFGFGGTNCHLIVEEASETKEVKVNQAIELPKHVLCLSAHSESALQQKVT CCCCHHHHHCCCCCCCCCEEEEEECCCCCHHEEHHHHHCCCCCEEEEECCCHHHHHHHHH NLIACLEDSYEYSLGDVCYTENVTRTPLKHRYSVIASSIDDLIEKLKNSSLDNTMVQASP HHHHHHHCCCCCCCCCEEECCCCCCCHHHHHHHHHHHHHHHHHHHHHCCCCCCCCEECCC KVALMFTGQGSQYAGMARQLYKLVPRFKKYVDDCSEAFYPILNQSIVDLLYVEANESLLA CEEEEEECCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHEEEEECCCHHHH QTHITQPVVFTIDYALGKLLLDLGVKPACMLGHSVGEWVAACLSEMITLQDAARLVAIRG HHHCCCCEEEEEHHHHHHHHHHCCCCCHHHHCCCHHHHHHHHHHHHHHHHHHHHHHHHHH ELMNEIQTTGAMTAIFSSIATIEPLLEPFKDSLWFAGYNITHQVISGQAEAMEKFLSLLE HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHEEECCCHHHHHHCCHHHHHHHHHHHHH KKGIVFKKLKVSQAFHTPLMETMLAPFKKELSAITFNKPKIPIVSNVTAEYISQPIHPEY HCCCEEEHHHHHHHHHHHHHHHHHHHHHHHHHEEECCCCCCCEECCCHHHHHCCCCCHHH WLEHILGTVKFEQSMKYVLDKGINIFVEAGPDKVLTSMANGLISYKDKCLISMIERKKEN HHHHHHHHHHHHHHHHHHHHCCCEEEEECCCHHHHHHHHHHHHHHHHHHHHHHHHHCCCC WDVYVNAVSKLYTLGVNIDWKTFMKDYGNERVILPSYPFEHKIFKPDFGEELRFMDWLYE CHHHHHHHHHHHHCCCCCCHHHHHHHCCCCEEEECCCCCCCCCCCCCCCHHHHHHHHHHH WKWEMETPLYIENDKRGSILVFDDEQQVGKEVCGILEQINTSVYVVIPGNEFHYDGDTRF HCCCCCCCEEEECCCCCCEEEECCHHHHHHHHHHHHHHHCCEEEEEECCCEEEECCCCEE TIRPESIEDYMMMLQHIQGDSISIIHLWNGTKESVTPTLFLQDESALFQTSYSIILMAKA EECCCCHHHHHHHHHHCCCCCEEEEEEECCCCCCCCCEEEECCCHHHHHHHHHHEEEEHH LKIKAYKNVEFIVVTDRAFAVLQDEEIQKPQQSISAVIGQVIDQENSEFSSCILDVDNRA HEEEEECCEEEEEEECCEEEEECCHHHCCHHHHHHHHHHHHHCCCCCCHHHHEEECCCHH YENKFAELAELIVRELSMGRQEEAIVAIRGGKRFVRKLERIVPSKKQEITIQDNETYVIT HHHHHHHHHHHHHHHHHCCCCCCEEEEEECCHHHHHHHHHHCCCCCCEEEEECCCEEEEE GGTGHIGGEIARAFFKKAKVNLVLTGREQLPSREEWKKGNLSSKVVSKINVIQDLENQGA CCCCCCCHHHHHHHHHHCCEEEEEECHHHCCCHHHHCCCCCHHHHHHHHHHHHHHHCCCC KVEYFAVDVTNEQKMKEMIQAVKQLYGSIHGVVHAAGTIHHSAGKLLSKDLNDIQQVMSS EEEEEEEECCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH KVQGTIIADMVTRQEPLKFFVTLSSISASKKIWAANLGDYAAANAFLNGYSQYRKNTGAP HCCCCHHHHHHHCCCCCEEEEEEECCCCCCCEEECCCCCHHHHHHHHHHHHHHHHCCCCC GRSLSINYSLWADKGLSEMFGDLSALAVKAQKLNPLSSEGGTQAFFEVLQYEGKSVVHIL CCEEEEEEEEECCCCHHHHHCCHHHHHHHHHHCCCCCCCCCHHHHHHHHHHCCCCEEEEE DRQEDCVANNVAEKVVVLSPSNEPAHPVRYKTAKEIKEIVYQVIAAEINCDAESLEVTKN CCCHHHHHHHHHCEEEEECCCCCCCCCCCHHHHHHHHHHHHHHHHHHCCCCHHHHHHHHH