New model in OGS2.0 | DPOGS215128  |
---|---|
Genomic Position | scaffold803:- 20833-35730 |
See gene structure | |
CDS Length | 5157 |
Paired RNAseq reads   | 1850 |
Single RNAseq reads   | 4588 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA001675 (4e-08) |
Best Drosophila hit   | CG4771 (1e-10) |
Best Human hit | ND |
Best NR hit (blastp)   | GH18662 [Drosophila grimshawi] (2e-10) |
Best NR hit (blastx)   | GH18662 [Drosophila grimshawi] (7e-11) |
GeneOntology terms   | GO:0003676 nucleic acid binding |
InterPro families    | IPR018351 Tudor subgroup IPR002893 Zinc finger, MYND-type IPR002999 Tudor domain IPR008191 Maternal tudor protein |
Orthology group | MCL22721 |
Nucleotide sequence:
ATGGATAGGTCTAAGTCGGAATTCAGTAAGATTGTAGCTAGGAAGAGCGAAATTGCTGAT
TTTAAGTATAGTGACATATATAGCGATAGTGACGAGGACGAGACGAATAGGCTGATTGAG
CTGAGGCATTCCGATTATGACGACATAGTACACGATAGTTTGAAAATTGTAATAGCTTTA
GCCGGATATCCGAAGCTGAAGATGCGTCTGAAACAAATGGAAACGTTCCAGAGGAGCATC
AATGACGTCATCAACATGCAGTTCAAGGCCGGCCTGCTGAAGGAGACGCCGTCGTTTGTA
GACTACTACCTGAATAGAGGCGCCATCGTGTGTATCTGCAAGGACGCCGAGACCAGAGAT
TGGATATTCAGGATATCGCCCGGTCTGAGAGAACGGATGTGCACGAATCTGACGTATCTG
AAATGTAAAGTGAAAAGGCTGTGTCTGGCTGTGATCAAAATACCGAAGTCGTGCTGGCCG
GCCTCCGCCCCGGATGCCTTTAAGCTTCTACAATATTTTAATCCGACGTTAAAAACTCAT
CTGTGGAGGATTTACTCCAAGAAATGTGTGAACGACGTGGAAATTACGTCTTTCTTGGTG
GATAGGGTATCTGGTGAAATAATTCGGGGCCCCAATTTTAAAAACGTCATAGATTACAGC
CAGATGGAGTTCGAGCTGTCCGGCTATACTGAAATATATTACGAGTGTTTTATGTCTGAG
TGCGAGGATCTATCCAGCGTAGCGTCCAGGGCCAAGCTGCTGGACGAGCTGAGGTCCCTG
GAGACCACACCGAGAATCAAATCCGAGACCGATGAAGCGAAGTTGAAGAGCGATTGCGAC
GAGAGGAAGACCTACGAGGTGGAAATTGACAAATTTGTGGACGGTCACGACGATGATGAG
AAAATTAATGACAGCGAATGGACTGATAACAAGAATATGGAAACTATCGAATCTGAAGGC
GTGGAAATAACTGAAGTTAGCTCGTCAGCGGTCGCCATGTCTGAAGCGACCGGGTCCATA
ATCGAGAGTAGCGAGAATTTAGTCATCGGTAGAAATAGCAATTTGAATATAGATAGCAAC
CGAGGTATAGCGTACCATAGACGTACTAACTACTTACACGTGGAGCACGAGCTGAAAGTA
GCCATCGTACTGGAGGGATATCCCCAAAATAAGCTGGAAGGTACCCACATACGGCGGCTG
