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The map label for this gene is 113476439

Identifier: 113476439

GI number: 113476439

Start: 4435624

End: 4445142

Strand: Reverse

Name: 113476439

Synonym: Tery_2853

Alternate gene names: NA

Gene position: 4445142-4435624 (Counterclockwise)

Preceding gene: 113476440

Following gene: 113476438

Centisome position: 57.36

GC content: 32.57

Gene sequence:

>9519_bases
ATGCAAAATACTCCTGTTATTCAACTGATAGATGAAGCTAAAAACATCGCAATTAAAGGTTCATTGTGCCAGGAAAAAGG
CCAATTAGAAGAAGCAGCATTTTATTATCAACAGGCACTAAATCAGAATCCAAATTTACAACAAGTTAACTATAACTTAG
GGATTATACACTATCAACAGGGAGATTTATTAGGAGCATATCAGAGCTATAAAAAAGCAATTGCCCTAAAACCAGACGAT
ATTAACGCTTATTATAATCTGGGCATTGTCTTGCAAAATCAAGGTTTATTAATTTCAGCAATTGATAGTTATCAGCAAGC
AATAAACTTATCAAAAAGTGAGAAAAGTAACTCTCATGAAACTATAGTTAATTGTTACAGTAATTGGGGTTGTATTTTAT
TGCATCAAGGTCAATCAGATGCAGCAATTGCTGTATTTAAAGAAGCTTTATTGCTGAAACCAGACGACTTTACTATCTAC
AATAATATTGGTCAAGCCCTATTACAAAAAAGTCAATTAGACCAGGCAATAACTTACTTGAAAAAATCCCTAAAGTTAGA
ACCTCAATTTACCATATCTCTTTATCATCTTGGTCAAGTATATCAAAGTCAGGGATTACATGAAAAAGCAGTTAAATATT
TTCAGCAAATCATAGAACTAGAACCAGAAAATCTAACAGCTTATAGTGAGAGTTTTTATTCCCTAATGGAACAAGGAAAA
CTCTCAGAAGCCATGACTAATTTACAAAAAGCTATTCAGAACAATTCTTTTGTGGAAGGTTACTGTAAATGGAGTAATTT
ATTAGCAGAAAGTACAGATGAATTAGACAAAGGGAAAGTAGCCGGCGCCAACTTTTTAAAAGCTCTAAAAAACTCTAATT
TTCCCAATTCATTATCTCTGAAAGAAATTTCTCAATACCTGATAGAAATCTATCTACATTTAGGGAATGTATCAGGAGAA
TCTGACCAGGATGAACAAGCAAAAATTTATTATAAAAAAGCTTTAGAACTGGAAACAGTAACAGCAGAAGAATATGTCAA
GCTAGGTAAGAGTTTAGTCAAGCAAAATCTGATAAATTCAGCAATTATTATTACTAATCTAGGATTAGAAACTTATCCAG
AGCATCCCGAAATATTAGAGAATTTGCAGAGTTTATCAAAATCAAAAAAAGCTCAGAAAAAGCCGAAATTTTTATCATCA
TCCTGTGAAAGATTAAACAGTAGACCATGGTGGGAACAAAATTTTCAAGAATTTAATATGCTCCACTTAGGCAGTAGAAT
TTATAGCTGTTCAGAAAATCAAACAACGACAAATATTCTCAGCCAAAATAACTCATTAAAAAGAGCAGAAACAGAAACAT
TTGTAGCTCAACTACTATCAGGTAGGGCATGGGTTGTACCCCAGAAAAAATATGGGATGATTAATAATGCAATAGCAATT
ATCAATCAAGATAATCAACTTGTAAAAGAGCTTTCCTGGAACGAAGCAGGTCAGCTAGGATGTCAAAATTCTGATGAAAA
TAAACAAGAAATTTTTGACTTAGAAGAACTACCAGAATTAGAAAAAATAGATGGTAAAGTAGCAGTATTATCAGGATTAT
ATGACCATGTATATTTTCATTGGATGGTAGATATATTGCCGAGGTTAGAAATTCTAAAGCTTCATGGCATAGACTTAAAA
GAAATAGATTTTTTTTTAGTTAGTAATTATCAGATGCCATTTCAAAGGGAAAGTTTGAATGTATTAGGTATTCCCCAAAA
TAAAATTATCTCCAGCGAACAGCACCCTTATATCCAAGCTAAAAAATTAATTGTTCCCTCATTTCCTGGAGATTTAGGTA
GGCTAACATCCTGGAGTTTAGAATTTCACCGTCAGGTATTTTTATCAAGAATAAAACAGGAGATATTTACAGAAAATAAA
ACCAGCTCATTCTATCCAGAAAGGATATATATAAGTAGAAATAATTCACGATATAGACGAGTTTTCAATGAAGAAGAAGT
ACTCTTAAAATTAAGTGAAATAGGTTTTGTTTGTATTCAGCCAGACTCAATGAATTTGAAAGAGCAGATAGCCATATTTT
CTCATGCCAAAGTGATTATTGGAGCTCATGGTAGTGGACTGACAAATATTATATTTTCTCCTAGAGGAACTAAAGTTATA
GAATTAGTATCACCTAACTATATTAGACATTATTATTGTGGGATTAGCCAAAAAATAGGACTGGAACATTACTATTTAAA
AGGAGAAGATTTTGGTTGTGCTCCCATCCGGAAATTAATGTATCAAAATCCTCTGACAGAAGATATTATCCTGAATCTTA
ATTCTTTAGAAAAAGCTCTAAAAGTTCTTGGCATTATTGAGAAGAAAAAAATACTAGAAACAGTTTTCAGTAGTGAGATA
AAAGCGTCTATTCAGAAAGAACAACAAGTAGGTATTAGGAAAAAAATATCTCAGGAAAAGAAGAAGCTACCGATGAAACA
GGTAGGTCAAAAAATATCATTAAAAGTTAACTCCCAAGAAATAGCTGGTCAGTTAAATAAACAAGCAGAATTATACTTAA
AGCAAAAAGAATTAGAATTAGCCAAAACTACCTGTACTCAAGCCTTAAAATCTCAACCAGATTATAGCCCAGCTTGTAAA
ACTTTAGGGAATGTTTTTTATGCTCAAGGTCAAATAGAAACCGCCTGGTATTGGTATACAAAAGCTATAGAATATCAGCC
AAATTTTGCAGAAGCTTATGCTAACTTAGGCACATTATCTGTAAAAAAAGAACAGTGGCAAGAAGCAATAAGTTATTATC
AAAAAGCTCTAAAAATTCAACCAAAATTTGCCGGAGTTTACCGAAACTTAGCCAGAATTTATCAAAAAATTGGCAGCTAT
ACTGAGGCGGAAAAATTTTCGATAAAGGCTGAATATTTAGAACCTGTTAATCAAAAAATAACTCCAGAAAATCAAGCCAT
AAAATTAACTTTATACTACAAAAAGTTAGGCAAAAGATTGCAATCTCAAGGGGAAGTAGAAGCAGCTTGGCAGTCCTATA
AAAAATTTCTTTCTTTAGAAAAAAATGACCCAGAAATTTATCTGAATATCGGTAGTTTATATGCTCAACAGGAACAATGG
ATAGAAGCAATTAAATGTTATCAAAAATCTTTGGTTATCCAGCCAAATTATGCTGATGCTTACCGTCAACTAGCTATAGC
TTGGAGAAAAGTTGGTAAGAAGACAAAAGGTGATAACTGTTTGTATCAAGCCTACAGTTTAGAGCCTGGAAAAGCTACAG
CAGAAGAACATTTAATATTAGGAAATAGTCTGCTGCAACAAAAGGTAATTTCTCAAGCAATATCGTGCTATTGTCGGGCG
ATAGAATTAAATCCTAATTTATTAGGAGCTTATGAAAGTTTAGGGGAAGCATTAAAACTGCAAGGAACAAAGAAACCTAC
TACAAAAGTGTTTCCTAATTATTGGCAAAATCTCGAAAATTCTCTCAATTTACTAATAGGAGAAAATCACCAAAATAGTC
AGGGAATAATTCAGCAGGTTCGGGCTGATGATACAATTCATATTATTCAGAAACCTGAAAATTTTCAAAGAGTTGTTAGT
AAAGGAGTTAGTAGAGTGATATCAACTTTTGATTTAAAAAGTGATTTATCGGACTCTGTTAATTATCTAGAATCATCTTT
ATCTGTGTTAGAAAATAGTCAGGATAAAAGGGTTACAAACTATAAGGAAATTACGAAAACTTTAGCTCCCAATAAACCTC
TAATCATCGAAGCAGATGTCACTAATGTTTATGGGAATATAGAGGGAGAAAAAACCGTTATGAATAGTCCAAAAAAAGCT
AATAATAATCAGATTATTCACTCCACTTTAAAACTGAAAGAAATTTCCAAAGTCAATGAGGTAAAACAAATAAATTCAAC
GTTTCTTTTAAAAGATATGACATCTAATGGTGTGAGAAATATTCCTAATGTTTATATTCAGGAAGCTCAAAAATATTATG
AGGAGGGATTTTATGAAAAAGCAATTTCTCAATGTCAGCAAGCGATTTCTCTTAAAATAGATGTAGCAGCAGCTTACATA
ATTATCGGAGATTCTCAGAAAAAAATTGGGGAAATAAAACAAGCTGAGAGCAGTTACAAAACAGCTCTGGAAATTCAGCA
AAGTTATGGTTTAATTTATATAGTATTAGGCAATTTATATGTTGAGTATAAAATTTTGAATTTGGTGATTTATTGTTATG
AAAAAGCGTTAGAAATAAAACTAAAGGTGGCTGAGAATTATTACAAATTAGCGATGGTTTTGACTGAGTTAGGTGAAACA
TTAGGAGTTCTAGATTTTTGGTACCAAGCTTACTCTTTAGAACCTAAAAAAGTAACTGCTAATGACCATTTTAATTTAGG
AAATAAATTGTATGAGAAAGGAAAAATTGCTCAGGCAGTATCTTGTTATCAAAATTCTATAGAGTTAAATCCTAATTTGG
GTACAGTTTACTATAATCTTAGTTTGGGATTAAAATGTCTCGGAAGATGGGATGAAGCAGTTATTTATTACCATAAAGCT
