New model in OGS2.0 | DPOGS208823  |
---|---|
Genomic Position | scaffold987:+ 128-27156 |
See gene structure | |
CDS Length | 7152 |
Paired RNAseq reads   | 6228 |
Single RNAseq reads   | 15165 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA007929 (0.0) |
Best Drosophila hit   | notch (0.0) |
Best Human hit | neurogenic locus notch homolog protein 1 preproprotein (0.0) |
Best NR hit (blastp)   | Notch homolog [Bombyx mori] (0.0) |
Best NR hit (blastx)   | Notch homolog [Bombyx mori] (0.0) |
GeneOntology terms    | GO:0007498 mesoderm development GO:0007398 ectoderm development GO:0005886 plasma membrane GO:0005622 intracellular GO:0016360 sensory organ precursor cell fate determination GO:0030713 ovarian follicle cell stalk formation GO:0030707 ovarian follicle cell development GO:0001708 cell fate specification GO:0007219 Notch signaling pathway GO:0009952 anterior/posterior pattern formation GO:0035286 leg segmentation GO:0035111 leg joint morphogenesis GO:0007478 leg disc morphogenesis GO:0005887 integral to plasma membrane GO:0004872 receptor activity GO:0016563 transcription activator activity GO:0045165 cell fate commitment GO:0007424 open tracheal system development GO:0035155 negative regulation of terminal cell fate specification, open tracheal system GO:0035157 negative regulation of fusion cell fate specification GO:0007446 imaginal disc growth GO:0007447 imaginal disc pattern formation GO:0007519 skeletal muscle tissue development GO:0045463 R8 cell development GO:0000122 negative regulation of transcription from RNA polymerase II promoter GO:0007460 R8 cell fate commitment GO:0004888 transmembrane receptor activity GO:0007155 cell adhesion GO:0016021 integral to membrane GO:0007422 peripheral nervous system development GO:0007403 glial cell fate determination GO:0007293 germarium-derived egg chamber formation GO:0016333 morphogenesis of follicular epithelium GO:0030708 germarium-derived female germ-line cyst encapsulation GO:0007314 oocyte anterior/posterior axis specification GO:0007451 dorsal/ventral lineage restriction, imaginal disc GO:0042067 establishment of ommatidial planar polarity GO:0048749 compound eye development GO:0007423 sensory organ development GO:0046667 