AAGCACCTCTTCAAGGAATTCCTCCACAAGGATATGAAGATGCAGAAGTTTAATAATCTG
ATCATACCAAAATTCCAAGACATTTACCTTTCTAACGGAGCTGTGATATACATATGTGAT
AGTCTTGAAACGAAGGACTATTTGACTGAAATATTACCTAAACTTATAAATTCTACGGGT
CTTAAGTTAAGTTTTAGAGATATTAAGAGTTTGGTGAGATACACGCGGGTGGTCATGAGG
TTGCCGAAGGAGTTGTCACATTTTGAATCTCAGTACATATTGGCGCAGCTTAAAAGTAAA
TATCCCAATCTGAGGCCGGACTGCTGGAAGTATTATTCTGACGTTGCTGGCAAACAGAAA
CGTCAGTTCGGCGTCGAGCCCGAGTCTTTGGAGGTGATCAAGAGCGCAGAGTTTGATCCA
ACCTGCGATGGAGAGAAACTCAATTTCCGTGTCATCGACAGACAGAAACGTGACGTCAGT
TTGGACGAGTCTCAGGTGTTTGATGCGAAACATAGCGAGAACGAGAATACGAAGAAGGTT
AGGGACAAAATTTTAAAAGCCATGTACATGTTGCTCGAGCCTGAGGTACTGAACTCCCAA
TTGACCAAAATCAGAGCCAATCACTACTGCGATGTTATTGAGGACGATCTGAAATTGTAC
GTCGGGCCGGATTTCCACACCATAAAGAGGACGATAGAAAACATCGTTGTGGAAGCACAA
GGATCTGATGGGGACGATTTTATACCGAAGTTACACGACATGTATCTATTCGACGGCGTC
ATCTTCATCATATGCCAAAACATGCCATCGAGGTTGTGGATCGAGAGGAACATACCAAAT
ATAAATTACAAAGTGGACGTCGCACTGAAAGCTACAGAGTTCCGGGGTGCCGTGGGCATC
GTGAGCATGTTAGTCAAGACCGATAAGAGCACGGACGATGTTATTGCTATTCTCCAGACA
CAGAATCCGAGACTGCGCACGAAATTTTGGAGAAAAATCAGCACAGTCCGCAGCCGGGTG
AAGATTGACGCGGTCCTGCAGATCGACAAGCTATCAGCGCAAGTCATATCCAGCGATGGG
TTCAATGCTAAAATCGACGATAACTTTGTGCAATTCAAATTGGGCCATTTGAAGTCACTG
ATTAAGCCCATACAACGGAGATTAGAGAAGATTGCTTCTAAGAGTACACCGAAAGAAGAT
TCCAAAGTTCCAGAATATACGCATGTGTCTAGAGAGAATTCCGCCAATGTTGTGGAAAAG
AAGGAGTCCATTAACGAGGTTGACAGCGAAAATATATTCAGTCAGTTCAAACTGAACGCT
GGAGAGAGTAAAATATTCTATTACACCGGCTTGAACAGGTCCGAGAAGGATTCCGCGAAC
AGCTTGAAAATCGATGACAATCAGGATTACATGAAGATGATATTGAAGGTTCCGACAAAC
ATTCTGCCCGATTGTAAAGACGGCCTGGACATTATCTTCGACCTCCTGGAAGATAAGAAT
CCAGGTCTCAATACGGAGCTGTGGGTAGTCGACAAACAGTCCCAGTTTAACAAAGGCAAG
TTCCACATCCTAATCGACAAACGATCAGCCTCGGTCATCAAAGGCAAGGACTTCGACGCG
ACACTGGGCGATTTAGCACCAACAATATTAGTATACCTAACACTACCGTCGCTCCAGCGA
CTGTCGTCACGGACATGCCTATCGTGCGGCGGTGTAGCAGACTTGTACTGCGGGAACTGC
GGCCTGGCGCCCTACTGCAGCCAGAGATGCCAGCAAAGCGACTGGAACCGCAGGCATAAA
CATGTCTGTCATAATCTCGCGTGTTCTACTACCTCTGAGTTGAAAGTCAAGGAGACTGTT
GATGCTGGTGAACCTGATACATCAACTCCTGCCCCTCTCCGTCAGCCTCACTCATCCAAC
