New model in OGS2.0 | DPOGS212926  |
---|---|
Genomic Position | scaffold235:+ 9154-20766 |
See gene structure | |
CDS Length | 6732 |
Paired RNAseq reads   | 2636 |
Single RNAseq reads   | 6616 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA011857 (8e-08) |
Best Drosophila hit   | tudor (8e-61) |
Best Human hit | tudor domain-containing protein 1 (1e-20) |
Best NR hit (blastp)   | ebna2 binding protein P100, putative [Pediculus humanus corporis] (4e-171) |
Best NR hit (blastx)   | ebna2 binding protein P100, putative [Pediculus humanus corporis] (3e-152) |
GeneOntology terms    | GO:0007315 pole plasm assembly GO:0009790 embryo development GO:0043186 P granule GO:0005739 mitochondrion GO:0008298 intracellular mRNA localization GO:0007278 pole cell fate determination GO:0007281 germ cell development GO:0019090 mitochondrial rRNA export from mitochondrion GO:0003676 nucleic acid binding GO:0030719 P granule organization GO:0007277 pole cell development |
InterPro families    | IPR018351 Tudor subgroup IPR002999 Tudor domain IPR008191 Maternal tudor protein |
Orthology group | MCL13306 |
Nucleotide sequence:
ATGGCGGTTCCAACGGAGGCTCCAAGATCTTTTCGGCTTTACGTGACTCATGTAGATGGA
GAGGGTCATTTCCTTAAAATTAGTGGTCAACTGGATCAGCAGTCATCGCTTATGATCGAA
AGTTTATTCGAAAGTGCTCGCGAAAATCTTGAAAAGGGTGTAGGTTCTGTTCCACCGGCA
GCTATACACGAAGGTGTCATTTGTGCCGCGAAATACAAAGATGGAACCTATTATAGAGCT
AAAATAATAAATACCACCAATCTGGCCACAGGGTTGGTGGGAGTGCATTTTATTGACTAC
GGTAATAAAGACATTATTTCATTGAGTACTATACGTTTCTTAGATAGTTACGATCCTATG
TTTTTACAATTACGTGGACAAGCCACCGATTACTACTTGTCTCGTGTCAAGCATTTGTCA
GGAAGGTGGGAAGAACCACTGCTACTTAAACTTCAAAGTCTCCTCTGCTATGCTGAGTAT
CCAGCAGTGGTGGAAGCTCAAACTCGTACTTTGCCTATCATATCAATTCAGTTCAAGGGT
AATGATCTTTCCACCCATCTTGTGTCTAATAGAATAGGAATAGCTATTCCAGTGCCTCAA
CAGGAAAGCTTACTATTACAAATGATGGAAAATCAACATGGAACAGTCTGGTCACCAACT
TTACTCAATGATGCTCCACCATTTACAGAACATGTGCCGTTTTTAATAAATCAGAACTTC
CCAAACCCTGCATCAGCAATGAGGCTAAATCAGTCCATGAGTGGGCCATATAATGGAGTA
CCCATATCTGGTGTAGGCCAAAGGATAATGGTCAATAAAGCAGCTAGAAATATGATAAAT
ATTAGAGCACCAGCTCGTCAGCCTCATTTACCAACTTCACAAATGCCTCTGACTTCTACA
