New model in OGS2.0 | DPOGS206412  |
---|---|
Genomic Position | scaffold303:- 66066-74829 |
See gene structure | |
CDS Length | 2646 |
Paired RNAseq reads   | 1887 |
Single RNAseq reads   | 4615 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA013873 (5e-62) |
Best Drosophila hit   | CG9416 (5e-46) |
Best Human hit | endoplasmic reticulum metallopeptidase 1 (2e-54) |
Best NR hit (blastp)   | GH21200 [Drosophila grimshawi] (6e-73) |
Best NR hit (blastx)   | PREDICTED: endoplasmic reticulum metallopeptidase 1 [Sus scrofa] (1e-61) |
GeneOntology terms    | GO:0001541 ovarian follicle development GO:0003674 molecular_function GO:0005783 endoplasmic reticulum GO:0005789 endoplasmic reticulum membrane GO:0006508 proteolysis GO:0008233 peptidase activity GO:0008237 metallopeptidase activity GO:0016020 membrane GO:0016021 integral to membrane GO:0046872 metal ion binding |
InterPro families   | IPR007484 Peptidase M28 |
Orthology group | MCL10092 |
Nucleotide sequence:
ATGACTTCGAGATTTAAAATCGAATGTGACCTTCCAACTACCAGGGACGATCATGAGGAA
AAACCTTCACACTCAGTGCCAAGTTTTTGCATATTATTTCTACTCGGTTTCTACATGCTG
CTGGGTTTTATAACAGGGGTCATACAGAATGATATGCCGTCGGCCATACATGAAAAGGAC
ATTCCAAAAGATGATTGGAAGACGTTCAGCGAGGAGACAGCTGTCAAATATCTATATAGG
ATACTCGGTGATCAAGCCCGGGTATCTGGTACTGTTTATCACTTCGTCAAAACGAGAGAT
CTGAAATGGCTCTTAGAAGAAGTTACAGCAAATTCAAATTTACCTGTTCACATTGACTGG
CAATATGTATCAGGTAACTATTGGTTGGAGTTTGACCCGCCGTATGTCAACTCATATGAC
AACGTGTCGAACATTATCGCGGTGCTGGAAGGGGAGAGCGGGGTGAAGGAGGGTAGTATT
GGAACATCCATATTAGTCAACTGTCACTACGATTCCGTACCTTTCGCCATAGGTGCGTCT
GATAATGGGATTTTTTGTTCCGCAATGGTCGAGATCTTGGGCAAACTATCCAGAAGAAAA
GAGAAATTCAAACAGAATATAATCTTTTTATTCAACGGCGCTGAAGAGAATGTCTTGATG
GGTAGTCACGGCTTTTTAAAACATCCCTGGGCCAGTAATATAAGTGCTGTCATAAATCTG
GACTCAGCGGGTATGAACGGTAGACCGAGTGTTTTTCAAGTAACAAACCCTAATATTCTC
AACCCCTACAGTAAAACCCCTAGGCCAACAGCGCAGGCTGTGGGTCAATTCTTGTTTCAA
AGCGGCATAATACCTTCAGACACAGACTTCAGGATATGGAGAGACTTCGGCAATATTACC
GGTTTGGACATAGCCTTCACGGAGAGCGGTCATGTGTACCACACGCGGTATGACAGGCCG
CAGCTGATACAGGCCGGGGTCATACAGCACGCGGGGGACATGCTGATGACGCTGGTGGGG
GGACTCGCCGACCAGGCGCACGCGCACGAACAGGACAGATCGTCATCCGTGTACTATGAC
TACTTGAGCTTGTTCTTAGTATCGTACAGTGAGAGAGTCTCTCAGATCATAGACGGCGTG
GTGGGCGCGCTCGGACTGCTCAGCGTCGTGTACTACATGTGGCTGTTCGGACTGAGATGG
TCCGTGTTCAGGGATCTGTTGTGTTCCTTGGCCGGCAGACTAATTTGTATCGTTGCTGGC
