| New model in OGS2.0 | DPOGS203675 |
|---|---|
| Genomic Position | scaffold120:- 328228-338582 |
| See gene structure | |
| CDS Length | 3258 |
| Paired RNAseq reads | 1817 |
| Single RNAseq reads | 4564 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003470 (2e-08) |
| Best Drosophila hit | CG8920, isoform B (6e-21) |
| Best Human hit | tudor domain-containing protein 7 (2e-13) |
| Best NR hit (blastp) | PREDICTED: similar to CG8920-PB, isoform B [Apis mellifera] (4e-121) |
| Best NR hit (blastx) | PREDICTED: similar to CG8920-PB, isoform B [Apis mellifera] (3e-84) |
| GeneOntology terms | GO:0003676 nucleic acid binding |
| InterPro families | IPR018351 Tudor subgroup IPR008191 Maternal tudor protein IPR002999 Tudor domain |
| Orthology group | MCL12887 |
Nucleotide sequence:
ATGGCTGATAAAGAACAGGTAATCCAGGCACTTAGAGCAACACTTCTTTCAGTGAAAGGA
GCTATAACAATAAAACAATGCAACAGAGATTATAGGGAATTGCAAGGGGAATGGATTCCT
TTCAAGAAGTTAGGCTATCCAACCCTCGAAAAATTATTCCAAGATGTTCCCGGGTTTAAA
ATAACTCAAGTGAATGGAGATTGGGTTGTTGATGCTATTGCAAGTCAGGAAACACAACAC
ATTGCTTCTATGGTAGCACGTCAGAAGACAAACAAAAAGCAGATAATCAAATTAAATCAT
ACTAACCGCTTTCCAAAGAAGCAAGGATCTTGGAGAAAGCCAACTCACACATCTAATTAC
ACATCGAGTTACAACAATCAATACTCAAACCAGTATTACAGAGTAAAGACAACACCATTC
AATAACAACAGTTACAATGGAGGCAAGTATTACAAGAATAACAAATCAATTGACTCAAAG
AATAGTTCAATTAGTTCCAAAACATCAACAAAAGGAAGTGAAAATCAGGATAAGCCTGTG
CTAAAGAGTGTTAATTCTTCATCGCAGATCATTCAAAAGTCAAATATAATATCAGATGAT
TATAAACATTCCATAAAAAATGAGAAAGAGACTGATTCAAAACCCAATCGAAAGGTATCT
GCTTCCCAAAGGTTATCAAAGCTATGTGACAGATTGAGTACAGTTGACTTGATACCATTG
CAGCTTCCAGCTCACAATAATTTATTGGATAGTACTGATCCAGTGAGTGTTGCATGTCCT
CCGCCGAAATTAGAGCCACCTCCAGATTCAACAGCTGTGGAGAAATTGGAATGGACTTGT
CGAAAGCTCGGTCTGCCCCCGCCGGTCTATAAAGTTAATGATATACGACCAAAACGAGGA
CCCGTTAGTTATGCCTGTAATATCAAGGTGGGGACATACCATTCCATGTCATATCCGGTG
CTGTCGCCGTCAGAGGAGGCGGCCCGCGAGTTGGCTGCTGTGAATCTTCTGGCGCAGGTT
GAGAGTCTCGAAGCGGGTGGACTGGTGACGGCGAGTGCTGCGTCTGCTGTGGCCGGACTG
ACCGCGCTGGTCGCTGAACATTCCGCCGGGTTACTGGCCAAACATGTTCCTCACCAGTAC
AGGGAAAAACATGGAGAAAATTTGCCAAACAATTGGTTGGAGCTCATAGAGAACTGCCCA
TATATTTTAAAGGATAGGGTGGCAAATGACCTTCTAGTTCTCCTTCCTAATATAGAGGAA
CCTACTTCTCCGCGAGTAGAAAATTTCCACCAGGATAATACTCTCGACACCGACCTACCG
CCATTGCAGTTCCCAGAGGATGATTTCTGGAATGTTTTCATTACTGTAGCAAACTCTACT
TTAGAGGTCTGGCTCAGAATTATCGGACCACAATACAGCGACGCTTTCGAAGTACTTCTA
GTAGATATGGCAACTTATTACGAACATTCTGGAACTACTGTGGATAAATCCATGATAATA
TTAAATGCTTGGTACGCAGTTAATCTGAACGACGGTGGATGGCAACGAGCGAAAATATTA
GAAATCGAAGACGAAACAGCGACCGTGTTCCTGGGAGACCACGGAGACGACGACACAGTT
TATTTTAAGAATATCAAGATCTTAGAGCCTCAGTTTAGGAAATTACCGGCGCAGGCGATC
CTTTGTCGCTTGGAAGGTGCTGAGGAGTTGGCGGCGAGTGAGGCGGGCGCGACGCTGGTG
AGGCGTCGTCTGCCCGGGGAGGTGTTGGTGGCGGCGCCCGGCCCCCGCCGCGACCCCACC