CCACCATCTACAATAATCAGTAAACCGCCATCACCAAAAAAGTCAATAACATATAAGAGT
AGACTACTGGAAGTCAATTCACAACATAAAGTTTTCGTGTCTTTTGCTGAAGAAGGGCCA
GAGCTATTTGCAGTGCAACTTGTGACCGACGCTAAGAAACTCCAAGACATGATGGATGAC
ATCAATAGGAGGCCACATAGTAGTCTAGCCGAACCACCAATGATCGGAACGGTTTGTCTC
GGCAGAATGTCCGGAGACCGTATCATTTGTAGAGCAATTGTAATGAATTTATCCGGATCA
CAATGCAAGTTATTCTTTGTTGACTTTGGTGATACAGAAATGGTATCTTATTATGATATT
TTCGATATTCCTGAAGAATTTGTGAAGCCCAATGTATTTGCTATGCGCTTCTGTTTGTCT
GGTGTTAAAAAATTGGAGAAGAGCCCACATCTAGTTGAATCATTTAAACAGCTTGTTAAC
GGAAAGGTATTGACTTTAAGAGTAGTGGCTCCAGAAGGTCCACCTTTGATACAATATGGT
GAACTGTACTTAGATAATAAAAATGTGCTCGATTTATTAATGGCCAATATGAAAGATAAG
TTGCAGTTTAAGTGGATGGAAATGTTGACTTTGGGAAGTAAACAGTCTGTGTTGGTTTCA
TATGTAGATAGTTGTATAAAATTTTATATACAGCTATCTGATAAGATAGACGAGCTTGGT
GCCGTGATGAAAGCTGTTAAAGCTCATTGTGAGAACAGTTCACCGCCTGGAGAACTGCCC
GTTGGAGCTGTTTGCTGTGCACGGTTTCCCGACGACAACAATTGGTACCGAGCCCTCGTC
AGAGAATCAAAAGGGAACAAAGTTGTAGTGGCATATGTTGATTACGGCAATGAACAAGAA
GTTGACGTAGACGACTTGAGGACAATAACACCGGATCTGATCACTTTACCGGCACAAGCA
ATGAAATGTGCATTAAGGGGTTTCGAGAATAGACCAGTGGAAACAAAGACATCGAACCAA
CTAGAAATGCTCGCGCTAGAAAAGACACTAATGGCCCATATAGCCGGTGTCCTATCTAGT
GATACGATGCTCGTGTCATTGGTGGATCACACTGTAAACCCACCCCTGGACGTAGCAAGA
AGAATGAACCAGCTGTCACAACCAAGGATGAACCCTGAGCAGACGAAACCAGTCACCCCA
GTTCGGAAAGACGCTCCTGAAACGTTCAGTTCACCTGAAGGTAGCATCCCTGACGATAAG
AAGAACTTCCGGCGGGAGAAGAGCTTCCGGGAGGAGAGGAAACAAAAGGAGGGAGAAGAG
TTTGGACAGAGAGGAGGAAGCTTCAGAGCTAGGGAACAAAAAGACGGCTTTGAAAGATCT
GGACCCGGGAGGCACAGTGATAAGTTTGGTGCTAAATCTGAAAGGGGTGATAGGCGCGGC
CGTCCTCGGGAAGCGGGGCCCGGCTCCACGGACGGGGAGGAGAGTCGCCAACGGGACAGA
AAAAAACCGAAAGAGCAGCAAGACAAGAAGACTTGGAAGAAGGAAACTATGGGGGTTGGG
AAGAGGCTGAGACAAGCGGCTGAGGCGGCCTCCGTGGACGCGCAACATGCGAGGAACTCA
CAACAGGAACGACTCAAACGGTATAACCAAGACGAGGAAACAGATGACCGTAGTAATAAA
AGCTTTAGACCAGACAGAAGGGAGAATCGGGGCGATCGAAGAGACAATTGGGGCGACAAA
AAAGATAACTGGAATCAAAAGAGGGAGTTTCGTGATAATAGAGCTGAAAGAGGAGAAAGA
AACGATAGAGAAAAAAATGGTCGAGGCGGGAGAGGTGATAGGGGCGGTAGAGGCGGCAGA
AGCAACTTTACACCGAGAGATAGAGCTGAGAGATCATACACGGGAGAGAGCGATAAGAGA
TCTGAAAGAAGCTTCAGGTCACAAGACAGTGGCAATGATCGCAGTGGCAGAGCTCCACCA
TATAAGACTAGGAGCAAATTCACTCAAGTTCAATACAAGGAACTATCAAATCCTCTTCCA
