New model in OGS2.0 | DPOGS211841  |
---|---|
Genomic Position | scaffold306:- 34086-42727 |
See gene structure | |
CDS Length | 4887 |
Paired RNAseq reads   | 1748 |
Single RNAseq reads   | 4371 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006025 (8e-69) |
Best Drosophila hit   | c11.1 (6e-128) |
Best Human hit | HEAT repeat-containing protein 7A isoform 1 (1e-87) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC010431 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC010431 [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0008150 biological_process GO:0005575 cellular_component GO:0005488 binding |
InterPro families    | IPR011989 Armadillo-like helical IPR016024 Armadillo-type fold IPR000357 HEAT |
Orthology group | MCL15157 |
Nucleotide sequence:
ATGTCTTCTTCAATATCAGAATACTTAAAAGATACAGTGACTGTGCTCATAAACGCTATT
GGAGATAATGATAATACAGTCAACAATGTTATTATTAAATCTCTGGTGAAGATATCAAAT
GTACATCCAAATGAAGTTATCGAGATATTTTGCGAATTCTACCGCAATACAGTTAAGAGT
AATGTTATTCAGTTGGGAAACCTAGTAAAGGTATTGGAACAAACATGTGTGAATCAGCTC
AAGAAAATCGATCAAAATGTAGCTAAAGAGCTCATTAATGCGATGCTCCGTGCCATGATG
GAGAATCCTATGTATGAGCCGGTAGTTCAGATGGGGGCATCGTCTGTTCTAGTTGCTATC
AGCCATGAGTACTTGGATCTGGTACTCCGATCTTTAATCGATCAGATATCACCCGCTTCC
TTGCCGCATTACACGATCGCGCACACACTCGGCACGCTAGCGGCGGTCAACACGCACGAA
CTTGTACCACACGTCAAGGAGATCCTTGGCAAGATGCTGCCGTTACTGCCTCTCGTTAAA
CAGGATGGATCCAAGCAAGCCTTTGCTTATGCGTTCGGCCACTTCGCTGTAGCCGTGTCC
GAACAAATAGGCGACAATGTTGCAAACGACAATATAACATCCATAAAGGACAATTTTGTC
ACGGAATTCACTATAGTCTTCGACGTGTTGTACAATCAATGGCTGCCATGCCACGAGCCC
AAAGTATCAGAATCGGTACTCGAGGCCCTCGGCCCCATCACACGGCTCATATCAGAGAGA
CAGTTCAACGAAACGGTCAACAAGTTCGTCCTGTCACTGCTGTCCTTATATCGCAAACCA
GCTATCAACTTCTACTGCATCAGCCAGTGCATATCATACTTATTGTCACCTTCGCCCTTA
AATCCAAAACTGACGTTAAATGACAACGTCATAAATTCCATCAATAACGTGTTGTTTAAC
CTGGTGCTGTTGGAGCCCGATTACGATCAGCCGCACACCGTCAAGAATCACTTTGAAGTA
CTGCGCTGCTTCGACCACATGACGACGCAGTTCTCAGACCAAACCGTCGAAAGTCTGTTG