AAGGAAATTTGGGCAGATAAAAATCAAAATCAGAATACTTTAAAGGTTGATATGAATTCTGATATCTCAGCCAAGTTAGA
AGCTGAATACGAGAATGGTTATCAACTAAATTCAGCAAAAATTAAAGATAAAGTTGGGGAAAATAAAAATCAAAATCAGA
AGAGTTTAAAGGTTGATATGAATTCTGATATCTCAGCTAAGTTAGAAGCTGAATACGAGAATGGTGAGCAACTAAATTCA
GCAGAAATTAAAGATAAAGTTTGGGAAAATAAAAATCAAAATCAGAAGAGTTTAAAGGGTGATGTGAATTTTAATATCTC
AGCAAAATTAGAAGATAAATATCAGAATGGTCATCAACTAAGTGCAGCAGAAATTGAACGGAAAAGTGGTGAATTACTGC
AGTTGAATCAGATAGTGACAAATCAGATTAATTATTCTCAAAAAGCAGAAGTTAAAGAACTATTAAAACAAGCTAAGACT
TATTATTTAGAAGGATTGTTTTCTGAGGCGATCGCTATCTGCTATTCAGTAATTAAAGTTGAAAAAAACTCAGAAGCTTA
TCAGATAATGGGGAAAGCTTTTCAACAGAAAAATCAATTAGATAATGCTATTAATTGTTATGCTCAAGCACTGAAACTAA
ATCCTAACGACTCAGGTGCTAATTATGAGATGGGAAATATATTAGCTCTTTTACCAGGAAAATTAGAAGAGGCTATTTCT
TATTACCGTAAAGCTATTGAAATTGAGCCATACTTGACAGAGGCTTACTACTCTTTAGCTAATATTTTAGTCAACCAAAA
CCAATTAGAAAAAGTAGTAATTCTCTATGAAAAATTAATTGAAATTCAACCAAATCTCTGGGAACCTCATCATAACTTAG
GGGATATTTTAATTAAACAAGAAAAATTTTCCGAGGCCATTTCGGCTTATGGTCATGCCATAAAATTAAATCCCAACTCT
TCTGTGTCTTATGTTAAATTGGCTGACATCTTGGCCAAGGTAGGGGAACTTTCCCAAGCAATAAATGCTTACTACAAAGC
AATTGCAATAGACCCAGATTTTGTTGATGCTTATCAGTATTTGGGTGATGCTTTAAGAAACAAGGGGGAGAAAGAAGAGG
CTATAAAGGTTTACAGAAAGGCCATTGAAATTCGGCCTCAATTATGGGAAGTGCATCATAAATTAGGTAGTTTGTTCCAG
GAAACAGAGGAGTTAGAAACGGCTGCTAATGCTTATAGGAAATCTATTGAATTGAATCCTGATTTTTGTTGGTCTTATAA
TAATTTGGGGGATGTTTTAGTTAGGTTAGAGAAGTGGTCGGAGGCGACTGGTGTTTATAGTCGGGCTATTGAGTTAAATC
CTGATTTTTGTTGGTCTTATAATAATTTGGGGGATGTTTTAGTTAAGTTAGAGAAGTGGCCAGAAGCCAAGAGTGTTTAT
CATCAGGCTATTGAGTTGAATCCTGATTTTCCTTGGAATTATTATAAGTTGGCAGATGTGTTGGTGAAGTTGGAAGATTG
GGAAGGGGCGATCGCTGCTTACCAAAAAGCAATTAAATTAGATCCTGACAGGAAAGATATAAAACAGTATTTAGCAGATG
CGGAAAATCAGCTTCAGGAAAAAATAGCTAATGCTAAACAGCAGCAAGAAGCTAATAAGAAGTTAACAAAGGCGGGGCAG
TTTGGGAAAATATTAGCTACACAAAGTAAGTCAGATTTAGAAAAAATTGCTGTTAATAACACAATTAAAGTAGATGCAAA
TTTTGCAGAATATTACCATTTACAAGGTGATACTTTGGTAGAAAAAGGAGAGAAAGAAAAGGCAATAAAGGTTTATAGAA
AAGCCGTTGAAATGGAACCGGAATCATGGGAAGTACATCATAAATTAGGTAATTTATTGCAAGAAATAGGAAAGTTAGAA
GACGCAATTGCTGCTTATAATGAATCGATAGAATTAAAGCCCGATCTTTCTTGGTCTTATAATAATTTAGGGGATGTTTT
AGTCAGGTTAGGGAAGTTGAATGAAGCAATAAAATATTATCAAAAAGCCATCTATCTAGAACCAAATTTTGCTTGGTCTT
ATTATAACTTAGCAGAGCTTTGTTTCCTTTTAGAAAAATGGGATGAAGCAGTGAATGCTTATCGTCGATTCATGGAGATT
CAGCCTGATTTTTCTCCTGAAGTAGAGGAAAAATTAAATCAAGCATTGCATCAGCAGGTTCAAGGGAAATTAGAGCAAGC
ATTAAGTTATTATCGGCAAGGGATCAGGAACGATCCGACAGATGTGAAAAGTTATGAAAAGGCTTTAGAAATTAAGCCAG
ATGATGCTGAATTATATTTGGGATTAGGTCATGCTTGGATTGCAAAAGGTCAATCAGAAAAGGCAATCTTAGCATATCAA
AAAGCTATAGATAAAAATCCCGATATTTTCGTCTGGTCTCGCCACAACTTAAAAAAAACGATGCAGGTAGGAGGATTGGA
ACAAGCGTTCCATGCATTTCGTCAGGCAGCTAAATTAAACTCTCAATTTCAAACTCAGGAAGTAGAAAAAAACAAACAAG
ATTCACTACAGTTTGATACTCAAAACAACACCCAAACAAAAACGGTTTTTTCTACAACAAAAAAAAATCTTTTATCTAAT
CCACAATTCCTTAATTTAGAAGAACTTAACATTTGTGAGGGTAATATTGCTCCTAGAGACTGGGAATTAGTAATAAGACC
TGAGTGGAAAGTTGCAACTCAATTTGTTCGTAATAAAGAGATACCTGAAATAAACAAAGAACTGGTTGATAATGATAGTT
TTTTTTATATTAAAACTCAAGATGTTAAACAAACTAATCCCAGATCTTATTTACGTCAAATTGTTAGAGGTATTAAAATA
TTTGAAGATACCATTATTACAAGCTCTGTACAACTTTGTTTGCAAAATACTAATAGATCGGAAATAGTCATAGCTATTTT
TGCTGACGATAAATTGACTAATAAAATTTATCAACTCTCTACTAAAGTCCATAGTAATTTCGGCTGGTCAACCACAAATA
TATCAATTAACCTCAACAAAGTAGTCAAGAATTTACCTGAAGAAGTACATATAGGGTTTTATATTAACCTACCGACAACC
AGTGCTGGAAATTTGTGGTTAGCATTTTCTGAATTAATAGTTATAGATGCAAGTAGTGGCTTTAAACCAATTAATTTTTC
CTTTTTTCCTTTTGGTAATTACTCTAAAGCTAGCGCTAGACTTAGGACTTGGAAACTAGTAGATTGCCTTCGCAAAGCAG
GTCATCTAGTCACTATTGGTTATAGTGACAAGAGTGATGTTTATGTATTTCAGAAACTTCGGCTTTTCGATCAACTTAAT
GATCGATCAAAAATGCAACTTAGAGAACTCAAACATGAAAACAAAGTGGTTGTTTACGATTTTGATGATAATTATGTTTT
ACCTAATCAAGGAACACAAGAAGAGTTAGTAGCATTTATGAATTCAGTTGATGTAGTTACAGTTGGTAGTCAATTATTAG
CTGATTTTGCCAATAAATATCATCCTAATGTATTTGTTTTAGAGAACCCAGTCGATATCAACACAGATGATATAGTTAGA
GAACCAACTCCTGAGCTGAAAAATATTGCCTGGTTTGGCGCTCCTGAGGGGATTTTACAGATTAAAAATGTAAACATTGA
GGAAAAAATTACAACCATTACTAAAGGGGGGGATATTGAATTTGAGATCAATACTGTCGATCAGACTTTGACGGAGTTCG
ATCTTCTGATATTTCCTCTTGAACCTACAGAATGGAACCTAGCTAAAAATGCCAATCGCATGATTAAAGCTATTGCTTTA
GGTGTACCAGTATTAGCAACTGCAACACCAGAACATAGGAGAGTAGCTAGAGAATTTAATTTGGGTAACCATTTTTTAGT
GAACTACGATGGTAATTGGAATGAAAAGCTGACTTATCTGAAAACAAATTTTGCCCAGGTACAAGAAGAAATATTGGTTG
CACGTCAACGTGCATTAGAGATATATTCAACTCAAAAGATTACAAAAAACTGGTTTAATAATGTGCTTGGTAGTCGAAAA
CGCTGGATACCAACTCAAGTAAAAAGAAATTTTACTAAAACTTATCAAAAAAACTTTTTATCCCAAGTTGCAGTTTTGAT
TTATGACTACTCTGTGACAAAAACTTTTACTACTTGCATAGAGGAGTCAGAGGTCAACTGGTCAGATTTTGGTAGTCAAT
ATATTGTAGCTACTACTCCTTATGAGCAAGAACTAAAAATAGAAAAGCACGGATTTCAGTATTTATTCCCTGAAAATGAT
TACTTAGAAATTTTCAAATATTTTCAACAAATTATAATAGAAGCAAACCAAGATTGGATTTTATTAGTTTCTGGAAATTG
TATTTTAACTCAAGGTATCTATGAAGAGTTAGATCGACATTTAAGTAAATCAGATGCAGAACCCGTTTTACTACTAAAGG
TTCAATCTTATGGGTGCTTGCCAGATATTCAATCAAATTCAATATTTGATGGGATTAAATTCATGATCAATCCGAATACA
CCTGATGTTATGCTAATTAAGCGTAGTTGGGTAAAACCTTATATTCCTCTAATTCAAACACAACTTAACTATTGGGGTTG
GAACATTACACTTTTGGCATTAAATAATCAACAGAAAAATAACTGTTGTTATGTAAATATTCCTGTAGTATTGAGAGGAA
ACAGTGATATAGATAGTAATTTATCTAGGCAATATGTAAAATGGTTGGAAATATTTCCTCCTAAAATTCCGCCACAGATG
CCTGATATCACAAATCAGTGGAGGCGAATCAAGCATGATATTATTCAGGATATAGTTACCAATTTTCCTGATGTTTTACC
CATATCTTTCACATCTGCACTAGAAAAAATAGATATATTAAATGATGAACTTAACAGACTCAAAAAGAAATCAAGATGA