CTCGAAACCCCCTTCACTGAACCCTCAGTGGAATTAAACTCTCAACAAGAAGTATCAGTG
ACATGGATCATCTCACCGGAAAACTTCTTCACTCAGATATTATCGTTGCAACCGAAATTC
TTAGAAATGATGCACAAAATTCCCGAGCTCTATAAAGGTGTGAAGTCTTACACCGGCAAT
GTTCCCATTGGAGCATCCGTGTTAGCGAGATATCCGGCCGATGGCGTCTTATATAGAGCT
ACGATAGTATCCGTCCAACCTTTTTCTAAATTTATAGTACGTTATGTAGATTTCGGAAAC
AAACAACTGGTTGACGCCAAAGATATATGGCAAATGGAATCGGAACTTATGGAACTGCCA
AAGATGGCTGTCCACTGTTCTTTAACGGGAGTATCGCCTAAGGATTGTGAATGGAAGGCT
GATCCAGAAATAGATTTGTGTTTCAATGCGCCGCGTTACCAGTGCGTATTCCAGGAATAT
GCGGATGACCAGTTTAAAGTGTCTCTATGGAATAATGGTGTGAGCGTGGCTGACATGCTT
GTTGAAAAGCAATTGGCTGTCTTGTCTGAAAATCTTTCCAGTGTCACGCTGAAAGATGAG
CCCATCGATTTAACAATTATTGTTGGCCAACAAATGTTATGCAAAGTTACATTTGTGGAA
TCGTTCCAAAAATTTTACGTACAGTTGGATTTGGATAAGGCTGATTTAGTTGAGAGCGCT
ATAGCAAACTATAATATATCAAAGCTATTGCCATTATCAGCGGAGAATCTATCGGAAGGA
ATTCATTGTAGTGTGAAATATGAGGGTAAAGTGTATAGAGCTATCATCAGCGATGCCTCC
GATAAAGATAATATAAAAGCTGACTTACCCGATTATGGCAGGACTATTACTACGTCACTG
AGCAATATCATGAATCTACCCACAGAATTTAGCGTCTACTACTATCAAGCATTGCAATGT
AGTTTAAACAACTACACGGAGAAATCTAAAACCTTGCTGTCTCTAGATGAGCTGAAGGAC
AAACTGAGTGGGAAAAAGTTTATAATCTATATTAATGGTGTTGAAGATATAACATTGGTT
TCTACACTTTATGATCCCACCACCGGCCAGAAGATAGCGATATTCGAGCCCGACGAAGGC
GCTTACGACGCAGTGGACCAGCTTTGTACAAGAGCCGTCTTTAATTATAACTTCGGCAAC
GCCTACATATCATATATAGAAAATCTGAATGAATTCTATCTGCAAAAATCTCTCGATGGG
GATAAAATTGCACAACTCTTAGAAAAACTGTACAATTTCTATGAAAAAGGAACTCCGGAA
CAATTGACTAATTTCGAAACTGATGGCTTATGCGCTGCTAAATCTTCAGATGGAAATTGG
TACCGGGCTACAATAATATCCTCGTCTGAAACGGATGTCCAAGTGCAGTTCTCTGACTAT
GGCAACTCTGAAAGCGTGGCGAAAGATTCTGTTAAGGTTTTGGATTCTTCGTTCTTTGAA
CCCTGTTGTTTAGCCCTCGTAGCCAGTTTAGGGTTAGTGGCTCTCCAAGAAGATACAATC
AGCAAATTAACAGAATGGACTAACGAAAAAGAAGTGCAGGTCACTTTAGCGTTTGGTAGT
GACGGTTGGCTCGCTAACCTACATCTTGACGGTGTTGATTTATCTATGAAGTTAGTGAAT
GAAAAGTTAGCTGCACCACAAGTTAATGGACCAGAGGCTTCGGAAGACATTAAAACCGCA
GTCGAAGCCCCCGAACCGATTTCCCTCCCTGAAGGTTGTACACGAGTGTATATCAGTCAT
ATAGATACTCCCGGACACTTCTGGCTGCAAATGGCGGATAAAGTAGAAAAAATAGAAGAA
ATCCAGGCTGAACTACAGGCGAATGCTGAAAGCTATATCAATATAGATAATCGCGAAATG
GGCACTTTATGTATTGCCAAATATTTGGCTGACGATCAGTGGTATCGAGCCGAAGTACTT
GATTCTGATTCTGATATAACAACCATAAGGTTTATTGATTACGGTAACACTGATGTGCTA
