| New model in OGS2.0 | DPOGS210417 |
|---|---|
| Genomic Position | scaffold3637:+ 315-15246 |
| See gene structure | |
| CDS Length | 3000 |
| Paired RNAseq reads | 2112 |
| Single RNAseq reads | 4820 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001988 (4e-106) |
| Best Drosophila hit | CG34123, isoform E (2e-96) |
| Best Human hit | transient receptor potential cation channel subfamily M member 3 isoform a (6e-62) |
| Best NR hit (blastp) | conserved hypothetical protein [Pediculus humanus corporis] (3e-123) |
| Best NR hit (blastx) | conserved hypothetical protein [Pediculus humanus corporis] (2e-106) |
| GeneOntology terms | GO:0004672 protein kinase activity GO:0005216 ion channel activity GO:0006811 ion transport GO:0055085 transmembrane transport GO:0016020 membrane GO:0043052 thermotaxis GO:0010960 magnesium ion homeostasis |
| InterPro families | IPR005821 Ion transport |
| Orthology group | MCL10414 |
Nucleotide sequence:
GCCTTGATTGGCTCAGGGGCCGAATGTGAAACTCGTGTTGATCAGAACGGGAAGGTCGGC
AAAATCGGCTGGGATCCAACATACCGTGACCTGCCGGAGTACCACGTGCCGGAGGACAAG
AGGATGAGGCCGCTGAGATTGAGGAAGAAGATATATGAGTTCTTTACCGCACCGATAACT
AAGTTTTGGGCGGATTCGATCGCGTACATATTGTTCCTGCTGATGTTCACCTACACTGTG
CTCGTGAAGATGGATCCCACGCCGTCTTCACCCGAGATATATTCAATATGTTACATACTT
ACATTTTTATGCGAAAAAATTAGAGAAATAATTACATCCGAACCCGTAGCTATAAGGCAC
AAGTTCAGCGTGTGGGCCTGGAATATGTGGAATACTTACGATGCTGGCTTCATAATATTT
TTCCTAGTTGGTCTCACCCTGCGCTTGCGGGCGGTGTCCATGGACGTCGGCCGCGTCATA
TATTGCGTTGATATAATATATTGGTATTTGAGGATACTTAATATATTGGGCGTCAATAAG
TACTTAGGTCCTTTAGTCACGATGATGGGTAAAATGGTTAAGAACATGATATACTTCGTG
GTTCTGTTACTCGTCGTGCTAATGTCCTTCGGAGTAGCGCGGCAGGCCATCTTATATCCT
GACAAAGAAGCCAGCTGGTATCTAATAAGAGAGGTGTTCTTTCAACCGTATTTCATGCTA
TATGGGGAGGTATTCGCTGAACAGATGGCGCCACCTTGTGGTTTGCCAGGACTCGAAGAA
TGCAGGGTGGGACATTGGGTCCCGCCGGTGGTGATGAGCATTTACCTGCTCATAGCCAAT
ATCCTTCTAGTCAATCTCCTTATAGCGGTCTTTAATAATATCTTCATTGAAGTCAACGGT
GTATCGCATCAGATATTCTTCCAACCGTACTTCATGCTATACGGGGAAGTGTTTGCCCCG
GACATTGATCCACCTTGCGGTTTGGGGATCGGGGACAAAAAGTGTGTGACCGGGAGATGG
ATTACGCCCATAGCGATGACGGTGTACCTCCTCGTGGCCAATATACTCCTCATTAACCTC
CTTATCGCTGTCTTTAATAATATATTTAATGAAGTCAATGAAGTCTCGCATCAGGTCTGG
ATGTTCCAAAGGTTCACTGTTGTCATGGAGTACGAACAGAAACCAGTCCTACCGCCTCCA
TTAATAATATTCTGTCACATTTACGCCACATGCAAATGGGTCACCAGAAACGTGTCCCAT
AAAAGATTTCAATATGATAATGGACTGAAACTTTTCTTAGAAAAGGAAGATATGGAAAGG
TTGTATGACTTTGAAGAGGAGTGTGTAGAAGGCTATTTTAGGGAACAGGAGGTAAAACTA
TCGAATTCGATCGAAGAAAGGGTGAGGAATACGACAGATAGAGTTGAAAATATCACGACC
AAAATAGAGGACCTAAATCAAAAGGCAAATTGTCAAGTGCAATCTGTGAAGAGCGTAGAG
TTCAGACTTAGAAAACTTGAAGACGTGGCTGAGCAGACGATGAACCACCTAGCAGTGATC