compound eye retinal cell programmed cell death GO:0016330 second mitotic wave involved in compound eye morphogenesis GO:0005515 protein binding GO:0045465 R8 cell differentiation GO:0045468 regulation of R8 cell spacing in compound eye GO:0007476 imaginal disc-derived wing morphogenesis GO:0007450 dorsal/ventral pattern formation, imaginal disc GO:0007391 dorsal closure GO:0005634 nucleus GO:0046331 lateral inhibition GO:0046329 negative regulation of JNK cascade GO:0001737 establishment of imaginal disc-derived wing hair orientation GO:0009608 response to symbiont GO:0035171 lamellocyte differentiation GO:0042688 crystal cell differentiation GO:0042676 compound eye cone cell fate commitment GO:0035167 larval lymph gland hemopoiesis GO:0035162 embryonic hemopoiesis GO:0035172 hemocyte proliferation GO:0010552 positive regulation of gene-specific transcription from RNA polymerase II promoter GO:0007464 R3/R4 cell fate commitment GO:0046666 retinal cell programmed cell death GO:0007473 wing disc proximal/distal pattern formation GO:0042689 regulation of crystal cell differentiation GO:0008356 asymmetric cell division GO:0007419 ventral cord development GO:0007411 axon guidance GO:0007521 muscle cell fate determination GO:0042686 regulation of cardioblast cell fate specification GO:0045466 R7 cell differentiation GO:0008587 imaginal disc-derived wing margin morphogenesis GO:0007346 regulation of mitotic cell cycle GO:0035170 lymph gland crystal cell differentiation GO:0048477 oogenesis GO:0030720 oocyte localization involved in germarium-derived egg chamber formation GO:0035165 embryonic crystal cell differentiation GO:0040008 regulation of growth GO:0001745 compound eye morphogenesis GO:0005509 calcium ion binding GO:0007440 foregut morphogenesis GO:0007616 long-term memory GO:0007615 anesthesia-resistant memory GO:0048542 lymph gland development GO:0007157 heterophilic cell-cell adhesion GO:0045747 positive regulation of Notch signaling pathway GO:0045316 negative regulation of compound eye photoreceptor development GO:0008284 positive regulation of cell proliferation GO:0045750 positive regulation of S phase of mitotic cell cycle GO:0007015 actin filament organization GO:0048190 wing