Upstream 100 bases:

>100_bases
GTAGACCATTCATCCATGGCTATTAAACACCAACTAAAGACAGTAGTTATGGTTCAGTTATGACTAAACATATTTAGAAA
ATAATGGAGAAAAATAATAC

Downstream 100 bases:

>100_bases
AAATTTTGTCTAATCCTGCTAACGGTGTGGAAAATTAGAGATTTTATAGTGGAATCACAGGGTTATCTACAACAAAAAAA
AATAAAAAGAATAAGAGAGA

Product: hypothetical protein

Products: NA

Alternate protein names: NA

Number of amino acids: Translated: 3172; Mature: 3172

Protein sequence:

>3172_residues
MQNTPVIQLIDEAKNIAIKGSLCQEKGQLEEAAFYYQQALNQNPNLQQVNYNLGIIHYQQGDLLGAYQSYKKAIALKPDD
INAYYNLGIVLQNQGLLISAIDSYQQAINLSKSEKSNSHETIVNCYSNWGCILLHQGQSDAAIAVFKEALLLKPDDFTIY
NNIGQALLQKSQLDQAITYLKKSLKLEPQFTISLYHLGQVYQSQGLHEKAVKYFQQIIELEPENLTAYSESFYSLMEQGK
LSEAMTNLQKAIQNNSFVEGYCKWSNLLAESTDELDKGKVAGANFLKALKNSNFPNSLSLKEISQYLIEIYLHLGNVSGE
SDQDEQAKIYYKKALELETVTAEEYVKLGKSLVKQNLINSAIIITNLGLETYPEHPEILENLQSLSKSKKAQKKPKFLSS
SCERLNSRPWWEQNFQEFNMLHLGSRIYSCSENQTTTNILSQNNSLKRAETETFVAQLLSGRAWVVPQKKYGMINNAIAI
INQDNQLVKELSWNEAGQLGCQNSDENKQEIFDLEELPELEKIDGKVAVLSGLYDHVYFHWMVDILPRLEILKLHGIDLK
EIDFFLVSNYQMPFQRESLNVLGIPQNKIISSEQHPYIQAKKLIVPSFPGDLGRLTSWSLEFHRQVFLSRIKQEIFTENK
TSSFYPERIYISRNNSRYRRVFNEEEVLLKLSEIGFVCIQPDSMNLKEQIAIFSHAKVIIGAHGSGLTNIIFSPRGTKVI
ELVSPNYIRHYYCGISQKIGLEHYYLKGEDFGCAPIRKLMYQNPLTEDIILNLNSLEKALKVLGIIEKKKILETVFSSEI
KASIQKEQQVGIRKKISQEKKKLPMKQVGQKISLKVNSQEIAGQLNKQAELYLKQKELELAKTTCTQALKSQPDYSPACK
TLGNVFYAQGQIETAWYWYTKAIEYQPNFAEAYANLGTLSVKKEQWQEAISYYQKALKIQPKFAGVYRNLARIYQKIGSY
TEAEKFSIKAEYLEPVNQKITPENQAIKLTLYYKKLGKRLQSQGEVEAAWQSYKKFLSLEKNDPEIYLNIGSLYAQQEQW
IEAIKCYQKSLVIQPNYADAYRQLAIAWRKVGKKTKGDNCLYQAYSLEPGKATAEEHLILGNSLLQQKVISQAISCYCRA
IELNPNLLGAYESLGEALKLQGTKKPTTKVFPNYWQNLENSLNLLIGENHQNSQGIIQQVRADDTIHIIQKPENFQRVVS
KGVSRVISTFDLKSDLSDSVNYLESSLSVLENSQDKRVTNYKEITKTLAPNKPLIIEADVTNVYGNIEGEKTVMNSPKKA
NNNQIIHSTLKLKEISKVNEVKQINSTFLLKDMTSNGVRNIPNVYIQEAQKYYEEGFYEKAISQCQQAISLKIDVAAAYI
IIGDSQKKIGEIKQAESSYKTALEIQQSYGLIYIVLGNLYVEYKILNLVIYCYEKALEIKLKVAENYYKLAMVLTELGET
LGVLDFWYQAYSLEPKKVTANDHFNLGNKLYEKGKIAQAVSCYQNSIELNPNLGTVYYNLSLGLKCLGRWDEAVIYYHKA
KEIWADKNQNQNTLKVDMNSDISAKLEAEYENGYQLNSAKIKDKVGENKNQNQKSLKVDMNSDISAKLEAEYENGEQLNS
AEIKDKVWENKNQNQKSLKGDVNFNISAKLEDKYQNGHQLSAAEIERKSGELLQLNQIVTNQINYSQKAEVKELLKQAKT
YYLEGLFSEAIAICYSVIKVEKNSEAYQIMGKAFQQKNQLDNAINCYAQALKLNPNDSGANYEMGNILALLPGKLEEAIS
YYRKAIEIEPYLTEAYYSLANILVNQNQLEKVVILYEKLIEIQPNLWEPHHNLGDILIKQEKFSEAISAYGHAIKLNPNS
SVSYVKLADILAKVGELSQAINAYYKAIAIDPDFVDAYQYLGDALRNKGEKEEAIKVYRKAIEIRPQLWEVHHKLGSLFQ
ETEELETAANAYRKSIELNPDFCWSYNNLGDVLVRLEKWSEATGVYSRAIELNPDFCWSYNNLGDVLVKLEKWPEAKSVY
HQAIELNPDFPWNYYKLADVLVKLEDWEGAIAAYQKAIKLDPDRKDIKQYLADAENQLQEKIANAKQQQEANKKLTKAGQ
FGKILATQSKSDLEKIAVNNTIKVDANFAEYYHLQGDTLVEKGEKEKAIKVYRKAVEMEPESWEVHHKLGNLLQEIGKLE
DAIAAYNESIELKPDLSWSYNNLGDVLVRLGKLNEAIKYYQKAIYLEPNFAWSYYNLAELCFLLEKWDEAVNAYRRFMEI
QPDFSPEVEEKLNQALHQQVQGKLEQALSYYRQGIRNDPTDVKSYEKALEIKPDDAELYLGLGHAWIAKGQSEKAILAYQ
KAIDKNPDIFVWSRHNLKKTMQVGGLEQAFHAFRQAAKLNSQFQTQEVEKNKQDSLQFDTQNNTQTKTVFSTTKKNLLSN
PQFLNLEELNICEGNIAPRDWELVIRPEWKVATQFVRNKEIPEINKELVDNDSFFYIKTQDVKQTNPRSYLRQIVRGIKI
FEDTIITSSVQLCLQNTNRSEIVIAIFADDKLTNKIYQLSTKVHSNFGWSTTNISINLNKVVKNLPEEVHIGFYINLPTT
SAGNLWLAFSELIVIDASSGFKPINFSFFPFGNYSKASARLRTWKLVDCLRKAGHLVTIGYSDKSDVYVFQKLRLFDQLN
DRSKMQLRELKHENKVVVYDFDDNYVLPNQGTQEELVAFMNSVDVVTVGSQLLADFANKYHPNVFVLENPVDINTDDIVR
EPTPELKNIAWFGAPEGILQIKNVNIEEKITTITKGGDIEFEINTVDQTLTEFDLLIFPLEPTEWNLAKNANRMIKAIAL
GVPVLATATPEHRRVAREFNLGNHFLVNYDGNWNEKLTYLKTNFAQVQEEILVARQRALEIYSTQKITKNWFNNVLGSRK
RWIPTQVKRNFTKTYQKNFLSQVAVLIYDYSVTKTFTTCIEESEVNWSDFGSQYIVATTPYEQELKIEKHGFQYLFPEND
YLEIFKYFQQIIIEANQDWILLVSGNCILTQGIYEELDRHLSKSDAEPVLLLKVQSYGCLPDIQSNSIFDGIKFMINPNT
PDVMLIKRSWVKPYIPLIQTQLNYWGWNITLLALNNQQKNNCCYVNIPVVLRGNSDIDSNLSRQYVKWLEIFPPKIPPQM
PDITNQWRRIKHDIIQDIVTNFPDVLPISFTSALEKIDILNDELNRLKKKSR

