New model in OGS2.0 | DPOGS201248  |
---|---|
Genomic Position | scaffold1419:+ 20738-29091 |
See gene structure | |
CDS Length | 3210 |
Paired RNAseq reads   | 4840 |
Single RNAseq reads   | 11794 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA012470 (3e-16) |
Best Drosophila hit   | ND |
Best Human hit | cell division cycle and apoptosis regulator protein 1 (4e-67) |
Best NR hit (blastp)   | PREDICTED: similar to Ccar1 protein [Nasonia vitripennis] (4e-160) |
Best NR hit (blastx)   | PREDICTED: similar to cell division cycle and apoptosis regulator 1 [Apis mellifera] (2e-122) |
GeneOntology terms    | GO:0045449 regulation of transcription GO:0043065 positive regulation of apoptosis GO:0006915 apoptosis GO:0005737 cytoplasm GO:0006350 transcription GO:0007049 cell cycle GO:0003676 nucleic acid binding GO:0003674 molecular_function GO:0005641 nuclear envelope lumen |
InterPro families   | IPR003034 DNA-binding SAP |
Orthology group | MCL15003 |
Nucleotide sequence:
ATGCAGACTGGTGGTGGAGCTAAAAATCCGCCATGGGCACGATCAAATGTGAATACAAAC
ATGACCGGCATGAATCCACAAATAATGGATCCGAATGCCGCTATGATGTCACAGCAAGGT
ATGATGCCATTCCAACAAACTCAAGCTGTATTTAATCCCAGTATGATGCAGGCACAAGGA
GGCATGGCTATGCCAATGCCCGGACAAATGCCAATGAATCAAATGGCACAAGGTCAGATG
TATCCAGGTAATGTTGTTGCCTACCCCACGCCACGAGCTATGAATCCTAACATGTATCAG
AACAGTACACCGAACCAGAATCAGCAATCAAATGAACAGCGGGTCTTCACGGGCACTGTA
ACAAAGACTCATAACGATTTCGGCTTTGTTGATCACGATGTTTTCTATCAAACATCGGTT
TGTGCAAAAGGCGCTATACCAAAAGTAAACGATAGAGTACTCGTCGAAGCCACCTACAAT
CCTAATATGCCTTTTAAATGGAATGCAACTCGAGTACAAGTGCTCCCAAAGGGGGGACCT
AACCAAAAAATGAACCAACCTAAGTCAAACAATTACAACGCAGTTCCACCTCCTTCCAAC
AAAAAGTCAAACATCATATCAAGACGAGACGATCGTCGGGATGATCGTAGTTCGCGAAGA
GATGACCGGAAAAGATCCCGGACAAGGAGTCGATCTCGTTCACGTGATCGTCGTGATAGT
CGTAATAGGAGGGACTCGCCTCCTCGCAAGAGACCTGTGATACACCAACCATCTCCTGTC
AAATATGTAGTCCGAGTACCGAGAATGCCCCTCGATATATCAAACCTCGATGTCCCAACC
TTATCACAGAGGTACAGCAATCTCTATATACCGTCAGATTTCTTCAATGCATATGTCAAA
TGGGGGGAGACGTTCCCGCCACAGTCACCGTTTTCTTTAAACAATCCATGTGCATACCAC
ATAATGAGCAAAGATGTTCCAAATCCCAACCCAAATGAGGCTGTCTTGGAGCCCCCCGAT
GCTGATTACAGATTTTCAGCTAAGGTGATGCTTATAAGCATGCCATCTCTAGAGACACTC
TATCAAAAGTGTGGACTCACAAAAGTAGACGAGAAAGACAAACGGACGAGCTCAAAAACG
CCACTTCATCCAACTCGCCTTATAAAGTTCCTCGTGGGGCAGAAGGGTAAAGGGGGGGAG
AACTTCGCTATAGGCGGGCCGTGGAGCCCCTCGCTAGACGGAGAACATCCGGAGACAGAC
CCCGGCGTGCTGGTGAAGACGGCTATCAGAACATGCAAGGCTCTGACCGGCGTAGACTTG
TCGAACTGCACCCAGTGGTACCGCGTGGTGGAGTTTTACTACTGGCGGGAGGGCGGCGGC
AGGTCGCGACTCGAGTGTGTGGTGTTGTTCCTGCCGGACGTGTGGTCGGCTCGGCCGTCG
CGCGTCGAGTGGACCACGGTGCAGGACCAGTATAAGGCGGCCCGCGACGCGGCGCTGCGC
CGGCTCCTCGGCGGGGAGTCCCCGCGCCGCTCCGACGACTCGCCGGACCGATCACCAATT
GAAAATTTGGATGCGAACGCTAGCACTATAACAATAGACGAGAATGATGACGATGACGAC
TGCAAGCCCGAAGCCACGCATTACTCCAACATTGATCTGAGGACCATAAAGGTTGACCAG