disc dorsal/ventral pattern formation GO:0007298 border follicle cell migration GO:0046843 dorsal appendage formation GO:0007297 ovarian follicle cell migration GO:0008407 bristle morphogenesis GO:0031410 cytoplasmic vesicle GO:0048666 neuron development GO:0010001 glial cell differentiation GO:0008347 glial cell migration GO:0035003 subapical complex GO:0005912 adherens junction GO:0035153 epithelial cell type specification, open tracheal system GO:0050767 regulation of neurogenesis GO:0048863 stem cell differentiation GO:0007474 imaginal disc-derived wing vein specification GO:0050768 negative regulation of neurogenesis GO:0016566 specific transcriptional repressor activity GO:0043234 protein complex GO:0030718 germ-line stem cell maintenance GO:0048052 R1/R6 cell differentiation GO:0035214 eye-antennal disc development GO:0045595 regulation of cell differentiation |
InterPro families    | IPR000152 EGF-type aspartate/asparagine hydroxylation site IPR013032 EGF-like region, conserved site IPR018097 EGF-like calcium-binding, conserved site IPR000742 Epidermal growth factor-like, type 3 IPR002110 Ankyrin repeat IPR000800 Notch domain IPR020683 Ankyrin repeat-containing domain IPR001881 EGF-like calcium-binding IPR006210 Epidermal growth factor-like IPR008297 Notch IPR006209 EGF IPR013091 EGF calcium-binding IPR010660 Notch, NOD domain IPR011656 Notch, NODP domain |
Orthology group | MCL10234 |
Nucleotide sequence:
CTATTTAATTTCAGTTGCACGTCTCGTTACGCCGGCGAGTTCTGCCAGCATCTGAACCCT
TGCCACAGTGAATCGAGTCCTCGCTGTCAGAATGGGGGTTCATGCAGGGTGCGACCGGGC
GTCGGAGGCGCTCCGCCCTCGTTCGCATGTGATTGTCCATTGGGATTCAGTGCATCATTG
TGCGAGATACGAGTGCCGGCCGCTTGTGACTCCGCGCCGTGTCTGAACGGTGCGACCTGC
CGACTGACGTCATTGTTCACTTATGAATGCGACTGCCCTCCAGGTTATACAGGTGAGGAA
TGCTCCCACGAAGACCACTGCGCGTCATGCTCCAGTGGTTCCGGGCCCTGTCATCACGGG
AGATGCTTCAATACCCTGGGATCGTACACCTGTGTTTGCGAGCCAGGATACACAGGCAGA
GACTGTGATACAGAATATGTTCCCTGTGAACCGTCTCCCTGTCTGCATGGAGGCAGATGC
ACGCAAATGGATCAGTTGCGTTACGAATGCGATTGTCCTGCCGACGAAGACAGCTCGGAG
CAGCTTCCGTATTTTAATGATTTGTTCATATGTATGGGAAAGAAGGGAGGACACGATCTC
ACACCATATGGTTACCGGGGTCAGAACTGCGAGATTGACATCGATGACTGTCCGGGACAT
CTGTGTCAGAACGGCGCCACTTGTGTGGACGGCCTCAACTCCTACACCTGCGAGTGTCCG
CCGACGTTCAGCGGCAACTTCTGCGAAACTGATGTAGATGAATGCGCCTTGAGACCTCTA