AGGAGGGATTATAAGGGTGATGTCAGTAATAAAACCAAAAAGAATTTCAACCAAAAGCAA
ACGAGGAACAACGGTAGCTTCCAGAATAAAAACATGAGACGTCCTGGTAGACGTGACGAT
GATGAAGAAAGTCCAGAACATGCAGGTGATGCAGCAAACAAACGAGACGAAACAATCAAT
CACATACCCAACAAGATAGATACCAAACCGGAAACCAAACCGAAACCAGATGACAAACCA
AGAGATAAGGAACCGCTGAAACCTCCGGCCAGTTTGCAAGATGTCACCCCAAAGACACGA
ACTATTGTGCCTAAAGAATATCTGCTGGATAAGTTATCCTTGAATGAGACAGTGTTACTG
TCAGTGGAATCTGAGGCGGACGGTGGGTTCATATGTCTGACTCTACACGAAGCCAACGAA
CACGACTACCAACTGCTGTGTGGACAGTTTGGAGAGGAGTGTGAGGGACGAGAGGCGGTG
TTTCCGAGAGCGGGTGATCTGTTCGCGTTGTATTGCTCGGGGGAACGCGCGTGGTACAGA
GCTCGGCGCTTGTCAGGTGATCGTGTCGCGCTAATAGACTGCAGCAGGGTGGTAAATGTG
ACCACCAACGACAGAATGGTAGACTTACCACCGGAATACCTTCAAGTACCGGAGTGCTGC
TGTCAGCTTAACGCGAGAGGAGTACAGGTGGGCGATAATCTGAAGTGCACGTTGGTGTCG
AAGACTAGTGACGGCTTCAAAGTATCATTACGAAATGCGGAAACGGATGCTGCTATTGGG
GATGGGGAAGTGACCAGGTGGAGACCAGCCGTACAGTATGAAGTCGATAAAACGCCTGCA
TCCATACCGGAAGTGCCACGACCATCCTTATCAAATATGGCAGCCGTCTTCCTAGTGCAG
AATACAGGTCTTGATATGTTTGTTCGTCCCGCGGAATCCAGGCTCCGAGGTGTCTTTGAG
AGAATTATACAGGACGGAGTGGCTGCTGGGATGAAAGCTCTGCCTCTAAAAGACCCGCCC
CGAGCCGGCCAAACGGTGCTCTGCCAACACACGGACGGCCACTACTACCGCGGCCTCTGT
AAGAGAACTAACTTCAAGAGGAACAAGTACATGATCGAGTTTATAGAATACGGCAACACC
GTCATCAGTGAGTTAGAGAAGCTGTCTCCGTGTCCTGAAGAGTTGGACGTAAAGAATACA
CCGACACCGGTGGCACTCGTCAGAGTAGATATGAAGACTGTTCTGAATGAGAAGGGACAG
CAGTACTTGGAGAAGATAAGGGATGATGAAGTGGAGCTGGTAGTGAACTCAAAGGATAAA
TCTGTGGTCATCCAAAGCGGTTCTGTAGTTGAGCTGGTCGAGATGAAATCGAAGGAATCT
GTAACCAGAAAATTGGAGATGCTGTGCTCACCGGAGTGGAAGAAGATTGAACAAAATGGA
GGGGATGTTGTTGATTGCGAGCCGTTAATGTACAGTTCGCTTAAATACTACGACCTGCCG
AGTGCCAAGTGCGAGTTGTGCGTTTTGGATATAAGTACAATCCGCGGGGGGGCGCTGGGG
GTGTGTGACGCCACCATCGGTCACGAACAACGGCTAGAGGCTGTCACGGAACAGATTGAA
GCCTATGTGAAGAGTGATCTCGGTAAAGATCCCTATCTACCTAAGATTGAGGAGCTCTGC
CTGGCGCCTTGTCCACCATATCCTCAGTACTTCAGGGCAGTGTTGTGCAATCATACAGCC
GGTTCCAGCGAGGCGACCGTCTGCTACGTGGACTACAACAACGTAGACACTGTCGAGGTC
AAGGCGCTCAGGAAGATGATGAGGGAGTTCACGAACACGCCCGCACTGGCCTGCCACGCC