Sequences:

>Translated_3172_residues
MQNTPVIQLIDEAKNIAIKGSLCQEKGQLEEAAFYYQQALNQNPNLQQVNYNLGIIHYQQGDLLGAYQSYKKAIALKPDD
INAYYNLGIVLQNQGLLISAIDSYQQAINLSKSEKSNSHETIVNCYSNWGCILLHQGQSDAAIAVFKEALLLKPDDFTIY
NNIGQALLQKSQLDQAITYLKKSLKLEPQFTISLYHLGQVYQSQGLHEKAVKYFQQIIELEPENLTAYSESFYSLMEQGK
LSEAMTNLQKAIQNNSFVEGYCKWSNLLAESTDELDKGKVAGANFLKALKNSNFPNSLSLKEISQYLIEIYLHLGNVSGE
SDQDEQAKIYYKKALELETVTAEEYVKLGKSLVKQNLINSAIIITNLGLETYPEHPEILENLQSLSKSKKAQKKPKFLSS
SCERLNSRPWWEQNFQEFNMLHLGSRIYSCSENQTTTNILSQNNSLKRAETETFVAQLLSGRAWVVPQKKYGMINNAIAI
INQDNQLVKELSWNEAGQLGCQNSDENKQEIFDLEELPELEKIDGKVAVLSGLYDHVYFHWMVDILPRLEILKLHGIDLK
EIDFFLVSNYQMPFQRESLNVLGIPQNKIISSEQHPYIQAKKLIVPSFPGDLGRLTSWSLEFHRQVFLSRIKQEIFTENK
TSSFYPERIYISRNNSRYRRVFNEEEVLLKLSEIGFVCIQPDSMNLKEQIAIFSHAKVIIGAHGSGLTNIIFSPRGTKVI
ELVSPNYIRHYYCGISQKIGLEHYYLKGEDFGCAPIRKLMYQNPLTEDIILNLNSLEKALKVLGIIEKKKILETVFSSEI
KASIQKEQQVGIRKKISQEKKKLPMKQVGQKISLKVNSQEIAGQLNKQAELYLKQKELELAKTTCTQALKSQPDYSPACK
TLGNVFYAQGQIETAWYWYTKAIEYQPNFAEAYANLGTLSVKKEQWQEAISYYQKALKIQPKFAGVYRNLARIYQKIGSY
TEAEKFSIKAEYLEPVNQKITPENQAIKLTLYYKKLGKRLQSQGEVEAAWQSYKKFLSLEKNDPEIYLNIGSLYAQQEQW
IEAIKCYQKSLVIQPNYADAYRQLAIAWRKVGKKTKGDNCLYQAYSLEPGKATAEEHLILGNSLLQQKVISQAISCYCRA
IELNPNLLGAYESLGEALKLQGTKKPTTKVFPNYWQNLENSLNLLIGENHQNSQGIIQQVRADDTIHIIQKPENFQRVVS
KGVSRVISTFDLKSDLSDSVNYLESSLSVLENSQDKRVTNYKEITKTLAPNKPLIIEADVTNVYGNIEGEKTVMNSPKKA
NNNQIIHSTLKLKEISKVNEVKQINSTFLLKDMTSNGVRNIPNVYIQEAQKYYEEGFYEKAISQCQQAISLKIDVAAAYI
IIGDSQKKIGEIKQAESSYKTALEIQQSYGLIYIVLGNLYVEYKILNLVIYCYEKALEIKLKVAENYYKLAMVLTELGET
LGVLDFWYQAYSLEPKKVTANDHFNLGNKLYEKGKIAQAVSCYQNSIELNPNLGTVYYNLSLGLKCLGRWDEAVIYYHKA
KEIWADKNQNQNTLKVDMNSDISAKLEAEYENGYQLNSAKIKDKVGENKNQNQKSLKVDMNSDISAKLEAEYENGEQLNS
AEIKDKVWENKNQNQKSLKGDVNFNISAKLEDKYQNGHQLSAAEIERKSGELLQLNQIVTNQINYSQKAEVKELLKQAKT
YYLEGLFSEAIAICYSVIKVEKNSEAYQIMGKAFQQKNQLDNAINCYAQALKLNPNDSGANYEMGNILALLPGKLEEAIS
YYRKAIEIEPYLTEAYYSLANILVNQNQLEKVVILYEKLIEIQPNLWEPHHNLGDILIKQEKFSEAISAYGHAIKLNPNS
SVSYVKLADILAKVGELSQAINAYYKAIAIDPDFVDAYQYLGDALRNKGEKEEAIKVYRKAIEIRPQLWEVHHKLGSLFQ
ETEELETAANAYRKSIELNPDFCWSYNNLGDVLVRLEKWSEATGVYSRAIELNPDFCWSYNNLGDVLVKLEKWPEAKSVY
HQAIELNPDFPWNYYKLADVLVKLEDWEGAIAAYQKAIKLDPDRKDIKQYLADAENQLQEKIANAKQQQEANKKLTKAGQ
FGKILATQSKSDLEKIAVNNTIKVDANFAEYYHLQGDTLVEKGEKEKAIKVYRKAVEMEPESWEVHHKLGNLLQEIGKLE
DAIAAYNESIELKPDLSWSYNNLGDVLVRLGKLNEAIKYYQKAIYLEPNFAWSYYNLAELCFLLEKWDEAVNAYRRFMEI
QPDFSPEVEEKLNQALHQQVQGKLEQALSYYRQGIRNDPTDVKSYEKALEIKPDDAELYLGLGHAWIAKGQSEKAILAYQ
KAIDKNPDIFVWSRHNLKKTMQVGGLEQAFHAFRQAAKLNSQFQTQEVEKNKQDSLQFDTQNNTQTKTVFSTTKKNLLSN
PQFLNLEELNICEGNIAPRDWELVIRPEWKVATQFVRNKEIPEINKELVDNDSFFYIKTQDVKQTNPRSYLRQIVRGIKI
FEDTIITSSVQLCLQNTNRSEIVIAIFADDKLTNKIYQLSTKVHSNFGWSTTNISINLNKVVKNLPEEVHIGFYINLPTT
SAGNLWLAFSELIVIDASSGFKPINFSFFPFGNYSKASARLRTWKLVDCLRKAGHLVTIGYSDKSDVYVFQKLRLFDQLN
DRSKMQLRELKHENKVVVYDFDDNYVLPNQGTQEELVAFMNSVDVVTVGSQLLADFANKYHPNVFVLENPVDINTDDIVR
EPTPELKNIAWFGAPEGILQIKNVNIEEKITTITKGGDIEFEINTVDQTLTEFDLLIFPLEPTEWNLAKNANRMIKAIAL
GVPVLATATPEHRRVAREFNLGNHFLVNYDGNWNEKLTYLKTNFAQVQEEILVARQRALEIYSTQKITKNWFNNVLGSRK
RWIPTQVKRNFTKTYQKNFLSQVAVLIYDYSVTKTFTTCIEESEVNWSDFGSQYIVATTPYEQELKIEKHGFQYLFPEND
YLEIFKYFQQIIIEANQDWILLVSGNCILTQGIYEELDRHLSKSDAEPVLLLKVQSYGCLPDIQSNSIFDGIKFMINPNT
PDVMLIKRSWVKPYIPLIQTQLNYWGWNITLLALNNQQKNNCCYVNIPVVLRGNSDIDSNLSRQYVKWLEIFPPKIPPQM
PDITNQWRRIKHDIIQDIVTNFPDVLPISFTSALEKIDILNDELNRLKKKSR
>Mature_3172_residues
MQNTPVIQLIDEAKNIAIKGSLCQEKGQLEEAAFYYQQALNQNPNLQQVNYNLGIIHYQQGDLLGAYQSYKKAIALKPDD
INAYYNLGIVLQNQGLLISAIDSYQQAINLSKSEKSNSHETIVNCYSNWGCILLHQGQSDAAIAVFKEALLLKPDDFTIY
NNIGQALLQKSQLDQAITYLKKSLKLEPQFTISLYHLGQVYQSQGLHEKAVKYFQQIIELEPENLTAYSESFYSLMEQGK
LSEAMTNLQKAIQNNSFVEGYCKWSNLLAESTDELDKGKVAGANFLKALKNSNFPNSLSLKEISQYLIEIYLHLGNVSGE
SDQDEQAKIYYKKALELETVTAEEYVKLGKSLVKQNLINSAIIITNLGLETYPEHPEILENLQSLSKSKKAQKKPKFLSS
SCERLNSRPWWEQNFQEFNMLHLGSRIYSCSENQTTTNILSQNNSLKRAETETFVAQLLSGRAWVVPQKKYGMINNAIAI
INQDNQLVKELSWNEAGQLGCQNSDENKQEIFDLEELPELEKIDGKVAVLSGLYDHVYFHWMVDILPRLEILKLHGIDLK
EIDFFLVSNYQMPFQRESLNVLGIPQNKIISSEQHPYIQAKKLIVPSFPGDLGRLTSWSLEFHRQVFLSRIKQEIFTENK
TSSFYPERIYISRNNSRYRRVFNEEEVLLKLSEIGFVCIQPDSMNLKEQIAIFSHAKVIIGAHGSGLTNIIFSPRGTKVI
ELVSPNYIRHYYCGISQKIGLEHYYLKGEDFGCAPIRKLMYQNPLTEDIILNLNSLEKALKVLGIIEKKKILETVFSSEI
KASIQKEQQVGIRKKISQEKKKLPMKQVGQKISLKVNSQEIAGQLNKQAELYLKQKELELAKTTCTQALKSQPDYSPACK
TLGNVFYAQGQIETAWYWYTKAIEYQPNFAEAYANLGTLSVKKEQWQEAISYYQKALKIQPKFAGVYRNLARIYQKIGSY
TEAEKFSIKAEYLEPVNQKITPENQAIKLTLYYKKLGKRLQSQGEVEAAWQSYKKFLSLEKNDPEIYLNIGSLYAQQEQW
IEAIKCYQKSLVIQPNYADAYRQLAIAWRKVGKKTKGDNCLYQAYSLEPGKATAEEHLILGNSLLQQKVISQAISCYCRA
IELNPNLLGAYESLGEALKLQGTKKPTTKVFPNYWQNLENSLNLLIGENHQNSQGIIQQVRADDTIHIIQKPENFQRVVS
KGVSRVISTFDLKSDLSDSVNYLESSLSVLENSQDKRVTNYKEITKTLAPNKPLIIEADVTNVYGNIEGEKTVMNSPKKA
NNNQIIHSTLKLKEISKVNEVKQINSTFLLKDMTSNGVRNIPNVYIQEAQKYYEEGFYEKAISQCQQAISLKIDVAAAYI
IIGDSQKKIGEIKQAESSYKTALEIQQSYGLIYIVLGNLYVEYKILNLVIYCYEKALEIKLKVAENYYKLAMVLTELGET
LGVLDFWYQAYSLEPKKVTANDHFNLGNKLYEKGKIAQAVSCYQNSIELNPNLGTVYYNLSLGLKCLGRWDEAVIYYHKA
KEIWADKNQNQNTLKVDMNSDISAKLEAEYENGYQLNSAKIKDKVGENKNQNQKSLKVDMNSDISAKLEAEYENGEQLNS
AEIKDKVWENKNQNQKSLKGDVNFNISAKLEDKYQNGHQLSAAEIERKSGELLQLNQIVTNQINYSQKAEVKELLKQAKT
YYLEGLFSEAIAICYSVIKVEKNSEAYQIMGKAFQQKNQLDNAINCYAQALKLNPNDSGANYEMGNILALLPGKLEEAIS
YYRKAIEIEPYLTEAYYSLANILVNQNQLEKVVILYEKLIEIQPNLWEPHHNLGDILIKQEKFSEAISAYGHAIKLNPNS
SVSYVKLADILAKVGELSQAINAYYKAIAIDPDFVDAYQYLGDALRNKGEKEEAIKVYRKAIEIRPQLWEVHHKLGSLFQ
ETEELETAANAYRKSIELNPDFCWSYNNLGDVLVRLEKWSEATGVYSRAIELNPDFCWSYNNLGDVLVKLEKWPEAKSVY
HQAIELNPDFPWNYYKLADVLVKLEDWEGAIAAYQKAIKLDPDRKDIKQYLADAENQLQEKIANAKQQQEANKKLTKAGQ
FGKILATQSKSDLEKIAVNNTIKVDANFAEYYHLQGDTLVEKGEKEKAIKVYRKAVEMEPESWEVHHKLGNLLQEIGKLE
DAIAAYNESIELKPDLSWSYNNLGDVLVRLGKLNEAIKYYQKAIYLEPNFAWSYYNLAELCFLLEKWDEAVNAYRRFMEI
QPDFSPEVEEKLNQALHQQVQGKLEQALSYYRQGIRNDPTDVKSYEKALEIKPDDAELYLGLGHAWIAKGQSEKAILAYQ
KAIDKNPDIFVWSRHNLKKTMQVGGLEQAFHAFRQAAKLNSQFQTQEVEKNKQDSLQFDTQNNTQTKTVFSTTKKNLLSN
PQFLNLEELNICEGNIAPRDWELVIRPEWKVATQFVRNKEIPEINKELVDNDSFFYIKTQDVKQTNPRSYLRQIVRGIKI
FEDTIITSSVQLCLQNTNRSEIVIAIFADDKLTNKIYQLSTKVHSNFGWSTTNISINLNKVVKNLPEEVHIGFYINLPTT
SAGNLWLAFSELIVIDASSGFKPINFSFFPFGNYSKASARLRTWKLVDCLRKAGHLVTIGYSDKSDVYVFQKLRLFDQLN
DRSKMQLRELKHENKVVVYDFDDNYVLPNQGTQEELVAFMNSVDVVTVGSQLLADFANKYHPNVFVLENPVDINTDDIVR
EPTPELKNIAWFGAPEGILQIKNVNIEEKITTITKGGDIEFEINTVDQTLTEFDLLIFPLEPTEWNLAKNANRMIKAIAL
GVPVLATATPEHRRVAREFNLGNHFLVNYDGNWNEKLTYLKTNFAQVQEEILVARQRALEIYSTQKITKNWFNNVLGSRK
RWIPTQVKRNFTKTYQKNFLSQVAVLIYDYSVTKTFTTCIEESEVNWSDFGSQYIVATTPYEQELKIEKHGFQYLFPEND
YLEIFKYFQQIIIEANQDWILLVSGNCILTQGIYEELDRHLSKSDAEPVLLLKVQSYGCLPDIQSNSIFDGIKFMINPNT
PDVMLIKRSWVKPYIPLIQTQLNYWGWNITLLALNNQQKNNCCYVNIPVVLRGNSDIDSNLSRQYVKWLEIFPPKIPPQM
PDITNQWRRIKHDIIQDIVTNFPDVLPISFTSALEKIDILNDELNRLKKKSR