GTATGTCAGAACGGAGCAACATGTACGAATTCCGTCGGAGGATTTTCCTGCATATGTGTG
AATGGCTGGACTGGTCCAGAGTGTTCTGTCAATATCGATGACTGTGCTGGAGCCGCATGC
TTCAACGGCGCCACATGCATAGACCGTGTTGGAGCCTTCTACTGCAAGTGTACTCCAGGG
AAAACTGGTCTTCTTTGCCACCTGGATGATGCTTGCACGTCCAACCCCTGCCACGCAGAT
GCCATCTGCGACACGAGCCCCATTAACGGTTCCTATACGTGTTCCTGTGCATCTGGATAT
AAGGGGTTGGATTGCTCGGAGGACATCGATGAGTGTGAACAGGGGTCTCCTTGTGAACAC
GATGGCATCTGTGTGAACACGCCGGGCTCTTTCGCGTGCAACTGTTCGGTGGGTTTCACT
GGACCTCGTTGTGAGACCAATGTCAACGAGTGTGAGAGCCACCCTTGTAGGAACGACGGC
TCCTGTCTCGACGATCCCGGCACCTTTAGATGTGTCTGTATGCCTGGTTTCACGGGAACA
CAGTGCGAGGTGGAGATAGACGAGTGTGCTAACAACCCATGTCTCAACGGCGGAGTCTGT
CACGATATGATAAACGCCTTCAGATGTACCTGTGTTATAGGATTCACAGGTGCCCGTTGC
CAAGTGAACATCGACGACTGCGCTTCGAGCCCGTGTCGGAACGGCGGCACCTGCCACGAT
TCGATCGCGGGTTACACTTGCGAATGTCCCCCGGGTTACACGGGAATGTCGTGTGAAACA
AACATTAATGACTGTCTGTCGGCGCCGTGTCATCGCGGCGAATGTATAGATGGGGACAAC
AGCTTCACGTGCAACTGCCACCCCGGGTACACGGGCCGCGTGTGCCAAACCCAGATAAAC
GAATGCGAGTCCAATCCGTGCCAGTTTGGAGGTCACTGTGAAGACCTCATCGATGGGTAT
CAGTGCCGCTGCAAGCCTGGAACCTCTGGACGCAACTGTGAGATCAACGTCAACGAATGC
TACTCAAACCCTTGCAGGAATGGGGCGACTTGCATCGATGGAATCAACAGGTACACTTGC
GAATGCATCCCGGGCTTCACTGGCCAACATTGTGAGACCAATATCAACGAATGTCTGTCC
AACCCTTGCGCCAATGGTGGCAAATGCATCGATCGCATCAACGGCTTCCGATGCGAATGC
CCACGAGGATATTATGACGCTAGATGTCTATCGGATGTCAACGAATGTGCTTCCAACCCT
TGCATCAACGGTGGCACTTGTGAAGACGGCGTCAACCAGTTCATCTGCCATTGTTTGCCA
GGATATGGAGGTCAGCGATGCGAGCGTGATATCGACGAGTGTAGCTCGAACCCTTGTCAG
CACGGTGGAACGTGTCATGATAGACTGAATGCTTACAAGTGTGACTGTGTGCTGGGATTC
ACCGGTGTGAACTGCGAGACCAACATCGACGATTGTGCGGGCAACCCTTGCCTGCATGGC
GGGTCGTGCATTGATCTCGTGAACGGATACCGCTGTGTCTGCGAGCCTCCACACTCAGGA
CGTAATTGTGAAAACACCTTGGACCCCTGCCTGCCTAACCAATGTCGTCACGGTGGCCGC
TGCATGGCGGAAGCGTCTTACGCGGAGTTCACTTGCCAGTGTCCCGTGGGTTGGACCGGA
GCCCTGTGTGAGCGGGACGTGGACGAGTGTGCGGTCACGGCGCCCTGTCATAACGAGGCC
ACCTGTCTTAACAAGGAAGGTTCCTACGCGTGTCTCTGCGCGAGAGGATACGAAGGCAAA
GACTGCGCAATCAACACAGATGATTGTGCTTCATTCCCATGCCAGAACGGTGCGACTTGT
TTGGACAGCATAGGTGACTACAACTGTGTGTGTGCGAGCGGGTTCGCCGGAAAACACTGT
GAGGTTGACATAGATGAGTGTCAGTCGCGACCCTGCATGAACGGCGCTACCTGCAACCAG
TACGTGGCCTCCTACACCTGCACTTGCCCATTGGGTTTCTCCGGCATCAACTGTCAGACT
AACGACGAGGACTGCACCGAGTCTAGCTGCATGAACGGTGGCACCTGCATAGACGGCATC
AACTCCTACAACTGTTCCTGCCCGCCTGGGTACACTGGTTCGAACTGCCAGTTTCGTATT
AACATGTGTGACAGCTCGCCCTGCGACAACGGCGCTACGTGTCACGATCATGTTACTTTC