CATCACTGTAAACATAACCAAGAGAAAGACAGAATGAAAGCTGTCATAATCCTGACCCAC
CTAACGACGTCCTCGCAGATATTTATCGAACATTTCTCGTCAAAGTTCATAACGATTTTG
AAAGTGATGATCGTGATGGAACAGGGCGTGAAGATGAAGAAACTCCTCGTCAAGGCCATA
GTGGGCCTCGTGTACAGGAACTGCATAATGTCGCCGGAGGATTTTGTGATGGTGGAGTTT
ATAATAAAGCACTGCGGATACGAGGGTACACCCACCACAACGAAGGCCGAAGTTCTGGAT
CTACAAGACACTTGTAAAAGTTCCCTCGTACTCATGTGTAATACTGTCACCAGCGTGCGC
TCGCAGCTACGTAATTTGTTATTGAATTCGCTAACTGTCGACGAGTTCACCTCTTCCATG
TCGACCGTCAGCCACTGTCTGACTTCCCTCCTTCAGAATAATTCAGACGTAATTCCCGAC
GAGCAGTCGGACAGAACAGAGAGGTTGAAATTAAACTGTTCACCAGATTTAGTTTTTGTC
AGATGTTTGATTCAAATTGCGGACCCTGACCGAACCGAAACTAATAAAAACGTACTCGTC
TTCTTGGACGAATTTTCCGGTGACGTTCATAAGAATTTGAAAAATAAGTGGACCATCGAA
ATACAGCGGCTGTTGAAGTTTGTGGAAAAAAACGAATCCAAAGAACAATGGCACGGGATG
CTTTTGGATCTCCTAGTGTCAGCCATAGAAGAAGTTAACAGTAACAAATGGGTGGAAACG
ATATCGACATTGGTGTCGCAGCAGATTATGGGGAAAAAGCAATCGCCGATGTTTAAAGGA
GTCTCACTTCAATATTTAGCGATACTTTCATGTCACTTGTCTAATGCGGCCGTCGTAGAA
ACTGTTCTAAAGATAATACTGCTCGCTTTGAAATCGATCCCCATGTCCAGTGTGGACTGT
GTGAGCAAAGCGGTCGGCATCGCGTCGAGGGTTCACGGAGAATGTGTTCTCAACGAGCTT
GACGCTATCTATAAAGAAAATGAAGCGAGACGCGGCAATAAACTCCTGAATTTCCTGTCA
ACCCGAGCCTCGAAGAACGAGCTCGAATTATCCATAGTTAAATATGCCGTGATAACTTGT
TACGGTAAAGTAGCGAACGAGTGCTTGGATGTTCACGTCCTGGCCAGGTTAGGCGAAAAT
ATAACTTCCATACTCTATGAAATATTGAAATCGAATCCGCCCTTCGATTTGTGCAAAGCC
AGTGTGACGACTCTTTATGAAATAAGTAAGGCTTTGTATCCAGCGGCACATCACAATGTG
GCGTTAAGAAATCGTTGGCAGCTATTGAACGCGGTGCTGGAACAAATATATAACAGTAAC
CTCGACAAGCGACACGTCGAATTGTACCCGATTGTGGTGAAGGCTTCTAAAGCGTTGACA
AAATTGCATAGAGTCTTATTCAGCAGCATCTTCGGTGAACTGTCCTCATATAAACAGAAA
TATGAACTCGAAAAGAACGGCGATCAGAACGACTTGCTCGCCAAAAAATTGAACGATTCC
CTCACACTGTTACATGAACTAATCAAGGAATTGATCATTCAGTCAACATGCCTCAGTACT
ATCGACGATATTGTCAGTCTATCGATCGAGTGGATCCGCCACGACAATGACGAAATCCGC
ACCGCAGCTACGCTAATACTTCAAGTGGTTTTCGATGCATACATTAAAAACGTCAAGCTC
AACTACGAAACTCCAAGTAAATTCGGACAAATGGGATATCTTTTGGGCATCATCGTACCT