Specific function: Unknown

COG id: COG0457

COG function: function code R; FOG: TPR repeat

Gene ontology:

Cell location: Cytoplasmic

Metaboloic importance: NA

Operon status: Not Known

Operon components: None

Similarity: Contains 9 TPR repeats [H]

Homologues:

Organism=Homo sapiens, GI32307148, Length=374, Percent_Identity=31.5508021390374, Blast_Score=187, Evalue=1e-46,
Organism=Homo sapiens, GI32307150, Length=348, Percent_Identity=32.4712643678161, Blast_Score=187, Evalue=1e-46,
Organism=Homo sapiens, GI83415184, Length=437, Percent_Identity=26.0869565217391, Blast_Score=116, Evalue=3e-25,
Organism=Homo sapiens, GI301336134, Length=437, Percent_Identity=26.0869565217391, Blast_Score=116, Evalue=4e-25,
Organism=Homo sapiens, GI118766330, Length=255, Percent_Identity=27.4509803921569, Blast_Score=99, Evalue=6e-20,
Organism=Homo sapiens, GI118766328, Length=255, Percent_Identity=27.4509803921569, Blast_Score=99, Evalue=6e-20,
Organism=Homo sapiens, GI22749211, Length=238, Percent_Identity=26.890756302521, Blast_Score=91, Evalue=2e-17,
Organism=Homo sapiens, GI25952122, Length=292, Percent_Identity=26.027397260274, Blast_Score=80, Evalue=3e-14,
Organism=Homo sapiens, GI224809432, Length=389, Percent_Identity=23.3933161953728, Blast_Score=76, Evalue=5e-13,
Organism=Caenorhabditis elegans, GI115532690, Length=342, Percent_Identity=32.4561403508772, Blast_Score=187, Evalue=9e-47,
Organism=Caenorhabditis elegans, GI115532692, Length=342, Percent_Identity=32.4561403508772, Blast_Score=186, Evalue=1e-46,
Organism=Caenorhabditis elegans, GI25147174, Length=261, Percent_Identity=26.0536398467433, Blast_Score=83, Evalue=3e-15,
Organism=Caenorhabditis elegans, GI193210476, Length=247, Percent_Identity=25.1012145748988, Blast_Score=72, Evalue=4e-12,
Organism=Caenorhabditis elegans, GI17563052, Length=243, Percent_Identity=21.3991769547325, Blast_Score=72, Evalue=7e-12,
Organism=Saccharomyces cerevisiae, GI6319387, Length=239, Percent_Identity=22.5941422594142, Blast_Score=84, Evalue=5e-16,
Organism=Saccharomyces cerevisiae, GI6319589, Length=302, Percent_Identity=22.5165562913907, Blast_Score=75, Evalue=2e-13,
Organism=Drosophila melanogaster, GI17647755, Length=342, Percent_Identity=32.1637426900585, Blast_Score=182, Evalue=4e-45,
Organism=Drosophila melanogaster, GI24585827, Length=342, Percent_Identity=32.1637426900585, Blast_Score=182, Evalue=4e-45,
Organism=Drosophila melanogaster, GI24585829, Length=342, Percent_Identity=32.1637426900585, Blast_Score=182, Evalue=4e-45,
Organism=Drosophila melanogaster, GI161076610, Length=373, Percent_Identity=24.9329758713137, Blast_Score=116, Evalue=2e-25,
Organism=Drosophila melanogaster, GI19920486, Length=373, Percent_Identity=24.9329758713137, Blast_Score=116, Evalue=2e-25,
Organism=Drosophila melanogaster, GI24647123, Length=293, Percent_Identity=26.962457337884, Blast_Score=100, Evalue=1e-20,
Organism=Drosophila melanogaster, GI24581187, Length=385, Percent_Identity=24.6753246753247, Blast_Score=96, Evalue=6e-19,
Organism=Drosophila melanogaster, GI281364285, Length=385, Percent_Identity=24.6753246753247, Blast_Score=96, Evalue=6e-19,
Organism=Drosophila melanogaster, GI24656717, Length=395, Percent_Identity=23.2911392405063, Blast_Score=75, Evalue=6e-13,
Organism=Drosophila melanogaster, GI18110006, Length=395, Percent_Identity=23.2911392405063, Blast_Score=75, Evalue=6e-13,
Organism=Drosophila melanogaster, GI24583797, Length=504, Percent_Identity=22.4206349206349, Blast_Score=75, Evalue=9e-13,
Organism=Drosophila melanogaster, GI24583795, Length=504, Percent_Identity=22.4206349206349, Blast_Score=75, Evalue=9e-13,
Organism=Drosophila melanogaster, GI24583793, Length=504, Percent_Identity=22.4206349206349, Blast_Score=75, Evalue=9e-13,
Organism=Drosophila melanogaster, GI17137540, Length=451, Percent_Identity=22.6164079822616, Blast_Score=72, Evalue=1e-11,

