| New model in OGS2.0 | DPOGS210896 |
|---|---|
| Genomic Position | scaffold70:- 99730-105693 |
| See gene structure | |
| CDS Length | 2913 |
| Paired RNAseq reads | 504 |
| Single RNAseq reads | 1152 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003775 (2e-173) |
| Best Drosophila hit | lethal (3) 70Da (2e-80) |
| Best Human hit | peroxisome biogenesis factor 1 (8e-71) |
| Best NR hit (blastp) | PREDICTED: similar to lethal (3) 70Da CG6760-PA [Apis mellifera] (3e-97) |
| Best NR hit (blastx) | AGAP010924-PA [Anopheles gambiae str. PEST] (1e-96) |
| GeneOntology terms | GO:0042623 ATPase activity, coupled GO:0007031 peroxisome organization GO:0005777 peroxisome GO:0005515 protein binding GO:0005524 ATP binding GO:0048137 spermatocyte division |
| InterPro families | IPR003959 ATPase, AAA-type, core IPR015342 Peroxisome biogenesis factor 1, N-terminal IPR003593 ATPase, AAA+ type, core |
| Orthology group | MCL12949 |
Nucleotide sequence:
ATGTTGGGGGGAAACAAATTAAAAGTATCATTTACACATGAAAGATCTTGTTTCGGATAT
ATTAGTACTAAACATAGTACGAACAATGAACAGTCACAATGTGTGCAAGTATTGTATAGA
GAGAAACAAATATTTCTCTGGGCAGTATTCAACAGTAATATTCCAGAGGGTAACATAGCG
TGTAATCCTGTCTTCAGTAAAGTTGTTGGGTTAGACGAGGGTGTGGAGGTGTTTGTGGCT
CCGTATGGAGACGTTAAGGTTCTAGACCAGTTGTACATTGACACCGATAGCCCCGATGAC
CAGGAAATACTCGAACACAATGTGGAGGTTTTGCAATTAAGGATTTTAGACCAATTAAGG
CTTGTGGCTGCTGATCAGAAGGCTGTTGTGTGGATATCTACATCTATGCCTATCGTTTTC
ACTCCAAAGACGACCGGTCTACTGGTCAATCATAGCAGAATCATTGTCAAAATAGATGCT
TTCAACAGTCTCGGTAGTGACTTTAGTAATCAGGGGGCGGCAACAAAGGGATCACACCAA
AAATATAATAACATAGGTATTATCAACGATGGTCTTCTCAGTCCATACTTAAATCCACAA
AACAGATTAATATTAAGAGCTCTGCCTATAGAGGGCGACGGGAAGAAAAATTTAATACAT
CCCTATACTGTGTTCATACATGAAGACTTGATTGATGAAAGTTATAAAGATTTAATGGTG
ATCCTGGCCACTATGAACCACATTCCATCGGTGTTGCAAGAAGATGAGGTTGAATCCCAT
AAAATAGACGGCATTTGTGTGGAAATAGTCACCATAGACAATACGGTCTTCAGAAGTCTC
TGTAGAGAGGTTTACAATGAAAATATACCGACTGTACTCATACCGAAGTCACTGAACGTT
ATAATAAATGTTGAGATGGGTGTGAAGCTAATTTTTAACATAATCGGTGATAAAGTAGAG
CTTCCCGATCACGTGGACATCATAACGTACTCGGAGAAAACTCAAACGGAGATTGATGTT
ATAGAAAAGTTTAAGAAGTGTGTCGTCGAAAACACACACTCCGGTAAAATGTTCCTCATA
AATGACGGCATGGTGAAGCAGAACACACACATCAGTCACGGGTTTCTGAGGTTCAAGTTG
CAACCTGAAAGGTTAAAATACACTATGCTGAACTCAGAGTCGTTTAGGAACTGCAGTGTG
GCCGCCAAATGCTTGACTGATGCAGACTTCGACTGTCCCAAGAAAGTAACACATCAACTA
GAATATGACTTTAAGAATTATTGTCGCAGTATAAAGTCAAGTCAGGAGCTGGTTGATGAT
ATCCTGTCACACATACATTTTGAGATACAAAGGGAGGCGAGTTTCAAAGGGGTATCGGAG
ATCAAGAGCAATGTCCTTATAACCGGTTCAAGCGGCGCGGGAAAGTCTGCTATATGTCAT
ATAGTACAAAAAGAATTAACTCTCTGGTCCCACATACTACACTGCCGGGCGCTCAAAGGC