GAGATCAGAGGTTTTCCCGCCAACCCATCCGACAGCCAGCTGGCGCGGGCGTTGCAGTAC
ATGAAGATAGATGACCAGGGCCGAGGGCAACTCACAGTGGAGAAGTGCGAGAAAGTCGAT
CCCGGCTTCTATATAGTGGAAGCGCCGGGTCTACTGGCTGCCATGATGCAGTCATAG
Protein sequence:
MDRSKSEFSKIVARKSEIADFKYSDIYSDSDEDETNRLIELRHSDYDDIVHDSLKIVIAL
AGYPKLKMRLKQMETFQRSINDVINMQFKAGLLKETPSFVDYYLNRGAIVCICKDAETRD
WIFRISPGLRERMCTNLTYLKCKVKRLCLAVIKIPKSCWPASAPDAFKLLQYFNPTLKTH
LWRIYSKKCVNDVEITSFLVDRVSGEIIRGPNFKNVIDYSQMEFELSGYTEIYYECFMSE
CEDLSSVASRAKLLDELRSLETTPRIKSETDEAKLKSDCDERKTYEVEIDKFVDGHDDDE
KINDSEWTDNKNMETIESEGVEITEVSSSAVAMSEATGSIIESSENLVIGRNSNLNIDSN
RGIAYHRRTNYLHVEHELKVAIVLEGYPQNKLEGTHIRRLKHLFKEFLHKDMKMQKFNNL
IIPKFQDIYLSNGAVIYICDSLETKDYLTEILPKLINSTGLKLSFRDIKSLVRYTRVVMR
LPKELSHFESQYILAQLKSKYPNLRPDCWKYYSDVAGKQKRQFGVEPESLEVIKSAEFDP
TCDGEKLNFRVIDRQKRDVSLDESQVFDAKHSENENTKKVRDKILKAMYMLLEPEVLNSQ
LTKIRANHYCDVIEDDLKLYVGPDFHTIKRTIENIVVEAQGSDGDDFIPKLHDMYLFDGV
IFIICQNMPSRLWIERNIPNINYKVDVALKATEFRGAVGIVSMLVKTDKSTDDVIAILQT
QNPRLRTKFWRKISTVRSRVKIDAVLQIDKLSAQVISSDGFNAKIDDNFVQFKLGHLKSL
IKPIQRRLEKIASKSTPKEDSKVPEYTHVSRENSANVVEKKESINEVDSENIFSQFKLNA
GESKIFYYTGLNRSEKDSANSLKIDDNQDYMKMILKVPTNILPDCKDGLDIIFDLLEDKN
PGLNTELWVVDKQSQFNKGKFHILIDKRSASVIKGKDFDATLGDLAPTILVYLTLPSLQR
LSSRTCLSCGGVADLYCGNCGLAPYCSQRCQQSDWNRRHKHVCHNLACSTTSELKVKETV
DAGEPDTSTPAPLRQPHSSNRRDYKGDVSNKTKKNFNQKQTRNNGSFQNKNMRRPGRRDD
DEESPEHAGDAANKRDETINHIPNKIDTKPETKPKPDDKPRDKEPLKPPASLQDVTPKTR
TIVPKEYLLDKLSLNETVLLSVESEADGGFICLTLHEANEHDYQLLCGQFGEECEGREAV
FPRAGDLFALYCSGERAWYRARRLSGDRVALIDCSRVVNVTTNDRMVDLPPEYLQVPECC
CQLNARGVQVGDNLKCTLVSKTSDGFKVSLRNAETDAAIGDGEVTRWRPAVQYEVDKTPA
SIPEVPRPSLSNMAAVFLVQNTGLDMFVRPAESRLRGVFERIIQDGVAAGMKALPLKDPP
RAGQTVLCQHTDGHYYRGLCKRTNFKRNKYMIEFIEYGNTVISELEKLSPCPEELDVKNT
PTPVALVRVDMKTVLNEKGQQYLEKIRDDEVELVVNSKDKSVVIQSGSVVELVEMKSKES
VTRKLEMLCSPEWKKIEQNGGDVVDCEPLMYSSLKYYDLPSAKCELCVLDISTIRGGALG
VCDATIGHEQRLEAVTEQIEAYVKSDLGKDPYLPKIEELCLAPCPPYPQYFRAVLCNHTA
GSSEATVCYVDYNNVDTVEVKALRKMMREFTNTPALACHAEIRGFPANPSDSQLARALQY
MKIDDQGRGQLTVEKCEKVDPGFYIVEAPGLLAAMMQS