Paralogues:

None

Copy number: NA

Swissprot (AC and ID): NA

Other databases:

- InterPro:   IPR008940
- InterPro:   IPR001440
- InterPro:   IPR013026
- InterPro:   IPR011990
- InterPro:   IPR019734 [H]

Pfam domain/function: PF00515 TPR_1 [H]

EC number: NA

Molecular weight: Translated: 363590; Mature: 363590

Theoretical pI: Translated: 6.68; Mature: 6.68

Prosite motif: PS50005 TPR ; PS50293 TPR_REGION

Important sites: NA

Signals:

None

Transmembrane regions:

None

Cys/Met content:

1.0 %Cys     (Translated Protein)
0.8 %Met     (Translated Protein)
1.9 %Cys+Met (Translated Protein)
1.0 %Cys     (Mature Protein)
0.8 %Met     (Mature Protein)
1.9 %Cys+Met (Mature Protein)

Secondary structure:

>Translated Secondary Structure
MQNTPVIQLIDEAKNIAIKGSLCQEKGQLEEAAFYYQQALNQNPNLQQVNYNLGIIHYQQ
CCCCCHHHEEHHCCCEEEECHHHHHCCCHHHHHHHHHHHHCCCCCCEEEEEEEEEEEEEC
GDLLGAYQSYKKAIALKPDDINAYYNLGIVLQNQGLLISAIDSYQQAINLSKSEKSNSHE
CCHHHHHHHHHHEEECCCCCCCEEEEEEEEEECCCEEEEHHHHHHHHHCCCCCCCCCCHH
TIVNCYSNWGCILLHQGQSDAAIAVFKEALLLKPDDFTIYNNIGQALLQKSQLDQAITYL
HHHHHHCCCCEEEEECCCCCHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHHHHH
KKSLKLEPQFTISLYHLGQVYQSQGLHEKAVKYFQQIIELEPENLTAYSESFYSLMEQGK
HHHCCCCCCEEEEHHHHHHHHHHCCCHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHCCC
LSEAMTNLQKAIQNNSFVEGYCKWSNLLAESTDELDKGKVAGANFLKALKNSNFPNSLSL
HHHHHHHHHHHHCCCCCEEHHHHHHHHHHHCCCHHCCCCCCHHHHHHHHHCCCCCCCCCH
KEISQYLIEIYLHLGNVSGESDQDEQAKIYYKKALELETVTAEEYVKLGKSLVKQNLINS
HHHHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHHHHEECCHHHHHHHHHHHHHHHHHCC
AIIITNLGLETYPEHPEILENLQSLSKSKKAQKKPKFLSSSCERLNSRPWWEQNFQEFNM
EEEEEECCCCCCCCCHHHHHHHHHHHHHHHHHCCCHHHHHHHHHCCCCCCHHHHHHHHHH
LHLGSRIYSCSENQTTTNILSQNNSLKRAETETFVAQLLSGRAWVVPQKKYGMINNAIAI
HHHCCHHEECCCCCCHHHHHHCCCCCCHHHHHHHHHHHHCCCEEEECCHHCCCCCCEEEE
INQDNQLVKELSWNEAGQLGCQNSDENKQEIFDLEELPELEKIDGKVAVLSGLYDHVYFH
EECCHHHHHHCCCCCCCCCCCCCCCCCHHHHHCHHHCCCHHHCCCCHHHHHHHHHHHHHH
WMVDILPRLEILKLHGIDLKEIDFFLVSNYQMPFQRESLNVLGIPQNKIISSEQHPYIQA
HHHHHHCCHHEEHCCCCCHHHEEEEEEECCCCCCCCCCCCEEECCCHHCCCCCCCCCEEE
KKLIVPSFPGDLGRLTSWSLEFHRQVFLSRIKQEIFTENKTSSFYPERIYISRNNSRYRR
EEEECCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCEEEEECCCCHHHH
VFNEEEVLLKLSEIGFVCIQPDSMNLKEQIAIFSHAKVIIGAHGSGLTNIIFSPRGTKVI
HCCCHHHHEEHHHCCEEEECCCCCCHHHHHHHHCCCEEEEECCCCCCEEEEECCCCCEEE
ELVSPNYIRHYYCGISQKIGLEHYYLKGEDFGCAPIRKLMYQNPLTEDIILNLNSLEKAL
EECCCCHHHHHHCCCCHHCCCEEEEECCCCCCHHHHHHHHHCCCCCHHHHEEHHHHHHHH
KVLGIIEKKKILETVFSSEIKASIQKEQQVGIRKKISQEKKKLPMKQVGQKISLKVNSQE
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHCCCEEEEEECHHH
IAGQLNKQAELYLKQKELELAKTTCTQALKSQPDYSPACKTLGNVFYAQGQIETAWYWYT
HHHHHCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHEEECCCEEEEEEEEE
KAIEYQPNFAEAYANLGTLSVKKEQWQEAISYYQKALKIQPKFAGVYRNLARIYQKIGSY
EEEECCCCHHHHHHCCCCEEECHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHCCC
TEAEKFSIKAEYLEPVNQKITPENQAIKLTLYYKKLGKRLQSQGEVEAAWQSYKKFLSLE
CCCHHHEEEHHHHCCCCCCCCCCCCEEEEEEHHHHHHHHHHCCCCHHHHHHHHHHHHCCC
KNDPEIYLNIGSLYAQQEQWIEAIKCYQKSLVIQPNYADAYRQLAIAWRKVGKKTKGDNC
CCCCEEEEEHHHHHHHHHHHHHHHHHHHHHEEECCCHHHHHHHHHHHHHHHCCCCCCCCE
LYQAYSLEPGKATAEEHLILGNSLLQQKVISQAISCYCRAIELNPNLLGAYESLGEALKL
EEEEEECCCCCCCCHHHEEHHHHHHHHHHHHHHHHHHEEEEECCCCHHHHHHHHHHHHCC
QGTKKPTTKVFPNYWQNLENSLNLLIGENHQNSQGIIQQVRADDTIHIIQKPENFQRVVS
CCCCCCCHHCCHHHHHHHHCCCEEEEECCCCCCHHHHHHHCCCCEEEEEECCHHHHHHHH
KGVSRVISTFDLKSDLSDSVNYLESSLSVLENSQDKRVTNYKEITKTLAPNKPLIIEADV
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHCCCCCEEEEEEC
TNVYGNIEGEKTVMNSPKKANNNQIIHSTLKLKEISKVNEVKQINSTFLLKDMTSNGVRN
CEEECCCCCCHHHCCCCCCCCCCCEEHHHHHHHHHHHHHHHHHHCCCEEEEEHHCCCCCC
IPNVYIQEAQKYYEEGFYEKAISQCQQAISLKIDVAAAYIIIGDSQKKIGEIKQAESSYK
CCHHHHHHHHHHHHHHHHHHHHHHHHHHHCEEEEEEEEEEEECCCHHHHHHHHHHHHHHH
TALEIQQSYGLIYIVLGNLYVEYKILNLVIYCYEKALEIKLKVAENYYKLAMVLTELGET
HHHHHHHHCCEEEEEECCHHHHHHHHHHHHHHHHHHHEEEEEEHHHHHHHHHHHHHHHHH
LGVLDFWYQAYSLEPKKVTANDHFNLGNKLYEKGKIAQAVSCYQNSIELNPNLGTVYYNL
HHHHHHHHHHHCCCCCEEECCCCCCCCHHHHHHCHHHHHHHHHHCCEEECCCCEEEEEEE
SLGLKCLGRWDEAVIYYHKAKEIWADKNQNQNTLKVDMNSDISAKLEAEYENGYQLNSAK
EECHHHHCCCCCEEEEEEHHHHHHCCCCCCCCEEEEECCCCCCEEEEECCCCCEEECCHH
IKDKVGENKNQNQKSLKVDMNSDISAKLEAEYENGEQLNSAEIKDKVWENKNQNQKSLKG
HHHHHCCCCCCCCCEEEEECCCCCCEEEEECCCCCCCCCHHHHHHHHHCCCCCCHHHCCC
DVNFNISAKLEDKYQNGHQLSAAEIERKSGELLQLNQIVTNQINYSQKAEVKELLKQAKT
CCCEEEEEEEHHCCCCCCCCCHHHHHHCCCCEEEHHHHHHHHCCCCHHHHHHHHHHHHHH
YYLEGLFSEAIAICYSVIKVEKNSEAYQIMGKAFQQKNQLDNAINCYAQALKLNPNDSGA
HHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCC
NYEMGNILALLPGKLEEAISYYRKAIEIEPYLTEAYYSLANILVNQNQLEKVVILYEKLI
CEECCCEEEECCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCHHHHHHHHHHHHHHH
EIQPNLWEPHHNLGDILIKQEKFSEAISAYGHAIKLNPNSSVSYVKLADILAKVGELSQA
HCCCCCCCCCCCHHHHEEEHHHHHHHHHHCCCEEEECCCCCCHHHHHHHHHHHHHHHHHH
INAYYKAIAIDPDFVDAYQYLGDALRNKGEKEEAIKVYRKAIEIRPQLWEVHHKLGSLFQ
HHHHHHHEECCCHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHCCHHHHHHHHHHHHHHH
ETEELETAANAYRKSIELNPDFCWSYNNLGDVLVRLEKWSEATGVYSRAIELNPDFCWSY
HHHHHHHHHHHHHHCCCCCCCEEECCCCHHHHHHHHHHHHHHHHHHHEEEECCCCEEECC
NNLGDVLVKLEKWPEAKSVYHQAIELNPDFPWNYYKLADVLVKLEDWEGAIAAYQKAIKL
CCHHHHHHHHHCCCCHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHCCCHHHHHHHHHHCC
DPDRKDIKQYLADAENQLQEKIANAKQQQEANKKLTKAGQFGKILATQSKSDLEKIAVNN
CCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCHHEECCCHHHHHHHHCCC
TIKVDANFAEYYHLQGDTLVEKGEKEKAIKVYRKAVEMEPESWEVHHKLGNLLQEIGKLE
EEEEECCHHHEEEECCCHHHHCCCHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHH
DAIAAYNESIELKPDLSWSYNNLGDVLVRLGKLNEAIKYYQKAIYLEPNFAWSYYNLAEL
HHHHHHCCCEEECCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHEEECCCCCCCHHHHHHH
CFLLEKWDEAVNAYRRFMEIQPDFSPEVEEKLNQALHQQVQGKLEQALSYYRQGIRNDPT
HHHHHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCC
DVKSYEKALEIKPDDAELYLGLGHAWIAKGQSEKAILAYQKAIDKNPDIFVWSRHNLKKT
HHHHHHHHHCCCCCCCEEEEECCHHHHCCCCCCCHHHHHHHHHCCCCCEEEEECCCHHHH
MQVGGLEQAFHAFRQAAKLNSQFQTQEVEKNKQDSLQFDTQNNTQTKTVFSTTKKNLLSN
HHHCCHHHHHHHHHHHHHHCCHHHHHHHHCCCCCCEEECCCCCCCCHHHHHHHHHHHCCC
PQFLNLEELNICEGNIAPRDWELVIRPEWKVATQFVRNKEIPEINKELVDNDSFFYIKTQ
CCEECCCCCCCCCCCCCCCCCEEEECCCHHHHHHHHHCCCCCHHHHHHCCCCCEEEEEEC
DVKQTNPRSYLRQIVRGIKIFEDTIITSSVQLCLQNTNRSEIVIAIFADDKLTNKIYQLS
CCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEEECCHHHHHHHHHH
TKVHSNFGWSTTNISINLNKVVKNLPEEVHIGFYINLPTTSAGNLWLAFSELIVIDASSG
HHHHCCCCEEEEEEEEEHHHHHHCCCCCEEEEEEEECCCCCCCCEEEEEEEEEEEECCCC
FKPINFSFFPFGNYSKASARLRTWKLVDCLRKAGHLVTIGYSDKSDVYVFQKLRLFDQLN
CCCCCEEEECCCCCCCHHHHHHHHHHHHHHHHCCCEEEEECCCCCCHHHHHHHHHHHHCC
DRSKMQLRELKHENKVVVYDFDDNYVLPNQGTQEELVAFMNSVDVVTVGSQLLADFANKY
CHHHHHHHHHHCCCCEEEEECCCCEECCCCCCHHHHHHHHCCCCEEEHHHHHHHHHHHHH
HPNVFVLENPVDINTDDIVREPTPELKNIAWFGAPEGILQIKNVNIEEKITTITKGGDIE
CCEEEEECCCCCCCCCHHCCCCCCHHHCEEECCCCCCEEEEECCCHHHHHEEEECCCCEE
FEINTVDQTLTEFDLLIFPLEPTEWNLAKNANRMIKAIALGVPVLATATPEHRRVAREFN
EEEEHHHHHHHHCCEEEEECCCCCCCHHHHHHHHHHHHHHCCCCEECCCCHHHHHHHHCC
LGNHFLVNYDGNWNEKLTYLKTNFAQVQEEILVARQRALEIYSTQKITKNWFNNVLGSRK
CCCEEEEEECCCCCCEEEEEHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCC
RWIPTQVKRNFTKTYQKNFLSQVAVLIYDYSVTKTFTTCIEESEVNWSDFGSQYIVATTP
CCCHHHHHHHHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHCCCCCHHHCCCEEEEEECC
YEQELKIEKHGFQYLFPENDYLEIFKYFQQIIIEANQDWILLVSGNCILTQGIYEELDRH
CHHHCEEECCCCEEECCCCCHHHHHHHHHHHHEECCCCEEEEEECCEEEEHHHHHHHHHH
LSKSDAEPVLLLKVQSYGCLPDIQSNSIFDGIKFMINPNTPDVMLIKRSWVKPYIPLIQT
HCCCCCCCEEEEEEECCCCCCCCCCCCCCCCEEEEECCCCCCEEEEECCCCCHHHHHHHH
QLNYWGWNITLLALNNQQKNNCCYVNIPVVLRGNSDIDSNLSRQYVKWLEIFPPKIPPQM
HHHHCCEEEEEEEECCCCCCCEEEEEEEEEEECCCCCCHHHHHHHHHHHHHCCCCCCCCC
PDITNQWRRIKHDIIQDIVTNFPDVLPISFTSALEKIDILNDELNRLKKKSR
CCHHHHHHHHHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHHHHHHHHHHCCC
>Mature Secondary Structure
MQNTPVIQLIDEAKNIAIKGSLCQEKGQLEEAAFYYQQALNQNPNLQQVNYNLGIIHYQQ
CCCCCHHHEEHHCCCEEEECHHHHHCCCHHHHHHHHHHHHCCCCCCEEEEEEEEEEEEEC
GDLLGAYQSYKKAIALKPDDINAYYNLGIVLQNQGLLISAIDSYQQAINLSKSEKSNSHE
CCHHHHHHHHHHEEECCCCCCCEEEEEEEEEECCCEEEEHHHHHHHHHCCCCCCCCCCHH
TIVNCYSNWGCILLHQGQSDAAIAVFKEALLLKPDDFTIYNNIGQALLQKSQLDQAITYL
HHHHHHCCCCEEEEECCCCCHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHHHHH
KKSLKLEPQFTISLYHLGQVYQSQGLHEKAVKYFQQIIELEPENLTAYSESFYSLMEQGK
HHHCCCCCCEEEEHHHHHHHHHHCCCHHHHHHHHHHHHHCCCCCCHHHHHHHHHHHHCCC
LSEAMTNLQKAIQNNSFVEGYCKWSNLLAESTDELDKGKVAGANFLKALKNSNFPNSLSL
HHHHHHHHHHHHCCCCCEEHHHHHHHHHHHCCCHHCCCCCCHHHHHHHHHCCCCCCCCCH
KEISQYLIEIYLHLGNVSGESDQDEQAKIYYKKALELETVTAEEYVKLGKSLVKQNLINS
HHHHHHHHHHHHHHCCCCCCCCCCCHHHHHHHHHHHHEECCHHHHHHHHHHHHHHHHHCC
AIIITNLGLETYPEHPEILENLQSLSKSKKAQKKPKFLSSSCERLNSRPWWEQNFQEFNM
EEEEEECCCCCCCCCHHHHHHHHHHHHHHHHHCCCHHHHHHHHHCCCCCCHHHHHHHHHH
LHLGSRIYSCSENQTTTNILSQNNSLKRAETETFVAQLLSGRAWVVPQKKYGMINNAIAI
HHHCCHHEECCCCCCHHHHHHCCCCCCHHHHHHHHHHHHCCCEEEECCHHCCCCCCEEEE
INQDNQLVKELSWNEAGQLGCQNSDENKQEIFDLEELPELEKIDGKVAVLSGLYDHVYFH
EECCHHHHHHCCCCCCCCCCCCCCCCCHHHHHCHHHCCCHHHCCCCHHHHHHHHHHHHHH
WMVDILPRLEILKLHGIDLKEIDFFLVSNYQMPFQRESLNVLGIPQNKIISSEQHPYIQA
HHHHHHCCHHEEHCCCCCHHHEEEEEEECCCCCCCCCCCCEEECCCHHCCCCCCCCCEEE
KKLIVPSFPGDLGRLTSWSLEFHRQVFLSRIKQEIFTENKTSSFYPERIYISRNNSRYRR
EEEECCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCCCCEEEEECCCCHHHH
VFNEEEVLLKLSEIGFVCIQPDSMNLKEQIAIFSHAKVIIGAHGSGLTNIIFSPRGTKVI
HCCCHHHHEEHHHCCEEEECCCCCCHHHHHHHHCCCEEEEECCCCCCEEEEECCCCCEEE
ELVSPNYIRHYYCGISQKIGLEHYYLKGEDFGCAPIRKLMYQNPLTEDIILNLNSLEKAL
EECCCCHHHHHHCCCCHHCCCEEEEECCCCCCHHHHHHHHHCCCCCHHHHEEHHHHHHHH
KVLGIIEKKKILETVFSSEIKASIQKEQQVGIRKKISQEKKKLPMKQVGQKISLKVNSQE
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCHHHCCCEEEEEECHHH
IAGQLNKQAELYLKQKELELAKTTCTQALKSQPDYSPACKTLGNVFYAQGQIETAWYWYT
HHHHHCCHHHHHHHHHHHHHHHHHHHHHHHCCCCCCHHHHHHHHHEEECCCEEEEEEEEE
KAIEYQPNFAEAYANLGTLSVKKEQWQEAISYYQKALKIQPKFAGVYRNLARIYQKIGSY
