| New model in OGS2.0 | DPOGS205042 |
|---|---|
| Genomic Position | scaffold659:+ 18783-28327 |
| See gene structure | |
| CDS Length | 3162 |
| Paired RNAseq reads | 32 |
| Single RNAseq reads | 97 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA006922 (0.0) |
| Best Drosophila hit | eag-like K[+] channel (0.0) |
| Best Human hit | potassium voltage-gated channel subfamily H member 8 (0.0) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC004313 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | AGAP005251-PA [Anopheles gambiae str. PEST] (0.0) |
| GeneOntology terms | GO:0005267 potassium channel activity GO:0008076 voltage-gated potassium channel complex GO:0005249 voltage-gated potassium channel activity GO:0006813 potassium ion transport GO:0006355 regulation of transcription, DNA-dependent GO:0016020 membrane GO:0000155 two-component sensor activity GO:0055085 transmembrane transport GO:0000160 two-component signal transduction system (phosphorelay) GO:0007165 signal transduction |
| InterPro families | IPR003938 Potassium channel, voltage-dependent, EAG/ELK/ERG IPR003950 Potassium channel, voltage-dependent, ELK IPR001610 PAC motif IPR000595 Cyclic nucleotide-binding domain IPR018490 Cyclic nucleotide-binding-like IPR000014 PAS IPR014710 RmlC-like jelly roll fold IPR000700 PAS-associated, C-terminal IPR005821 Ion transport IPR013656 PAS fold-4 |
| Orthology group | MCL10986 |
Nucleotide sequence:
ATGGATTCACCGTGCAGGTGCCGGGTCCATCGCGTGTCATTGAAAGGAGCTTCAAACAAT
GCCTGGAGAACTTGCGACCCAGACAGCAATTTCGTGTTGGGAAACGCGCAAGTGCCGTGT
TACCCGATCGTATATTGCTCAGATGGATTCTGCGAGTTGACTGGATGGGCTCGGGCGCAC
ATTATGCAAAAGGGATGCGCCTGCAAGTTTCTTCATGGACCTGACACAATGGAAGAACAT
CGACACGAGATCGACACAGCCCTGGATTCCAAACATGAACTCAAGCTGGAACTTATATTC
TATAAGAAAAACGGGACCCCTTTCTGGTGCTTACTTGATATCGTCCCAATTAAAAATGAA
AAACGAGAAGTGGTCTTATTCCTCGCTTCGTTCAAAGATATCACCAACACTAAGATGGCC
GCGATGAACACTAATGAGGAGTTCGACAGCGGAGCCGCGGTGCGGCCTTCGGCAGGAGTG
GTCACTCTAGCGTTATCCCCATTTGTACCCGCAGCGGCACTTTTAGGCGCCAGGTTCCGA
GCTGAATCTAGTTGCCTACTTCCAGACCCGAATGGCAATCTTGACCCCGAAGCGCCCTCA
CCCGCCAACATGGGCAGACGGCGCTCCAGGGCAGTTTTATACCAGCTTTCAGGACATTAT
AAACCGGATAAAATGAAGACCAAATTAAAACTCAACAATAACCTCCTACACTCATCTGAC
CCTCCGCTGCCTGAATACAAAACGTCAGCTATAAAAAAGTCAAGATTTATTATCTCACAT
TACGGCATTTTTAAAACCTTCTGGGACTGGTTGATCCTAATAGCAACATTTTATGTAGCT
GTTGTGGTGCCATATAACGCGAGTTTTGTTGATGAAGGTCATCCAAGGATCAGTGTAACG
AGTGACGTTGTTGTCGAAGCCCTTTTCATTATAGATATCGTTTTAAATTTCCGAACAACA
TTTGTAAGTAAGAAAGGAGAAGTAGTATCTGATTCAAAAGCAATAGCTCTTAATTACATC
CGCACTTGGTTTGTCGTTGATCTTCTTGCCGCGCTTCCGTTTGACCTACTTTATGCATCA
GACGTATATAGCGGGACGGAGTCTACTCACGGGAACGTTCATCTTGTGAAATTAACTCGA