CTGCGACAGGAATTACGGGCGCGGAATGTCAGCTGTAAAGGGCTCCGATCACAGTTAGTT
TCACGACTATCAAAACTAATAAAGGCTGAAGAAGAGAAAGATACTAAGAACGAGGATGTC
ATGGAAGTGGTGGACGATGAACAGGAGGACAAGAAAGACACTACAGACACGGTCGAGATT
ACAGATGACACGACTAATGATAAAGAGAAGCCAGTTGAAGATAAAATAGAGAAAAACGAT
GCCAATGACTCAAAACCAAATGATAAAAGTAAAGACGGCGAGAGCAAAGAGAGTGACGGC
GTGAGCGAGGAGAGAAAGGACAGACCGAAAACGGAGAAGGAGATTGAAGAGGAGAAGAAA
AGATTGGAGCGCGAGCGGCAGTCGCTGATGACGCGCTACGAGCTGCCGGCGTCTCCGCAT
GTGGTGGTGCACGCGTCGGGCTCGGCGCGCGCGGGCCGCTTCGCGTGCAGTGTGGCCTCA
CTGTCACTGTTGTTGGACTACAGAGTCACGGACAACAAGGAACACAGCTTTGAGTTGTTC
GTGTTCGCGGAGCTCTTTAATGAGATGTTAATGCGCGATTTCGGTTTCTACGTGTACAAA
ACTCTGTACACGTTACCGGAGAAGGCTGAGGAAGCTAAAGACAAAGACAGAGATAAAGAT
AAAAGTGTAGAAAAGACTGACAAGAAAGAAGAAAAGAAGACGGAGCCGGAGAAGAAAGAC
GACAAGAAAGAAGATAAGAAAGATGACAAACGTGATGCACGACGCAGTCACAAGAAGGAA
TGTATGAGTGATGAAGAGCGCGGTTGGTCTCCTCGCTACCGCGGCGGCCGGGGGGTGGAG
CTTCCCCCCGACCCGTACCTACTCCTGTCCCTGGCTTACTTCGACACCGCCCGCGCCGGC
GTCATCTCCAAGAAAGACCTCCAGAGCCTGTTTGTGAGCCTGGGACTACAGCTGTCACGA
TCACAGATCAGGACCGTATTAGATAAAGTCTGCATCAGAGATAACTTCAGCTACAAAACT
CTCATCCAAGCCATCAAAGACCTGGCCTCCGGAGCGCCTGAAGCCATACAGGACTTGCCT
CTGGACAGTACTATTGACAGCAACGAAGTTCCACCACACATCGCAGAACTCGAGGCGACC
ATAGCGGCCGGCAACAGGGAACTGCTGCCCATGTTCAACAGAGACGGCGGCGCGGGCGGC
GGCGGCACCAGGGACGTGTCCGACAACGGTATGGTGCTGTACAAGGGTCGCGTGGCGAGT
TCTAAAATCTTCCATTCGGCGTTGAAGAGTATACAGACCAAGGTGGAGGCGGTGGTTAAC
ATCAAGTACGAGGACGATGACGTCGTGGAGGTCGTGAACGGGCCTTCCAAAGAGGAGAAT
GTTACAAAGGAAGAAAAGTCTGAACCTGGAACAGAGGAAAGGAAGGAAAACAAAAGTGAT
GTTAAAAACGAGGAACTCATTAAGATAGATGACGCGAGAGACGCCAAGGACAGCGACGCG
GCCGACAACATGGACATAGACAGGGAGTAG
Protein sequence:
MQTGGGAKNPPWARSNVNTNMTGMNPQIMDPNAAMMSQQGMMPFQQTQAVFNPSMMQAQG
GMAMPMPGQMPMNQMAQGQMYPGNVVAYPTPRAMNPNMYQNSTPNQNQQSNEQRVFTGTV
TKTHNDFGFVDHDVFYQTSVCAKGAIPKVNDRVLVEATYNPNMPFKWNATRVQVLPKGGP
NQKMNQPKSNNYNAVPPPSNKKSNIISRRDDRRDDRSSRRDDRKRSRTRSRSRSRDRRDS
RNRRDSPPRKRPVIHQPSPVKYVVRVPRMPLDISNLDVPTLSQRYSNLYIPSDFFNAYVK
WGETFPPQSPFSLNNPCAYHIMSKDVPNPNPNEAVLEPPDADYRFSAKVMLISMPSLETL
YQKCGLTKVDEKDKRTSSKTPLHPTRLIKFLVGQKGKGGENFAIGGPWSPSLDGEHPETD
PGVLVKTAIRTCKALTGVDLSNCTQWYRVVEFYYWREGGGRSRLECVVLFLPDVWSARPS
RVEWTTVQDQYKAARDAALRRLLGGESPRRSDDSPDRSPIENLDANASTITIDENDDDDD
CKPEATHYSNIDLRTIKVDQLRQELRARNVSCKGLRSQLVSRLSKLIKAEEEKDTKNEDV
MEVVDDEQEDKKDTTDTVEITDDTTNDKEKPVEDKIEKNDANDSKPNDKSKDGESKESDG
VSEERKDRPKTEKEIEEEKKRLERERQSLMTRYELPASPHVVVHASGSARAGRFACSVAS
LSLLLDYRVTDNKEHSFELFVFAELFNEMLMRDFGFYVYKTLYTLPEKAEEAKDKDRDKD
KSVEKTDKKEEKKTEPEKKDDKKEDKKDDKRDARRSHKKECMSDEERGWSPRYRGGRGVE
LPPDPYLLLSLAYFDTARAGVISKKDLQSLFVSLGLQLSRSQIRTVLDKVCIRDNFSYKT
LIQAIKDLASGAPEAIQDLPLDSTIDSNEVPPHIAELEATIAAGNRELLPMFNRDGGAGG
GGTRDVSDNGMVLYKGRVASSKIFHSALKSIQTKVEAVVNIKYEDDDVVEVVNGPSKEEN
VTKEEKSEPGTEERKENKSDVKNEELIKIDDARDAKDSDAADNMDIDRE