EEEECCCCHHHHHHCCCCEEECHHHHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHHCCC
TEAEKFSIKAEYLEPVNQKITPENQAIKLTLYYKKLGKRLQSQGEVEAAWQSYKKFLSLE
CCCHHHEEEHHHHCCCCCCCCCCCCEEEEEEHHHHHHHHHHCCCCHHHHHHHHHHHHCCC
KNDPEIYLNIGSLYAQQEQWIEAIKCYQKSLVIQPNYADAYRQLAIAWRKVGKKTKGDNC
CCCCEEEEEHHHHHHHHHHHHHHHHHHHHHEEECCCHHHHHHHHHHHHHHHCCCCCCCCE
LYQAYSLEPGKATAEEHLILGNSLLQQKVISQAISCYCRAIELNPNLLGAYESLGEALKL
EEEEEECCCCCCCCHHHEEHHHHHHHHHHHHHHHHHHEEEEECCCCHHHHHHHHHHHHCC
QGTKKPTTKVFPNYWQNLENSLNLLIGENHQNSQGIIQQVRADDTIHIIQKPENFQRVVS
CCCCCCCHHCCHHHHHHHHCCCEEEEECCCCCCHHHHHHHCCCCEEEEEECCHHHHHHHH
KGVSRVISTFDLKSDLSDSVNYLESSLSVLENSQDKRVTNYKEITKTLAPNKPLIIEADV
HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHCCCCCEEEEEEC
TNVYGNIEGEKTVMNSPKKANNNQIIHSTLKLKEISKVNEVKQINSTFLLKDMTSNGVRN
CEEECCCCCCHHHCCCCCCCCCCCEEHHHHHHHHHHHHHHHHHHCCCEEEEEHHCCCCCC
IPNVYIQEAQKYYEEGFYEKAISQCQQAISLKIDVAAAYIIIGDSQKKIGEIKQAESSYK
CCHHHHHHHHHHHHHHHHHHHHHHHHHHHCEEEEEEEEEEEECCCHHHHHHHHHHHHHHH
TALEIQQSYGLIYIVLGNLYVEYKILNLVIYCYEKALEIKLKVAENYYKLAMVLTELGET
HHHHHHHHCCEEEEEECCHHHHHHHHHHHHHHHHHHHEEEEEEHHHHHHHHHHHHHHHHH
LGVLDFWYQAYSLEPKKVTANDHFNLGNKLYEKGKIAQAVSCYQNSIELNPNLGTVYYNL
HHHHHHHHHHHCCCCCEEECCCCCCCCHHHHHHCHHHHHHHHHHCCEEECCCCEEEEEEE
SLGLKCLGRWDEAVIYYHKAKEIWADKNQNQNTLKVDMNSDISAKLEAEYENGYQLNSAK
EECHHHHCCCCCEEEEEEHHHHHHCCCCCCCCEEEEECCCCCCEEEEECCCCCEEECCHH
IKDKVGENKNQNQKSLKVDMNSDISAKLEAEYENGEQLNSAEIKDKVWENKNQNQKSLKG
HHHHHCCCCCCCCCEEEEECCCCCCEEEEECCCCCCCCCHHHHHHHHHCCCCCCHHHCCC
DVNFNISAKLEDKYQNGHQLSAAEIERKSGELLQLNQIVTNQINYSQKAEVKELLKQAKT
CCCEEEEEEEHHCCCCCCCCCHHHHHHCCCCEEEHHHHHHHHCCCCHHHHHHHHHHHHHH
YYLEGLFSEAIAICYSVIKVEKNSEAYQIMGKAFQQKNQLDNAINCYAQALKLNPNDSGA
HHHHHHHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCCCCC
NYEMGNILALLPGKLEEAISYYRKAIEIEPYLTEAYYSLANILVNQNQLEKVVILYEKLI
CEECCCEEEECCCHHHHHHHHHHHHHCCCHHHHHHHHHHHHHHHCHHHHHHHHHHHHHHH
EIQPNLWEPHHNLGDILIKQEKFSEAISAYGHAIKLNPNSSVSYVKLADILAKVGELSQA
HCCCCCCCCCCCHHHHEEEHHHHHHHHHHCCCEEEECCCCCCHHHHHHHHHHHHHHHHHH
INAYYKAIAIDPDFVDAYQYLGDALRNKGEKEEAIKVYRKAIEIRPQLWEVHHKLGSLFQ
HHHHHHHEECCCHHHHHHHHHHHHHHCCCCHHHHHHHHHHHHHCCHHHHHHHHHHHHHHH
ETEELETAANAYRKSIELNPDFCWSYNNLGDVLVRLEKWSEATGVYSRAIELNPDFCWSY
HHHHHHHHHHHHHHCCCCCCCEEECCCCHHHHHHHHHHHHHHHHHHHEEEECCCCEEECC
NNLGDVLVKLEKWPEAKSVYHQAIELNPDFPWNYYKLADVLVKLEDWEGAIAAYQKAIKL
CCHHHHHHHHHCCCCHHHHHHHHHCCCCCCCCCHHHHHHHHHHHHCCCHHHHHHHHHHCC
DPDRKDIKQYLADAENQLQEKIANAKQQQEANKKLTKAGQFGKILATQSKSDLEKIAVNN
CCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCHHEECCCHHHHHHHHCCC
TIKVDANFAEYYHLQGDTLVEKGEKEKAIKVYRKAVEMEPESWEVHHKLGNLLQEIGKLE
EEEEECCHHHEEEECCCHHHHCCCHHHHHHHHHHHHHCCCCCHHHHHHHHHHHHHHHHHH
DAIAAYNESIELKPDLSWSYNNLGDVLVRLGKLNEAIKYYQKAIYLEPNFAWSYYNLAEL
HHHHHHCCCEEECCCCCCCCCCHHHHHHHHHHHHHHHHHHHHHEEECCCCCCCHHHHHHH
CFLLEKWDEAVNAYRRFMEIQPDFSPEVEEKLNQALHQQVQGKLEQALSYYRQGIRNDPT
HHHHHHHHHHHHHHHHHHHCCCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCC
DVKSYEKALEIKPDDAELYLGLGHAWIAKGQSEKAILAYQKAIDKNPDIFVWSRHNLKKT
HHHHHHHHHCCCCCCCEEEEECCHHHHCCCCCCCHHHHHHHHHCCCCCEEEEECCCHHHH
MQVGGLEQAFHAFRQAAKLNSQFQTQEVEKNKQDSLQFDTQNNTQTKTVFSTTKKNLLSN
HHHCCHHHHHHHHHHHHHHCCHHHHHHHHCCCCCCEEECCCCCCCCHHHHHHHHHHHCCC
PQFLNLEELNICEGNIAPRDWELVIRPEWKVATQFVRNKEIPEINKELVDNDSFFYIKTQ
CCEECCCCCCCCCCCCCCCCCEEEECCCHHHHHHHHHCCCCCHHHHHHCCCCCEEEEEEC
DVKQTNPRSYLRQIVRGIKIFEDTIITSSVQLCLQNTNRSEIVIAIFADDKLTNKIYQLS
CCCCCCHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCCCEEEEEEEECCHHHHHHHHHH
TKVHSNFGWSTTNISINLNKVVKNLPEEVHIGFYINLPTTSAGNLWLAFSELIVIDASSG
HHHHCCCCEEEEEEEEEHHHHHHCCCCCEEEEEEEECCCCCCCCEEEEEEEEEEEECCCC
FKPINFSFFPFGNYSKASARLRTWKLVDCLRKAGHLVTIGYSDKSDVYVFQKLRLFDQLN
CCCCCEEEECCCCCCCHHHHHHHHHHHHHHHHCCCEEEEECCCCCCHHHHHHHHHHHHCC
DRSKMQLRELKHENKVVVYDFDDNYVLPNQGTQEELVAFMNSVDVVTVGSQLLADFANKY
CHHHHHHHHHHCCCCEEEEECCCCEECCCCCCHHHHHHHHCCCCEEEHHHHHHHHHHHHH
HPNVFVLENPVDINTDDIVREPTPELKNIAWFGAPEGILQIKNVNIEEKITTITKGGDIE
CCEEEEECCCCCCCCCHHCCCCCCHHHCEEECCCCCCEEEEECCCHHHHHEEEECCCCEE
FEINTVDQTLTEFDLLIFPLEPTEWNLAKNANRMIKAIALGVPVLATATPEHRRVAREFN
EEEEHHHHHHHHCCEEEEECCCCCCCHHHHHHHHHHHHHHCCCCEECCCCHHHHHHHHCC
LGNHFLVNYDGNWNEKLTYLKTNFAQVQEEILVARQRALEIYSTQKITKNWFNNVLGSRK
CCCEEEEEECCCCCCEEEEEHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHCCCC
RWIPTQVKRNFTKTYQKNFLSQVAVLIYDYSVTKTFTTCIEESEVNWSDFGSQYIVATTP
CCCHHHHHHHHHHHHHHHHHHHHHHHHHCCHHHHHHHHHHHCCCCCHHHCCCEEEEEECC
YEQELKIEKHGFQYLFPENDYLEIFKYFQQIIIEANQDWILLVSGNCILTQGIYEELDRH
CHHHCEEECCCCEEECCCCCHHHHHHHHHHHHEECCCCEEEEEECCEEEEHHHHHHHHHH
LSKSDAEPVLLLKVQSYGCLPDIQSNSIFDGIKFMINPNTPDVMLIKRSWVKPYIPLIQT
HCCCCCCCEEEEEEECCCCCCCCCCCCCCCCEEEEECCCCCCEEEEECCCCCHHHHHHHH
QLNYWGWNITLLALNNQQKNNCCYVNIPVVLRGNSDIDSNLSRQYVKWLEIFPPKIPPQM
HHHHCCEEEEEEEECCCCCCCEEEEEEEEEEECCCCCCHHHHHHHHHHHHHCCCCCCCCC
PDITNQWRRIKHDIIQDIVTNFPDVLPISFTSALEKIDILNDELNRLKKKSR
CCHHHHHHHHHHHHHHHHHHCCCCCCCCHHHHHHHHHHHHHHHHHHHHHCCC

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: 8688087; 9697413 [H]