GACCCCTCGGTGGCCGTCGTCCTCTACGACACCTCCACACCCAGGGATCTCAACCTTAAT
AAAGAGATCGTACACGATTTCGCCATTTCCGGCGCGTTTACACTTACTCAGAAGCTGTGT
GAGGTTGAGGTGGGTTGTGTGACGGAGGAGGGTCGCGTGTGGGTCTCTCGTGCGGGCGGG
GCGGAGGCTGTCAGAGCAGCTCTCGCGCTGCTCACCTCCGGACCTTACCGCCGCCCTCTG
CCGGCTGCACCACACGCTCCCCCCACGACACCTAACGCTCTATATATCGTGCGCACTCTA
GCTGGTGACTGGGTGCGTTGCATCATTATCAGTGGTCTAGACGGTGAGGGCACGGTTCGC
ACTCAGCTGGTCGACAGCGGTCTGATCCTCCGTGCTCCACTCTCTTCCCTTGTACCGCTT
CAGGCCTTCTCACCCGCCCTCAATGAGTACCCCTACCAGGCGAAGCAGGTCCGGCTGGGT
CCGGCGGAGCGTGCGGCCGGCAGTATGGTGTCCCGCTTGCGAGACATGCTGCTGGGAGCG
AGCGTGTTGTGCCGCGCGCTGCCCGCCTCCGCCCCCTCCCCCGGCTCCCCGCCCAACGTG
GAGCTGTACGCGCGCTGGGGACCCCAACACATGCTGGCCTCGGTCAACGACGGCATACTC
ATGGAGTACGAGCTGATACAACTAGGAAAACTAGAAGAGAAAAAGGAGGGTGATACAACG
AACCATTTGGAAGCTTTGCACAGGAAGAAAGAGCGTATCTTCGGTACGGGTTCTACGGGG
GATGGAGGGGGGGCGGCGGGCGGGGCGGAGGCTGTACGGAACTCCTTGCCATCGCCGCAG
CTGCCCGCTAAAGGGACCTGCATCGATGTGTACGTCGCTATGGCCGCCAACCCGTGGAAC
TTCGTGGTTCAGCCAAACGTCACCAGAAAAATGCTACAAACAATGATGTCTTCATTGCAA
GTGGAATGCCCAAAGCTGTCGGAAAGTGATGCTCCTACGAGTCCCGTCAGTGGTGAACTG
TACACGGCCTTCTACGATAAAGACGACACGTGGTATAGGGTAACTATAGCCGGTTCTGTG
TCCTCTGAGATGGTGTCTGTGTATTTCTGTGATTTCGGTGATCTGGCTTTGTTTGCGAAC
GAGTCGCTTCGTCCTGTGCCGGCCTCGGTGCCTCTAGCGCGATCCTTGCCACCGCAGGCT
ATCAAGGCTCGGCTTTACGATGTAAAGCCTTTGCATCAGGACTGGACAGTGGAAGACTGT
ATCAGATTCCAGGAACTATGTGTGGAGCAACAGTTTGTTGGTGTGTGTAAGGATGTTGGC
AAGGACCCTTTGAATCCGACCGAACCGCTGGTCACCCTCGACCTGATAGATACCTCTACT
GATGAAGACATTTATTTGAACAAGCAGTTGGTTGCTGAGGGAAGGGCTCGTTTAGCTTCC
GTTTCCTCTACGAAATAA
Protein sequence:
MADKEQVIQALRATLLSVKGAITIKQCNRDYRELQGEWIPFKKLGYPTLEKLFQDVPGFK
ITQVNGDWVVDAIASQETQHIASMVARQKTNKKQIIKLNHTNRFPKKQGSWRKPTHTSNY
TSSYNNQYSNQYYRVKTTPFNNNSYNGGKYYKNNKSIDSKNSSISSKTSTKGSENQDKPV
LKSVNSSSQIIQKSNIISDDYKHSIKNEKETDSKPNRKVSASQRLSKLCDRLSTVDLIPL
QLPAHNNLLDSTDPVSVACPPPKLEPPPDSTAVEKLEWTCRKLGLPPPVYKVNDIRPKRG
PVSYACNIKVGTYHSMSYPVLSPSEEAARELAAVNLLAQVESLEAGGLVTASAASAVAGL
TALVAEHSAGLLAKHVPHQYREKHGENLPNNWLELIENCPYILKDRVANDLLVLLPNIEE
PTSPRVENFHQDNTLDTDLPPLQFPEDDFWNVFITVANSTLEVWLRIIGPQYSDAFEVLL
VDMATYYEHSGTTVDKSMIILNAWYAVNLNDGGWQRAKILEIEDETATVFLGDHGDDDTV
YFKNIKILEPQFRKLPAQAILCRLEGAEELAASEAGATLVRRRLPGEVLVAAPGPRRDPT
DPSVAVVLYDTSTPRDLNLNKEIVHDFAISGAFTLTQKLCEVEVGCVTEEGRVWVSRAGG
AEAVRAALALLTSGPYRRPLPAAPHAPPTTPNALYIVRTLAGDWVRCIIISGLDGEGTVR
TQLVDSGLILRAPLSSLVPLQAFSPALNEYPYQAKQVRLGPAERAAGSMVSRLRDMLLGA
SVLCRALPASAPSPGSPPNVELYARWGPQHMLASVNDGILMEYELIQLGKLEEKKEGDTT
NHLEALHRKKERIFGTGSTGDGGGAAGGAEAVRNSLPSPQLPAKGTCIDVYVAMAANPWN
FVVQPNVTRKMLQTMMSSLQVECPKLSESDAPTSPVSGELYTAFYDKDDTWYRVTIAGSV
SSEMVSVYFCDFGDLALFANESLRPVPASVPLARSLPPQAIKARLYDVKPLHQDWTVEDC
IRFQELCVEQQFVGVCKDVGKDPLNPTEPLVTLDLIDTSTDEDIYLNKQLVAEGRARLAS
VSSTK