FLELSIDSLKATKVIAEIGKQLNTELYPTLLFEYQTPEALAEYIEKTYAVNRQEKVEVRQ HHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEECCHHHHHHHHHHHHHCCCHHHHHHHH KEKIGKDEESVKDIAIIGMSVRIPGANNLEEYWKILREGECMIQEVPEDRWRKEYHYSSD HHHCCCCHHHHCEEEEEEEEEECCCCCCHHHHHHHHHCCCHHHHHCCHHHHHHHCCCCCC QGILHKTYSKHGGFIERPYDFDPLFFGMSPKEAEATDPQQRIFMQVAWEALQQAGYGGKH CCHHHHHHHHCCCEECCCCCCCCEEECCCCCCCCCCCHHHHHHHHHHHHHHHHCCCCCCC RTNQIGVFVGCEQNTYMEHFIGYRYYMMMKDVLEKENTFAHLPLSDRQNLLKQMVRILEP CCCEEEEEEECCCCHHHHHHHHHHHHHHHHHHHHCCCCEEECCCHHHHHHHHHHHHHCCC GQLVADAIAGNGLNEVAARVSHCLNLTGPSMIVNTACSSSLVALHHACQSIRQGETNMAI CHHHHHHHCCCCHHHHHHHHHHHHCCCCCHHHHHHHHCHHHHHHHHHHHHHHCCCCCEEE AGGVNLNLSPTPFVSLSRVTALSSNGNCYPFDARANGMVLSEGAGAVLLKSLEQAMEDGD ECCEEECCCCCCCEEHHHHEEECCCCCEEEECCCCCCEEEECCCCHHHHHHHHHHHHCCC HIFAVIKGSAINNDGRSQGITAPRPQGQAEVIRSAYLNANVHPETVSYIETHGTATPLGD EEEEEEECCEECCCCCCCCCCCCCCCCHHHHHHHHHHCCCCCCHHHHHHHHCCCCCCCCC PIEVEGMTRAFRTFTDKEGFCGIGSVKSSIGHMLSAAGIVSLVKVALAMKHKVIPHTVNY CEEECHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEECC DTPNPNLDFQHSPFYVVAKQPQIWGDEKQNHPLRAGVNAFGFGGTNAHVILEEAPILQRK CCCCCCCCCCCCCEEEEECCCCCCCCCCCCCCHHCCCCCCCCCCCCCEEEEECCCHHHHH VNHSVPEMKRPSLLLLTGRTEKVIQNVAMRLKEHIKQNPDLCVPEVCYSMNSSQKELSCK HCCCCCCCCCCCEEEEECCHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHCCCCHHHHHHH VATVIKSKEHLYSVLEAIEMGRERSEVIKGRSNPNKRMTTHFLFDGTLCLDKAHIKQLND HHHHHHHHHHHHHHHHHHHHCCHHHHHHCCCCCCCCCEEEEEEECCEEEECHHHHHHHHH TFSIFHAAYKKCLDVFETEENENSTSYRQIQSFSCQYAIGKLLLHSGIQPKSFVCEGIGI HHHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHCCHHHHHHHHHHHCCCCCHHHHHHHHHH LVGAACTGIITVEAAIQFIKGNKNLTSEILQNRNDTEYKYTIITPMGIIHKEHTDILKSL HHHHHHHHHEEHHHHHHHHCCCCCHHHHHHCCCCCCCEEEEEECCHHHHHHHHHHHHHHH CMTDMQYTITTKDIAEYVDKNDVVIQCGISKSDLQGRLISMDIGKVSDSVHELLLCMAKL HHCCCEEEEEHHHHHHHCCCCCEEEEECCCHHCCCCEEEEEEHHHHHHHHHHHHHHHHHH YTLGVNYNSVAFFEGNENRIPLPTYPFENKMYKVTFEDENIYKEALSNTELHQKSNLVER HHHCCCCCEEEEEECCCCCCCCCCCCCCCCEEEEEECCCHHHHHHHCCCHHHHHHHHHHH DVHKLVPLHLDETVQDSEKSKNMKQLNHDLVMLFGNIIQ HHHHHCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHCC
PDB accession: NA
Resolution: NA
Structure class: Alpha Beta
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; 1740151 [H]