GATAACCAGCCAGGGTTGATCAAGACCATACCGGAGCACTTGAAACTAGTGGACAGATAC
GCTATCAAATCTAGTGTGAACGCTGTGCCCACGGGTACGGGACAATGGTCCGAACCGGCT
TCAGATTACTTCACACAACTTGTAGGAGACATCTCTTCGCCCGTTGATGCTTTGATCGTC
CTGAAGGACGTCACGACATACGTGGATATCTACGTTAACGGACAAAATTTGACCGATAAA
CTAGTCTGCGAAGGATACGCCACTCGATCCGAGGAGGCCGAGTGTGGTGACTTACCATCT
TGTTTCGCTAGTCACGTTAATTCGCCGTCGGAATTCTGGATTCAACTGGAAACCGCTGCA
CCGGAATTGCAAGCCATGGAATCAGCTATGGTGGACGCCGAGAACTTCCCGGAACTTACG
GAAAAAGAGGAAGGAGTTATATGCGCGGCCAAGTATCCTGAAGATGGAGCGTGGTACAGA
GCACAAGTTATAGTTGATGGTTCAGAAGGAACCGAAGTGTTGTTCATGGACTACGGAAAT
GCTTCTATAGCTAATGAGTTGCGCAGCTTACCAGATGACTTGAAAGTCAAACCGGCGCTG
TCGAGAAAATGCGCCCTTCAAAAACCTAGAGATATTAAATCCTGGTCCCGGAAATCTGAG
GTCAAATTTAATGAACTAGCCGCCGAAGGGGCGACTATATTTAATGTTCAATTCATTGCT
TCCGGAGATATTTCTATAGTGGAACTTTATTTGGAAGGTAAATCTGTCACAGAAGAATTG
GTTGGACTTTGTGAAGAGCATCCTGTCTCCGAAAGACCGACGCCAGTCGGGCAAGATATA
CGAAGCAACGGGAAAATATGCTATGTTAATTCATTAGACGAGTTTTATGTTCAGTTAGAC
GACTCGATGTCTGATCTTGATAAAGTTACAGAGGTCTTAAGTAAAGGTGCCGAATTCGAA
CGCGTCTCCGAACTAAAAGTTGGATCACTATGTGCCGCTCTTTGGGCTGAAGATGGCCAA
TGGTATCGGGGGAAAATTTTAGAGTTTTGTGATGTTGGTTACCATGTACAATTTATAGAC
TATGGCAATAAAGCGAAGTGCGAGGAGTTCAGACTGTTACCTGAGAGTATCGCAGCAATA
GACGCTCTGGCGAAGTGTTGTCGACTAGCAAAGTTTGCGAATGATGCTTCGAATGAATCT
GCCAAGTCTAAACTTGAAGATTTAGTTGCTGAACTAGTAACATTCCAGATAGAATTTTTA
GATAGCCTTAAAGAACCGTCATTAATAAGACTTCTTTTAAATGATACTGATATCAGTTCT
ATTTTAATATCCGAATCTCCGGACATGACGTCTGATAAAGACGGTGACGTAGAAAATAAA
ACCACATTGGTAACAAATAGTCTAGAAAAAAGTGCCGAAGCGAACTGCATTGACAATGAA
AAGGTGTCAGATTTAGATTCCTCACTTAAAGACCTGAACGAAAGCGATAACAGTACTGAT
ACTGTTATCGAAAAGTCCATAGAAAAAAATGATTCGATCGATGAAGATGTAGACAGCAGT
GAAACTTCAACTTTGAAGACAAACGATTCCACTAGCACCCTTGACAACTCGGTAACTACA
AACACACAGGATAAAGTAGAAACTAGCAGTTCACCGAAGGTAGATGAAGATATAAGTGTG
GGTGATATTAAACATCCCTCACCGGCCATAGATGCAGATACTTCTATAGATAAACATGTT
TCAACCGAATAG
Protein sequence:
MAVPTEAPRSFRLYVTHVDGEGHFLKISGQLDQQSSLMIESLFESARENLEKGVGSVPPA
AIHEGVICAAKYKDGTYYRAKIINTTNLATGLVGVHFIDYGNKDIISLSTIRFLDSYDPM
FLQLRGQATDYYLSRVKHLSGRWEEPLLLKLQSLLCYAEYPAVVEAQTRTLPIISIQFKG
NDLSTHLVSNRIGIAIPVPQQESLLLQMMENQHGTVWSPTLLNDAPPFTEHVPFLINQNF