CATCGGTTCATGGCCACTCATCCGTCTCTGGTCAACCGAGGCTCCACGGACACCCTGGGG
CCCCCGCCGCCAACCTTCCAAACAGGTGGCGCTAGACTACGAACCGCCAGCGACAGATCC
GAGGTGCTGTCGGACAGTGACACCGCCGCTCGGTTCATCGTCCGGCCCGTGCAAGAGGAG
GACGAGCTCGCCTCGCAACCCTCCGAAGAGGAGTTACCTCAATCAGGGCCCGAGGTTCCA
GTTGAAAAGGAACCAGAGGCGGATTCAATTTCCACATCATCAGCTGGCAGCGTTGCTGGT
CCTGACGTGACAGTCATCAGGCCAACTGCCCCAGCAACACCAGCAAGACAAAGGTCATCC
GACAGCAATAGAACTGAACCTAGTGACGAGAAGAAAGTGTCATCGGCTGTTGACGACGCA
TTTTTACCGGAAGTTCGTGAGGTACCGACGGAATTAAGTAGTCTTCGTCCACGTACCACA
TCTGCGGGTACGAGAAGGACTGCCAATACCAGACGGCGTTCCGAAGGGGGCAACGACTGT
GGCATGGGCGGCCACTCAACGCAGCATCTGGCTCCGAGAAGACAACACAGCCAGACGCAT
TCAGAGCCAGATAACTCGGCCGTTGACGCCGGCTCCTTGCAAAATTCCGTCACAGGTTGG
GAGGCAACTGGGGGTGCGGCTGGCATTTCATCAGGTCGCACTCGTGTGGGCGGAGCTCCT
AGATCTCTGCTCCTAGCCATGCACGAATACACCAGCATAACGGATGAGCTCGAAACAGCC
TATGGATTATTCTCCCCACCTCATACTCCTAGAACGCCTATAACAAATCGTCTGCTATCC
CCTGGTCGAGCGTCTCCAAGACGACGTCATGCAAGTGAGATGTCGAACCCTGAGTTCGCT
CTCTTCATGGAGAAGGAGCATCTCCGAGGAGCGGAGGAAGATGACTACATCATAATGGAG
AACCTCATCCAAAGACGCCTAGAAATGGAGTCTCTGCTGGGCAGATACGATGATGACGAA
GGAGAGGGGGCCTCGGCGGGATCCGGGGGCCAAGCTGTCGGGGGGCCCGACGTCGGGGTC
AGTATCAGCGTGTGCGTGAACAGCGTTCCAGATCAGACCTCAACTCTACTCACTGTTAGC
GACCGACGAATCCCTCATCAGAGACACTCTCTGCGGAGATCTTCTGCTATCGACAGTCGT
GAGCTGCCGTCTCCTCTCCAGCCCCTCCTGGGCGAAGAGTGTGGGGAAGTGCTCCTTCCA
GTACCCCGACAGCCTTCAGGAGACACGAACGCCTCCAGTGAGTTGTCTCTGTCGCACATG
GTGAGTGAGAGCCTCCCTCCGCGGCCGTCCATCGTCCTGGACTCCTCGCAGCTTCCTCGT
CAGCGCTCAGCGGAACAGCCCCAGCCGCCGCAACCCTCGAGGCCGGAGACCATGTGTTAG
Protein sequence:
ALIGSGAECETRVDQNGKVGKIGWDPTYRDLPEYHVPEDKRMRPLRLRKKIYEFFTAPIT
KFWADSIAYILFLLMFTYTVLVKMDPTPSSPEIYSICYILTFLCEKIREIITSEPVAIRH
KFSVWAWNMWNTYDAGFIIFFLVGLTLRLRAVSMDVGRVIYCVDIIYWYLRILNILGVNK
YLGPLVTMMGKMVKNMIYFVVLLLVVLMSFGVARQAILYPDKEASWYLIREVFFQPYFML
YGEVFAEQMAPPCGLPGLEECRVGHWVPPVVMSIYLLIANILLVNLLIAVFNNIFIEVNG
VSHQIFFQPYFMLYGEVFAPDIDPPCGLGIGDKKCVTGRWITPIAMTVYLLVANILLINL
LIAVFNNIFNEVNEVSHQVWMFQRFTVVMEYEQKPVLPPPLIIFCHIYATCKWVTRNVSH
KRFQYDNGLKLFLEKEDMERLYDFEEECVEGYFREQEVKLSNSIEERVRNTTDRVENITT
KIEDLNQKANCQVQSVKSVEFRLRKLEDVAEQTMNHLAVIHRFMATHPSLVNRGSTDTLG
PPPPTFQTGGARLRTASDRSEVLSDSDTAARFIVRPVQEEDELASQPSEEELPQSGPEVP
VEKEPEADSISTSSAGSVAGPDVTVIRPTAPATPARQRSSDSNRTEPSDEKKVSSAVDDA
FLPEVREVPTELSSLRPRTTSAGTRRTANTRRRSEGGNDCGMGGHSTQHLAPRRQHSQTH
SEPDNSAVDAGSLQNSVTGWEATGGAAGISSGRTRVGGAPRSLLLAMHEYTSITDELETA
YGLFSPPHTPRTPITNRLLSPGRASPRRRHASEMSNPEFALFMEKEHLRGAEEDDYIIME
NLIQRRLEMESLLGRYDDDEGEGASAGSGGQAVGGPDVGVSISVCVNSVPDQTSTLLTVS
DRRIPHQRHSLRRSSAIDSRELPSPLQPLLGEECGEVLLPVPRQPSGDTNASSELSLSHM
VSESLPPRPSIVLDSSQLPRQRSAEQPQPPQPSRPETMC