GGAGTCGCCGACTCGAATTTCGCTGTCAGATTGACGACGATAGACTGCATCAAGCTCGTC
ATACAGATACAGGATCTGTACGAAGGGCACACCGTGAATCCCGAGGACGAATGCATAAAT
GGTCTATCGAAGTTACAGAATAACGTACTAACCAACGACTTGAACATGATAAGCCACTAC
TGCACCAATCTCTGTGATATGATTTCTCATAAAATACCGCATTTGCATAACATGCAGTTT
GTGGAGAGTTTGTTGGACGGCTACGACGACCAGGAGTTCAGGAGCGTCGGCATCAGCTCT
GTACTGGACGCCTTCATCGTCCAGAAAGGTCAAGACCTGTTCCAGAACATCGAGAGGATA
GTAGAGGTCCTGTTGACCACCATGGACGAAGTCGGCCACGACGCTCGCATCAGACTCATG
AGGCCCGTGACGTCACTCACGCGTCATCACTCCAATGCCGTGACAGCCGTGCTGTTGGGA
CAAAAGCTGCCTTTAATACCTTCCGTCATATCTTGCTGGCGTTATCTGGCCCGCGACGAG
AGTCTGTCTTCGGCTATAGTCGATAACTTCTTGCGACTGATGACCTCCATCGAGCTTTAC
GAGGATCCTTATCACATCACGGAGAATCACGTGGCCGCCTTGCAGCCTTTGACCCTGATA
AGCGCCCTCGGAGAGATGCTGCAGGAGTTATCGATGAGAGGAACGTGTCTCGCCAAGTTC
CCGGAGCTGTTCTCAGTACTGTACACGACTCTGGCGTGTTACATAGAAGCCGAACCACCA
GCGTACAGTCTGCCGCACAAGAACCAGGACCGTTTCGGATTCATACCCAACAGAGAAGCC
ATCAAGTTGTCGCCGGCTCGAATCACCATCAACACCTTCAACGTCTTCCTCGAGAGAGCT
GACTGTTACAAGGTGAAGGAGGCGTGTTCTCTGTGTCTGAGCGTGGAGCACGGTGACAGC
ACCGCCACTCTGTTGGAGCTGGCTCCGATTCTGTCCGCGGCGATCAGTGCCTCACCCGCC
CTGCCCAAGGTGGTGTCGCGGGTGGCGCTCTACTCGCGGTCACCCCTCCCGCCACAGAGA
TGTGCTGCACTCGCCTTATTGGCGGATCTCTTGAATTACAGATGTAACGACAACAGCGTG
TTGATCGAGACGGTGTTGTCGTCGCTGTCCACCGGCTGGAAGGACGGGGACGGGCGAGTG
AGGTCCGCGTGTCTACGGACCGCCGCCAACGTGTGCCGCCTGGCCCGGGAACACAGGGAA
CACGCCGTGCCCGCCGCACTCACCGCGCTCAGCCAGGGAATAGACGCGCACACCACCACG
TCGACCGTAGACAACGTCCCCCTAGCTGCCATCCAAGGCCTGAGCCGACTGCTCATGGAG
ACCGAGGACATAGACAAGGAGTTCGAGAGAGAGCTGGTGGCCGTCTCTCAGAAGATACGA
CCCTTCATGAACACGGACTGCTGCCACCTGAGAGAGAGCTCCATCAGACTGTTCGGGCTG
GTGGCGGGCAGGCTGCGGCGCGGCTCGCTGGGCGACCAGGCCGTGAGCTGCATACCCTGC
TTCCTGCTACATCTGTGTGACACCAACCCCGCCGTCGTCAGGGCCAGTAAGTTTACCCTG
CGCCAGGTGTTCAAGACGTTCAACGTGAAGAAATCCAACGACTTCGTCCAGGCGCACCTG
GTGGACGAGGGCCGGCTCTATCTGGACGAGTTCCTGTCGGCTCTGCTGCGCCACCTGGCG
GACGAGATGCCCGCCGCTATCGTCAAATGCATCGAGACGGCCGGCAACTACCTACAGGGC