PNPASAMRLNQSMSGPYNGVPISGVGQRIMVNKAARNMINIRAPARQPHLPTSQMPLTST
PPSTIISKPPSPKKSITYKSRLLEVNSQHKVFVSFAEEGPELFAVQLVTDAKKLQDMMDD
INRRPHSSLAEPPMIGTVCLGRMSGDRIICRAIVMNLSGSQCKLFFVDFGDTEMVSYYDI
FDIPEEFVKPNVFAMRFCLSGVKKLEKSPHLVESFKQLVNGKVLTLRVVAPEGPPLIQYG
ELYLDNKNVLDLLMANMKDKLQFKWMEMLTLGSKQSVLVSYVDSCIKFYIQLSDKIDELG
AVMKAVKAHCENSSPPGELPVGAVCCARFPDDNNWYRALVRESKGNKVVVAYVDYGNEQE
VDVDDLRTITPDLITLPAQAMKCALRGFENRPVETKTSNQLEMLALEKTLMAHIAGVLSS
DTMLVSLVDHTVNPPLDVARRMNQLSQPRMNPEQTKPVTPVRKDAPETFSSPEGSIPDDK
KNFRREKSFREERKQKEGEEFGQRGGSFRAREQKDGFERSGPGRHSDKFGAKSERGDRRG
RPREAGPGSTDGEESRQRDRKKPKEQQDKKTWKKETMGVGKRLRQAAEAASVDAQHARNS
QQERLKRYNQDEETDDRSNKSFRPDRRENRGDRRDNWGDKKDNWNQKREFRDNRAERGER
NDREKNGRGGRGDRGGRGGRSNFTPRDRAERSYTGESDKRSERSFRSQDSGNDRSGRAPP
YKTRSKFTQVQYKELSNPLPLETPFTEPSVELNSQQEVSVTWIISPENFFTQILSLQPKF
LEMMHKIPELYKGVKSYTGNVPIGASVLARYPADGVLYRATIVSVQPFSKFIVRYVDFGN
KQLVDAKDIWQMESELMELPKMAVHCSLTGVSPKDCEWKADPEIDLCFNAPRYQCVFQEY
ADDQFKVSLWNNGVSVADMLVEKQLAVLSENLSSVTLKDEPIDLTIIVGQQMLCKVTFVE
SFQKFYVQLDLDKADLVESAIANYNISKLLPLSAENLSEGIHCSVKYEGKVYRAIISDAS
DKDNIKADLPDYGRTITTSLSNIMNLPTEFSVYYYQALQCSLNNYTEKSKTLLSLDELKD
KLSGKKFIIYINGVEDITLVSTLYDPTTGQKIAIFEPDEGAYDAVDQLCTRAVFNYNFGN
AYISYIENLNEFYLQKSLDGDKIAQLLEKLYNFYEKGTPEQLTNFETDGLCAAKSSDGNW
YRATIISSSETDVQVQFSDYGNSESVAKDSVKVLDSSFFEPCCLALVASLGLVALQEDTI
SKLTEWTNEKEVQVTLAFGSDGWLANLHLDGVDLSMKLVNEKLAAPQVNGPEASEDIKTA
VEAPEPISLPEGCTRVYISHIDTPGHFWLQMADKVEKIEEIQAELQANAESYINIDNREM
GTLCIAKYLADDQWYRAEVLDSDSDITTIRFIDYGNTDVLDNQPGLIKTIPEHLKLVDRY
AIKSSVNAVPTGTGQWSEPASDYFTQLVGDISSPVDALIVLKDVTTYVDIYVNGQNLTDK
LVCEGYATRSEEAECGDLPSCFASHVNSPSEFWIQLETAAPELQAMESAMVDAENFPELT
EKEEGVICAAKYPEDGAWYRAQVIVDGSEGTEVLFMDYGNASIANELRSLPDDLKVKPAL
SRKCALQKPRDIKSWSRKSEVKFNELAAEGATIFNVQFIASGDISIVELYLEGKSVTEEL
VGLCEEHPVSERPTPVGQDIRSNGKICYVNSLDEFYVQLDDSMSDLDKVTEVLSKGAEFE
RVSELKVGSLCAALWAEDGQWYRGKILEFCDVGYHVQFIDYGNKAKCEEFRLLPESIAAI
DALAKCCRLAKFANDASNESAKSKLEDLVAELVTFQIEFLDSLKEPSLIRLLLNDTDISS
ILISESPDMTSDKDGDVENKTTLVTNSLEKSAEANCIDNEKVSDLDSSLKDLNESDNSTD
TVIEKSIEKNDSIDEDVDSSETSTLKTNDSTSTLDNSVTTNTQDKVETSSSPKVDEDISV
GDIKHPSPAIDADTSIDKHVSTE