TACACCTGCCACTGTCCTTACGGATACACCGGGAAGCATTGCGAGGCTTTTGTGGATTGG
TGTGAGAACAACCCGTGCGAGAACGGTGCAACGTGCTCCCAGAAAGGCCCCCAGTATACA
TGCACGTGTTCACCTGGCTGGTCGGGCAAGCTGTGTGATGTCGAGATGGTGTCTTGTAAA
GACGCTAGTATACGGAAAGGTGTGAAGTTAAAGCAGTTGTGTAACAACGGTTCTTGTGAG
GATATAGGAAACTCCCATCGCTGCCATTGTCTCGATGGTTACACGGGCTCCTACTGCCAG
AAAGAAATCAACGAGTGTGACTCCGCCCCCTGCCAGAATGGAGCCGTTTGTAAAGACCTC
GTCGGTACCTACCAGTGCCAATGCGCTAAAGGTTTTCAAGGACAGAACTGTGAACTTAAC
GTCAACGACTGTCTGCCTAATCCGTGTCAGAATGGCGGAACATGTCACGACCTCATAAAC
AACTTCTCCTGTTCCTGTCCTTTCGGAACACTCGGCAAAATATGCGAAATTAACGTCAAC
GACTGCAAACAAGATGCTTGTCATAATAACGGCACTTGTATGGATAAGGTTGGCGGTTTC
GAATGCAAGTGTCCTGCTGGGTTCGTAGGTCCTAGATGCGAAGGTGATATAAACGAATGC
TTATCAAACCCGTGCTCAAACCCTGGCACTCAAGACTGTGTACAGCTGGTCAATGATTAT
CACTGCAACTGTAAACCGGGCTACATGGGTAGGCATTGCGACGCTAAGGTAAACTTCTGT
GCTAATTCACCATGTCAAAACGGTGGTATTTGCACGGCTATTCAAGGTGGACATGAGTGT
TTGTGTGGCGATGGATTTTATGGCAAAAACTGTGAATATTCGGGCTACGCGTGTGACTCG
AATCCTTGTCAGAACGGTGGCTACTGTCGAACATCCGAAATCGGTGACTATGTTTGCGAC
TGTCCATCCGGATTATCTGGTATTAACTGTGAAATCGATTCTATGAATGAATGTCTGAGT
AGTCCGTGTAAACATCCTGAAGCTCGCTGTATTGATAAACCTGGTGATTTCCTCTGCTAC
TGCCCAAGACAATGGACGGGTAAAATCTGTGAAATACACGATCCCCACTCGAGGGGTGGT
TACGGAAGTCCCGTGTCGGGGGTGTATGGCAAGAACCCTGCGTTAACTCTGCAAGAACTA
GACTTAGCATTCCAAAGGGAACAATGTGTAAAATTAGGATGCAAAGAAAAACAGTCAGAC
CACCATTGTGACGAAGAATGTAACACATATGCATGTGACTTTGACGGAAATGATTGTTCT
CTCGGTATCAATCCATGGGCGAATTGTACTGCTCCAATTAAATGTTGGGAAGTTTTTATG
AATGGCGAATGTAATGAAGTATGTAATACACAGGCTTGTTTATTTGACGGTCGAGACTGC
GAGAAATCCCTGCAGAGATGTAATCCTGTATACGATGCGTATTGTCAAAAGCATTATGCC
AATGGTCATTGTGACTACGGATGCAATAATGCTGAGTGTAATTGGGACGGTCTCGATTGT
GAAAATGAGCCACCTGATTTAGCTGAAGGTGTTATGTCTGTCATATTACTTATGGACATG
CTTACGTTCAAAGAAAATTCCGTAGCCTTTTTACGTGATCTGGGCCATCAACTACGGACT
ACCATACTAATAAAAAGAGATCACTTGGGCAATGAAATGGTATATCCCTGGAAGGGTTCG
ACAGACGTAGGTCTCCAAGATACCGAATTCGGAAAGAAACACCACATAGTCTACACAGAG
AGAGGTCAATCTGGAGTTCAAGTTTATTTGGAAATTGATAACCGAAAATGTACTACAATG
TCTGGTTCCGAATGTTTCTTCTCAGCTAGAGAAGCAGCTGAGTTCTTGGCAGCAACAGCG
TCAAAACATTCATTATCTCCAGACTTCCCCATTTTCCAAGTAAAAGGTGTCAATACTCCG
GACAATGAACCATTACCAACAAACTCTAAATACGTTTTTATTGGTGTAATTATGATTCTT
TTACTGGGTCTTCTTATTGGGGTACTTGTCACGGCTCAAAGAAAACGTGCCGCTGGTATA
ACGTGGTTCCCAGAAGGATTTATTCGCAACAACTCCTCAACCCGACGTCGTTCTAGACGA