CGGAAGGACGTCACTGAAGTCATAGGGAAAGCTATACTGATGTGTCAGGAACATAGTCCA
TCAGTGCTGATATGTGACGACCTCGATGCTTTAATACCGCCGAACACAGAGGGCGCCTCC
CCACAAGACATCGCATACTATCAGAGATTGGCGTCGTGTATTAAACAGATGTTACAGTCT
TGTTCGTCTGTGTGCGTGTTGATGACGTCACTCAGTCTGAGGTCGTTGCACCCGGTCCTG
AGACAGTTCAGCGGGCGACCCCTGTTCACGGCACACTTTGACATACCGCAGATGAATCAG
GATGATAGAATAGAAGTTTTCAAACACTTACTGAATGATAAAATCCGCGAGTCGGTGCTG
GTGGAGGAGCAGGACGTGGCGACCCTGGCCACCGACACGGCCGGCTGTAACGTCCGGGAG
ATACTGGAGTACTTCAATAAGAGAATATTCAAGGCCGTCAAGAATAAGTCCAAGCCGTCA
GACAGGCCGCGTCTAATAGCCGACATATCCAAGGAGCTGGAGAAGGCGAACACCTTCGAT
ATATGGGGTTCTGTGGGGGGGATGCACGACGTGAAGAGACAGATCACTGAGGCCATATTC
TGGCCAATCATGTACCCGAGTCTGTTCCCATCATCTTCATGTGGCATCTTGCTGTATGGG
CCTCCGGGGTCGGGGAAGTCGCTGATAGGATCCTGCTTGTCCTCGTTGACCAACATGAGG
GTCCTCACAGTCAAGGGACCGGAATTACTGTCTAAATACATCGGGCAAAGCGAGAAGGCT
GTCCGGGATATATTCGATAAAGCGGACATGCAGCGTCCCTGTATCCTGTTCTTCGACGAG
TTCGACAGTCTGGCGCCCAAACGCGGCCACGACTCCACGGGTGTGACGGACCGCGTGGTG
AACCAGCTGCTGTCTCGGCTGGACGGGGCGGAGGGCGGCGCGCGCGGGCCCGTGCTGGCG
GCCACCTCGCGCCCGGACCTGGTGGACCCGGCGCTGCTGCGGCCCGGCCGGCTCATGCTG
CACCTGTACTGTGGCCTGCCCGACCAGGCCGACCGTGTGGAGGTGCTCCGGTGCCTGTCG
AGGAGCGTGTGCCTGTCCCGGGAGGTGGATCTGTCGTGGCTGTCGTGTCGTACTGAAGGC
TACTCCGCCGCCGACCTCAAGTCCCTGCTAGTGACGGCGCAGCTCACCAGGCTCGAGAAG
CAATTGGCCGCGAGCGACGACAAAACCTTGGAGTCGGTGGTAGTGTTGAAGGAGGACGTA
GAGGACGCGCTCCGGGAGACTTCGCCCTCGCTGTCACCAGAACAGAGGCTGTTCTATGAC
ACTATCTACCGTCGTTTCCGCGGGGAGCCGCTCTCCCCGCAACAGACGCGCCTGCAGCAT
CGCCTCGACCGCCAGAGAGTCACACTCGCCTGA
Protein sequence:
MLGGNKLKVSFTHERSCFGYISTKHSTNNEQSQCVQVLYREKQIFLWAVFNSNIPEGNIA
CNPVFSKVVGLDEGVEVFVAPYGDVKVLDQLYIDTDSPDDQEILEHNVEVLQLRILDQLR
LVAADQKAVVWISTSMPIVFTPKTTGLLVNHSRIIVKIDAFNSLGSDFSNQGAATKGSHQ
KYNNIGIINDGLLSPYLNPQNRLILRALPIEGDGKKNLIHPYTVFIHEDLIDESYKDLMV
ILATMNHIPSVLQEDEVESHKIDGICVEIVTIDNTVFRSLCREVYNENIPTVLIPKSLNV
IINVEMGVKLIFNIIGDKVELPDHVDIITYSEKTQTEIDVIEKFKKCVVENTHSGKMFLI
NDGMVKQNTHISHGFLRFKLQPERLKYTMLNSESFRNCSVAAKCLTDADFDCPKKVTHQL
EYDFKNYCRSIKSSQELVDDILSHIHFEIQREASFKGVSEIKSNVLITGSSGAGKSAICH
IVQKELTLWSHILHCRALKGRKDVTEVIGKAILMCQEHSPSVLICDDLDALIPPNTEGAS
PQDIAYYQRLASCIKQMLQSCSSVCVLMTSLSLRSLHPVLRQFSGRPLFTAHFDIPQMNQ
DDRIEVFKHLLNDKIRESVLVEEQDVATLATDTAGCNVREILEYFNKRIFKAVKNKSKPS
DRPRLIADISKELEKANTFDIWGSVGGMHDVKRQITEAIFWPIMYPSLFPSSSCGILLYG
PPGSGKSLIGSCLSSLTNMRVLTVKGPELLSKYIGQSEKAVRDIFDKADMQRPCILFFDE
FDSLAPKRGHDSTGVTDRVVNQLLSRLDGAEGGARGPVLAATSRPDLVDPALLRPGRLML
HLYCGLPDQADRVEVLRCLSRSVCLSREVDLSWLSCRTEGYSAADLKSLLVTAQLTRLEK
QLAASDDKTLESVVVLKEDVEDALRETSPSLSPEQRLFYDTIYRRFRGEPLSPQQTRLQH
RLDRQRVTLA