GCGAGAGACGAAATAAAACCACACGCACCCCTGTTGATAGGTATTCTATATTCCGAGCTG
GCTCGCCTCCCGGCCTCTGAGCGCTCGTCCCTGGAGCGTGACGTCACACAGCGTGCCAGG
ACGCGCCTCCTGGCGCTCCTCACCGACAGCGACGCCAGAGTGAGACAGAACGCTGCCGCA
GCACTCGCTAACATGTGTCTAGTGTAA
Protein sequence:
MSSSISEYLKDTVTVLINAIGDNDNTVNNVIIKSLVKISNVHPNEVIEIFCEFYRNTVKS
NVIQLGNLVKVLEQTCVNQLKKIDQNVAKELINAMLRAMMENPMYEPVVQMGASSVLVAI
SHEYLDLVLRSLIDQISPASLPHYTIAHTLGTLAAVNTHELVPHVKEILGKMLPLLPLVK
QDGSKQAFAYAFGHFAVAVSEQIGDNVANDNITSIKDNFVTEFTIVFDVLYNQWLPCHEP
KVSESVLEALGPITRLISERQFNETVNKFVLSLLSLYRKPAINFYCISQCISYLLSPSPL
NPKLTLNDNVINSINNVLFNLVLLEPDYDQPHTVKNHFEVLRCFDHMTTQFSDQTVESLL
HHCKHNQEKDRMKAVIILTHLTTSSQIFIEHFSSKFITILKVMIVMEQGVKMKKLLVKAI
VGLVYRNCIMSPEDFVMVEFIIKHCGYEGTPTTTKAEVLDLQDTCKSSLVLMCNTVTSVR
SQLRNLLLNSLTVDEFTSSMSTVSHCLTSLLQNNSDVIPDEQSDRTERLKLNCSPDLVFV
RCLIQIADPDRTETNKNVLVFLDEFSGDVHKNLKNKWTIEIQRLLKFVEKNESKEQWHGM
LLDLLVSAIEEVNSNKWVETISTLVSQQIMGKKQSPMFKGVSLQYLAILSCHLSNAAVVE
TVLKIILLALKSIPMSSVDCVSKAVGIASRVHGECVLNELDAIYKENEARRGNKLLNFLS
TRASKNELELSIVKYAVITCYGKVANECLDVHVLARLGENITSILYEILKSNPPFDLCKA
SVTTLYEISKALYPAAHHNVALRNRWQLLNAVLEQIYNSNLDKRHVELYPIVVKASKALT
KLHRVLFSSIFGELSSYKQKYELEKNGDQNDLLAKKLNDSLTLLHELIKELIIQSTCLST
IDDIVSLSIEWIRHDNDEIRTAATLILQVVFDAYIKNVKLNYETPSKFGQMGYLLGIIVP
GVADSNFAVRLTTIDCIKLVIQIQDLYEGHTVNPEDECINGLSKLQNNVLTNDLNMISHY
CTNLCDMISHKIPHLHNMQFVESLLDGYDDQEFRSVGISSVLDAFIVQKGQDLFQNIERI
VEVLLTTMDEVGHDARIRLMRPVTSLTRHHSNAVTAVLLGQKLPLIPSVISCWRYLARDE
SLSSAIVDNFLRLMTSIELYEDPYHITENHVAALQPLTLISALGEMLQELSMRGTCLAKF
PELFSVLYTTLACYIEAEPPAYSLPHKNQDRFGFIPNREAIKLSPARITINTFNVFLERA
DCYKVKEACSLCLSVEHGDSTATLLELAPILSAAISASPALPKVVSRVALYSRSPLPPQR
CAALALLADLLNYRCNDNSVLIETVLSSLSTGWKDGDGRVRSACLRTAANVCRLAREHRE
HAVPAALTALSQGIDAHTTTSTVDNVPLAAIQGLSRLLMETEDIDKEFERELVAVSQKIR
PFMNTDCCHLRESSIRLFGLVAGRLRRGSLGDQAVSCIPCFLLHLCDTNPAVVRASKFTL
RQVFKTFNVKKSNDFVQAHLVDEGRLYLDEFLSALLRHLADEMPAAIVKCIETAGNYLQG
ARDEIKPHAPLLIGILYSELARLPASERSSLERDVTQRARTRLLALLTDSDARVRQNAAA
ALANMCLV