AGAGGACCTGATGGGCAGGAAATGAGAAATTTGAACAAGGCTTCCATAGGATGTATCGAC
GTTGACATCAATGGTGGTCACATGGGTCCGCCACACTGGTCCGATGAGGATGACGATGGC
TCAGCTCCTCCCAGAGCCAAGAGAGCCCGAGGCCCTGGGGACACGAATGGAGCACCAGGA
GGCTACGCGTCGGACCATACAGCGATTACTGATTATGAAGAAGCTGGTCATGAACCTAGA
GTATGGACGCAGCAACATTTAGATGCGGCGGATATTAGAGTGCCGCCTAGTATGATGACA
CCACCTGCTATCCACGACGGTCATGTAGACGTGAACGCCCGCGGTCCACTTGGTATGACG
CCTCTCATGGTGGCGGCCATACGAGGTGGAGGTTTGGATACTGGCTCGGACGTGGAAGAC
GAACAGACTGCTCATATCATATCGGAGCTGGTAGCACAAGGAGCTCAGCTTAATGCTGCT
ATGGACAAGACTGGAGAAACTAGCTTACACTTGGCTGCAAGATACGCTCGCGCGGACGCT
GCCAAACGTCTATTAGACGCAGGTGCTGATGCAAACTCTCAAGACAACACCGGACGGACG
CCGCTGCATTCCGCTGTGGCTGCGGATGCCATGGGCGTGTTCCAGATCCTGTTGAGGAAC
AGGGCCACCAACCTGAACGCGAGGATGCATGATGGCACCACTCCATTAATATTGGCTGCC
AGGCTGGCCATCGAAGGTATGGTTGAAGACCTGATCAACGCGGATGCGGACATCAACGCT
GCCGACAACAGTGGTAAGACAGCGCTTCACTGGGCCGCTGCTGTCAATAACGTGGATGCA
GTCAACGTGCTGTTAGTCCACGGAGCTAACAGAGACGCTCAAGATGACAAGGACGAGACA
CCTCTTTTCCTGGGTGCACGCGAGGGTTCGTACGGCGCGTGCAAGGCGTTGCTGGATGCG
ATGGCCAACCGCGAGATCACTGACCACATGGACCGTCTCCCGCGGGACGTCGCCCAGGAA
CGGATGCACGACGACATAGTCAGACTCCTCGACGAACACTGCCCGCGACCGCCTCAGCAT
CACCACCTGATGGCGTCTCCGAACCCACATCCTCAGCTCATCAGCCAACCCACAGTCATC
GCAGGGAAGGGAAAGAAAAAGCCAAGAGCGAAGCCCGGCCCGGACAGCCCTCAGGAGCAA
TACGACTCCACCATGCAACCCTCGCAGATACGACGGAAACCAAGCGTAAAAAAGAATAAC
AAGAAAGTGGCCCAGGAGGTGCCGCAGAGCGTCGAGAGTTTGGGATTCAGTCTGAGTCCC
GTGGAATCACCACTGCAAAATTTACAGGACCTGCCGTCTCCGTACGACGCGACGTCTTTA
TACTCCAACGCGATGGCTCAGTTCCCGCCCGTGGAGCAGCTCGTCCACAAACAGCCGCCC
AGCTACGATGACTGCGTCAAGACGGGTCAGTCTCTTCAGTACGGGGGCGCAGGCTTGGGG
GCCTCCTTGTCACCGCCCTACTCCAACCACTCACCAACACACAGCAATCAAACGACGTCT
CCGCACGCTTACATAGGTTCCCCGTCCCCCGGCAAGTCCCGGCCGTCTCTGCCGACGTCA
CCGGCTCACATGGCGGCGCTGCGTCATCATCACCTCGACGCAAACGCATACTCCGCTCTT
GCGCATCTGAGTGCGAACGGCCAACACAACGCGCAGCTGCAGGCGGTGATGACGCACGCG
GCGGCTCTCGGGCACGTGCAGGGAGCGCAGCACCCGGCCATCACCAACATCATGTCCGGT
TTGTACGGCAGCTGGGGTATGGGTGACACGTTCCCGACCCCGTCCCCGGAGTCCCCCGAC
CACTGGTCCACGCCGTCCCCCCAGACCCCGCTCACGCAGTCCCCCCACTCCGACTGGTCG
GACCGCGCCGCCCTCTCCCCCAACGACATACAACAGACAAACAAAGGCGCGACCGACGCC
TTCTATATATAA
Protein sequence:
LFNFSCTSRYAGEFCQHLNPCHSESSPRCQNGGSCRVRPGVGGAPPSFACDCPLGFSASL
CEIRVPAACDSAPCLNGATCRLTSLFTYECDCPPGYTGEECSHEDHCASCSSGSGPCHHG
RCFNTLGSYTCVCEPGYTGRDCDTEYVPCEPSPCLHGGRCTQMDQLRYECDCPADEDSSE