GTACTAACAGTTGTATTATTGACACTGGCAACAATATTACTTGATATGGGTGTTGCCAGA
TACATGCAACTGAGATACTTATCATATAAGTGGCTGGTGGTGCCGCTGTATTGGCTGCCG
TATTTCACTTGCTATATATTAGTCTCATTTCTATATGATGGTCGTTGCAACAACAAAGTG
AATCGTTCAATAAAGAGCTTGCAAGCTATGGCAGCCACCCGTCTTCTCCTGTCCGTCTTG
CTGCTGGTGCTGGTCGCTTTACCGTCTTTGTCGAAAGTGCGTTATGTGATAACGGTGATA
GTGTTGATGACGTCAGCGAGCTCTTTCATCACAATGACGATGGTGAGGAGATTTAGATTG
ACGGGTGTCCAGCACCTCCTGCTGCAGGTGTTTCTCTCCGTCCCTCTCTCTCTCTTCCTT
CTATCTCTCTCTCTCCGTCTCTCTCCGTTTCTGTCGTCGATCCTAGGCCGCTCGGGTACC
AACTACCCCGACGTCATGATGGCGGGTGTCAGCGCCGCACTGGCTATAGTCTTCGGTTTT
GGCGTGTCAGGTATCGAGTTGTTATTCTCCAAGTCCTACATGTCCCGTGTACTATGTTCG
TTGCTGTGTGTGTGGGTCGTGTTGTCGCTCGTGCCGATATCTCAGTACGGGGGCGAGGTC
ACACAGAGGCACTACTGGTTTCACACAAAAATAACAACCTACAATTCAAGTTTAGCGCCG
GTCGATGTGAATTCGGGTGTGGTCGTAATGAAATTGGACCCGTACACCGTACAATCAGCC
TTAACGGCTATAAGAGAGGGTCCGTTTTACTCCGACAGCGAGCAAACAAACGAAACATTC
ATCAAAGGAATTAAAATTATCGATGAAGAGTGCAATGACCTCGTGAACTGCAACCTACCC
TCGATCAGACCACGGTTCGATAAGTTCATGAGGAACAGCCTCTTCCTCACCATGGAACCA
CCGAGGGAGTTCAATCGTTCGCTTAGCTTGGTTAACAAATACTGCGACGGAACTGAATGT
CATATGAGTTTTATAATGCACGGTGCAGCTCACAACGCGATCACTCTGTACCCATACTTC
AGTATCACCGCCTGGTCTTGGTCACCGGAAGTGAAACCCACGACTACCTTCAAAAACAAG
CCTCTGTACGTCATATACCACGCGTCCAATACATACGTGGAATACTTCGCGCCTCTCGAG
TTCAATATTACTATGGAGGTGCCGGCAGCGAGACAACGCGAGAGCTTCGTAGAAATATCC
CACCACTCGCACAGGATCTACAATCCGCAGGATTTCACTGAAAATTATATAAAACTACTG
AGCAGCATGCCCGAGCACTTCAACACGGCCAGCTTCCTCTCCTTCCGCGATAACTACGTG
TTTTAA
Protein sequence:
MTSRFKIECDLPTTRDDHEEKPSHSVPSFCILFLLGFYMLLGFITGVIQNDMPSAIHEKD
IPKDDWKTFSEETAVKYLYRILGDQARVSGTVYHFVKTRDLKWLLEEVTANSNLPVHIDW
QYVSGNYWLEFDPPYVNSYDNVSNIIAVLEGESGVKEGSIGTSILVNCHYDSVPFAIGAS
DNGIFCSAMVEILGKLSRRKEKFKQNIIFLFNGAEENVLMGSHGFLKHPWASNISAVINL
DSAGMNGRPSVFQVTNPNILNPYSKTPRPTAQAVGQFLFQSGIIPSDTDFRIWRDFGNIT
GLDIAFTESGHVYHTRYDRPQLIQAGVIQHAGDMLMTLVGGLADQAHAHEQDRSSSVYYD
YLSLFLVSYSERVSQIIDGVVGALGLLSVVYYMWLFGLRWSVFRDLLCSLAGRLICIVAG
VLTVVLLTLATILLDMGVARYMQLRYLSYKWLVVPLYWLPYFTCYILVSFLYDGRCNNKV
NRSIKSLQAMAATRLLLSVLLLVLVALPSLSKVRYVITVIVLMTSASSFITMTMVRRFRL
TGVQHLLLQVFLSVPLSLFLLSLSLRLSPFLSSILGRSGTNYPDVMMAGVSAALAIVFGF
GVSGIELLFSKSYMSRVLCSLLCVWVVLSLVPISQYGGEVTQRHYWFHTKITTYNSSLAP
VDVNSGVVVMKLDPYTVQSALTAIREGPFYSDSEQTNETFIKGIKIIDEECNDLVNCNLP
SIRPRFDKFMRNSLFLTMEPPREFNRSLSLVNKYCDGTECHMSFIMHGAAHNAITLYPYF
SITAWSWSPEVKPTTTFKNKPLYVIYHASNTYVEYFAPLEFNITMEVPAARQRESFVEIS
HHSHRIYNPQDFTENYIKLLSSMPEHFNTASFLSFRDNYVF