| New model in OGS2.0 | DPOGS215128 |
|---|---|
| Genomic Position | scaffold4131:+ 362-9811 |
| See gene structure | |
| CDS Length | 2010 |
| Paired RNAseq reads | 724 |
| Single RNAseq reads | 2225 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001675 (5e-101) |
| Best Drosophila hit | ND |
| Best Human hit | ND |
| Best NR hit (blastp) | PREDICTED: similar to GA18420-PA [Nasonia vitripennis] (8e-13) |
| Best NR hit (blastx) | PREDICTED: similar to GA18420-PA [Nasonia vitripennis] (4e-12) |
| GeneOntology terms | ND |
| InterPro families | IPR008191 Maternal tudor protein IPR002999 Tudor domain IPR018351 Tudor subgroup |
| Orthology group | MCL22721 |
Nucleotide sequence:
ATGTATTTACAACCTAAGTCTGAATATTTCTCATACCCTTGTTCTACTACCTCTGAGTTG
AAAGTCAAGGAGACTGTTAATGCTGGTGAACCTGATACATCAACTCCCGCCCCTCTCCGT
CAGCCTCACTCGTCCAACAGGAGGGATTATAAGGCTGATGTCAATAATAAAACCAAAAAG
AATTTCAACCAAAAGCAAACGAGGAACAACGGTAGCTTCCAGAATAAAAACATGAGACGT
CCTGGTAGACGTGACGATGATGAAGAAAGTCCAGAACATGCAGGAAACAAACGAGACGAA
ACAATCAATCACATATCCAACAAGTTAAATACCAAACCGGAAACCAAGCAGGAAACCAAA
CCGAAACCAGATGACAAACCAAGAGATAAGGAACCGCCGAAACCTCCGGCCAGTTTACAA
GATGTCACCCCAAAGACCAGGACTGTTGTGCCTAAAGAATATCTGCTGGATAAGTTATCC
TTGAATGAGACAGTGTTACTGTCAGTGGAATCTGAGGCGGACGGTGGGTTCATATGTCTG
ACTCTACACGAAGCCAACGAACACGACTACCAACTGCTGTGTGGACAGTTTGGAGAGGAG
TGTGAGGGACGAGAGGCGGTGTTTCCGAGAGCGGGTGATCTGTTCGCGTTGTATTACTCG
GAGGAACGCGCGTGGTACAGAGCTCGGCGCCTGTCAGGTGATCGTGTCGCACTAATAGAC
TGCAGCAGGGTGGTAAATGTGACCACCAACGACAGAATGGTAGACTTACCACCGAAATAC
CTTCAAGTACCGGAGTGCTGCTGTCAGCTTAACGCGAGAGTACAGGTGGGCGATAATCTG
AAGTGCACGTTGGTGTCGAAGACTAGTGACGGCTTCAAAGTATCATTACGGAATGCGGAA
ACGGATGCTGCTATTGGGGATGGGGAAGTGACCAGGTGGAGACCAGCCGTACAGTATGAA
GTCGATAAAACGCCTGCATCCATACCGGAAGTGCCACGACCATCCTTATCAAATATGGCA
GCCGTCTTCCTAGTGCAGAATACAGGTCTTGATATGTTTGTTCGTCCCGCGGAATCCAGG
CTCCGAGGTGTCTTTGAGAGAATTATACAGGACGGAGTGGCAGCTGGGATGAAAGCTCTG
CCTCTAAACGACCCGCCCCGAGCCGGCCAAACGGTGCTCTGCCAACACACGGACGGCCAC
TACTACCGCGGCCTCTGTAAGAGAACTAACTTCAAGAGGAACAAGTACATGATCGAGTTT
ATAGAATACGGCAACACCGTCATCAGTGAGTTAGAGAAGCTGTCTCCGTGTCCTGAAGAG
TTGGACGTAAAGAATACACCGACACCGGTGGCACTCGTCAGACTAGATATGGAGACTGTT
CTGAATGAGAAGGGACAGCAGTACTTGGAGAAGATTAGGGATGATGAAGTGGAGCTGGTA
GTGAACTCAAAGGATAAATCTGTGGTCATCCAAAGCGGTTCTGTAGTTGAGCTGGTCGAG
ATGAAATCGAAGGAATCTGTAACCAGAAAATTGGAGATGCTGTGCTCACCGGAGTGGAAG
AAGATTGAACAAAATGGAGGGGATGTTATTGAAGCCTATGTGAAGAGTGATCTCGGTAAA
GATCCCTATCTACCTAAGATTGAGGAGCTCTGCCTGGCGCCTTGTCCACCATATCCTCAG
TACTTCAGGGCAGTGTTGTGCAATCATACAGCCGGTTCCAGCGAGGCGACCGTCTGCTAC
GTGGACTACAACAACGTAGACACTGTCGAGGTCAAGGCGCTCAGGAAGATGATGAGGGAG
TTCACGAACACGCCCGCACTGGCCTGCCACGCCGAGATCAGAGGTTTTCCCGCCAACCCA
TCCGACAGCCAGCTGGCGCGGGCGTTGCAGTACATGAAGATAGATGACCAGGGCCGAGGG
CAACTCACAGTGGAGAAGTGCGAGAAAGTAGATCCCGGCTTCTATATAGTGGAAGCGCCG
GGTCTACTGGCTGCTATGATGCAGTCATAG
Protein sequence:
MYLQPKSEYFSYPCSTTSELKVKETVNAGEPDTSTPAPLRQPHSSNRRDYKADVNNKTKK
NFNQKQTRNNGSFQNKNMRRPGRRDDDEESPEHAGNKRDETINHISNKLNTKPETKQETK
PKPDDKPRDKEPPKPPASLQDVTPKTRTVVPKEYLLDKLSLNETVLLSVESEADGGFICL
TLHEANEHDYQLLCGQFGEECEGREAVFPRAGDLFALYYSEERAWYRARRLSGDRVALID
CSRVVNVTTNDRMVDLPPKYLQVPECCCQLNARVQVGDNLKCTLVSKTSDGFKVSLRNAE
TDAAIGDGEVTRWRPAVQYEVDKTPASIPEVPRPSLSNMAAVFLVQNTGLDMFVRPAESR
LRGVFERIIQDGVAAGMKALPLNDPPRAGQTVLCQHTDGHYYRGLCKRTNFKRNKYMIEF
IEYGNTVISELEKLSPCPEELDVKNTPTPVALVRLDMETVLNEKGQQYLEKIRDDEVELV
VNSKDKSVVIQSGSVVELVEMKSKESVTRKLEMLCSPEWKKIEQNGGDVIEAYVKSDLGK
DPYLPKIEELCLAPCPPYPQYFRAVLCNHTAGSSEATVCYVDYNNVDTVEVKALRKMMRE
FTNTPALACHAEIRGFPANPSDSQLARALQYMKIDDQGRGQLTVEKCEKVDPGFYIVEAP
GLLAAMMQS