QLPYFNDLFICMGKKGGHDLTPYGYRGQNCEIDIDDCPGHLCQNGATCVDGLNSYTCECP
PTFSGNFCETDVDECALRPLVCQNGATCTNSVGGFSCICVNGWTGPECSVNIDDCAGAAC
FNGATCIDRVGAFYCKCTPGKTGLLCHLDDACTSNPCHADAICDTSPINGSYTCSCASGY
KGLDCSEDIDECEQGSPCEHDGICVNTPGSFACNCSVGFTGPRCETNVNECESHPCRNDG
SCLDDPGTFRCVCMPGFTGTQCEVEIDECANNPCLNGGVCHDMINAFRCTCVIGFTGARC
QVNIDDCASSPCRNGGTCHDSIAGYTCECPPGYTGMSCETNINDCLSAPCHRGECIDGDN
SFTCNCHPGYTGRVCQTQINECESNPCQFGGHCEDLIDGYQCRCKPGTSGRNCEINVNEC
YSNPCRNGATCIDGINRYTCECIPGFTGQHCETNINECLSNPCANGGKCIDRINGFRCEC
PRGYYDARCLSDVNECASNPCINGGTCEDGVNQFICHCLPGYGGQRCERDIDECSSNPCQ
HGGTCHDRLNAYKCDCVLGFTGVNCETNIDDCAGNPCLHGGSCIDLVNGYRCVCEPPHSG
RNCENTLDPCLPNQCRHGGRCMAEASYAEFTCQCPVGWTGALCERDVDECAVTAPCHNEA
TCLNKEGSYACLCARGYEGKDCAINTDDCASFPCQNGATCLDSIGDYNCVCASGFAGKHC
EVDIDECQSRPCMNGATCNQYVASYTCTCPLGFSGINCQTNDEDCTESSCMNGGTCIDGI
NSYNCSCPPGYTGSNCQFRINMCDSSPCDNGATCHDHVTFYTCHCPYGYTGKHCEAFVDW
CENNPCENGATCSQKGPQYTCTCSPGWSGKLCDVEMVSCKDASIRKGVKLKQLCNNGSCE
DIGNSHRCHCLDGYTGSYCQKEINECDSAPCQNGAVCKDLVGTYQCQCAKGFQGQNCELN
VNDCLPNPCQNGGTCHDLINNFSCSCPFGTLGKICEINVNDCKQDACHNNGTCMDKVGGF
ECKCPAGFVGPRCEGDINECLSNPCSNPGTQDCVQLVNDYHCNCKPGYMGRHCDAKVNFC
ANSPCQNGGICTAIQGGHECLCGDGFYGKNCEYSGYACDSNPCQNGGYCRTSEIGDYVCD
CPSGLSGINCEIDSMNECLSSPCKHPEARCIDKPGDFLCYCPRQWTGKICEIHDPHSRGG
YGSPVSGVYGKNPALTLQELDLAFQREQCVKLGCKEKQSDHHCDEECNTYACDFDGNDCS
LGINPWANCTAPIKCWEVFMNGECNEVCNTQACLFDGRDCEKSLQRCNPVYDAYCQKHYA
NGHCDYGCNNAECNWDGLDCENEPPDLAEGVMSVILLMDMLTFKENSVAFLRDLGHQLRT
TILIKRDHLGNEMVYPWKGSTDVGLQDTEFGKKHHIVYTERGQSGVQVYLEIDNRKCTTM
SGSECFFSAREAAEFLAATASKHSLSPDFPIFQVKGVNTPDNEPLPTNSKYVFIGVIMIL
LLGLLIGVLVTAQRKRAAGITWFPEGFIRNNSSTRRRSRRRGPDGQEMRNLNKASIGCID
VDINGGHMGPPHWSDEDDDGSAPPRAKRARGPGDTNGAPGGYASDHTAITDYEEAGHEPR
VWTQQHLDAADIRVPPSMMTPPAIHDGHVDVNARGPLGMTPLMVAAIRGGGLDTGSDVED
EQTAHIISELVAQGAQLNAAMDKTGETSLHLAARYARADAAKRLLDAGADANSQDNTGRT
PLHSAVAADAMGVFQILLRNRATNLNARMHDGTTPLILAARLAIEGMVEDLINADADINA
ADNSGKTALHWAAAVNNVDAVNVLLVHGANRDAQDDKDETPLFLGAREGSYGACKALLDA
MANREITDHMDRLPRDVAQERMHDDIVRLLDEHCPRPPQHHHLMASPNPHPQLISQPTVI
AGKGKKKPRAKPGPDSPQEQYDSTMQPSQIRRKPSVKKNNKKVAQEVPQSVESLGFSLSP
VESPLQNLQDLPSPYDATSLYSNAMAQFPPVEQLVHKQPPSYDDCVKTGQSLQYGGAGLG
ASLSPPYSNHSPTHSNQTTSPHAYIGSPSPGKSRPSLPTSPAHMAALRHHHLDANAYSAL
AHLSANGQHNAQLQAVMTHAAALGHVQGAQHPAITNIMSGLYGSWGMGDTFPTPSPESPD
HWSTPSPQTPLTQSPHSDWSDRAALSPNDIQQTNKGATDAFYI