CTACTACGTTTGGCTCGTTTGCTCCAAAAAATGGACCGATATTCACAATATTCCGCCCTA
ATTTTAACTCTTTTAATGTTATCTTTCACGCTAGTAGCACATTGGCTGGCCTGCATATGG
TTTATTATAGCGGAAAAGGAAATTCAGCATCATAGAAATGAAAGTTGGGATTTAGGTTGG
ATTAACAATCTGGCTGAACGCCTGAAAGTACCAATTGTGAACATATCCCATAGTGAGAGC
TATGTTACTGCTCTCTACTTCACTTGCTCATCATTAACGAGTGTTGGTTTCGGCAACGTG
TCCGCAAACACCTTACCTGAGAAAATATTTAGCATCCTTACAATGCTTGTCGGAGCTCTA
ATGCATGCGGTTGTGTTCGGTAATGTGACTGCAATTATTCAAAGAATGTACTCGCGACGA
TCTATGTATCAAAGCAAATGGCGTGACCTCAAAGATTTTCTCACCATAAACCAAGTTCCT
AAAGAACTTAAACAGCGCATGCAAGACTACTTCCAAACGATGTGGTCACTCAACCATGGC
ATTGATATTCACGAGACCCTCAAAGAATTCCCTGAGGAATTGCGAGGAGATGTGTCGTTA
CATTTGCATCGGGAGATATTATCACTTCCAATATTTGAGTCCGCGTCTCAGGGTTGTCTG
AAACTTCTGTCACTACATATTCGAAACAATTTTTGCGCTCCCGGAGAATACCTTGTTCAC
AAAGGAGATGCTTTAACTTATATTCACTATATTTGTAACGGATCGATGGAAGTTATGCAA
AATGATATGGTTGTCGCTATTCTCGGAAAGGGTGATTTGGTGGGATGTGACATGAATACT
CATTTACAAGTCCACAATGGCTCGGGAACATCGCAATCTAATAACCCCGACGTGGTTGTA
AAGTCAAGCAGTGATGTCAAGGCCCTCACATATTGCGATTTAAAATGTATCAACATGGTT
GGTCTGGGTGAAGTTTTACGACTTTACCCGGAATATCAACAAGAATTTGTTCATGATATA
TTACATGATTTGACATACAATTTACGAGAAGGCTATGAGGCTGAGCAAGAAGAAGGGAAC
GGGCATCCATCTCTCACTCTACCATCAATTTCAGAGGATGATGAAAATGCCGCTGAAGAA
AATGCTCTATCTCCAAAAAAACCTCTATTATCTAGTAGTAGTCCCCGTCATACAAAATTC
AGAACTGACGGACAACCACGATTATCACATAGGGAATTGCGAGAAAGAATCGAAAGACAG
CGGTCGGTGGCTACACCCAAAATTACTCGAGCTGATTCTTTGGAGGGACTAAATTTAGAA
ATGCATAATACACGCTCTTCAGTTGATAGACTTGACACACAAGTGTCGAGCTTGCATCAT
GACGTTGCCGCTCTCAGCATGGAGGTTCGTAATGCAATACAAGCTCTACAAGAGATGACA
GGTCCAGTGTGGCACGCAGCACACTCAAATCCAAATTTACAATGGAACACTCCTCCTAAT
CAACTTGCCAGAAGTTGTAGTCATCCACCTGACGTATTTTGCTGGGATCAGCAAGAACGC
CCTCTCAGTCCTGAACGGCCAAAAATAAATCGAAGTACGCAAACCGAACCGTTTCTCCAT
TGCGTTACTCAGTACATACTGGAACACCCAGCTACTGTCATGCTTCTGTTAGGATTAGAC
CCAATGGCAAACCTGGCGCCAGTGATACCACCAGCTGTAGAGTATTATGATACGAGAAGC
AGAAGGCCGAGTGGTCTTGAGCAAATAATAGAATCGGAAAATGGTAGTCAAACACCGTCT
AGTTCGGCCAGTGACAAAGGCGAAGCGGCGAATAGCCCCATTGGAAGTGAAAAAGATCTC
GACTTGCAGACGGATAAGATTCGGTCGTTAGATAAAGACAGAAATTTAAATTTAAAAAGA
AATAGATATTCTGCTAGCGATATTTGTGAAGTATCCGAGCGGTTGCTGCCTTCCAGATCA
TCTCCCAGCACATATAGCCTTAAAAATAATGATAAAAGTTAA
Protein sequence:
MDSPCRCRVHRVSLKGASNNAWRTCDPDSNFVLGNAQVPCYPIVYCSDGFCELTGWARAH
IMQKGCACKFLHGPDTMEEHRHEIDTALDSKHELKLELIFYKKNGTPFWCLLDIVPIKNE
KREVVLFLASFKDITNTKMAAMNTNEEFDSGAAVRPSAGVVTLALSPFVPAAALLGARFR
AESSCLLPDPNGNLDPEAPSPANMGRRRSRAVLYQLSGHYKPDKMKTKLKLNNNLLHSSD
PPLPEYKTSAIKKSRFIISHYGIFKTFWDWLILIATFYVAVVVPYNASFVDEGHPRISVT
SDVVVEALFIIDIVLNFRTTFVSKKGEVVSDSKAIALNYIRTWFVVDLLAALPFDLLYAS
DVYSGTESTHGNVHLVKLTRLLRLARLLQKMDRYSQYSALILTLLMLSFTLVAHWLACIW
FIIAEKEIQHHRNESWDLGWINNLAERLKVPIVNISHSESYVTALYFTCSSLTSVGFGNV
SANTLPEKIFSILTMLVGALMHAVVFGNVTAIIQRMYSRRSMYQSKWRDLKDFLTINQVP
KELKQRMQDYFQTMWSLNHGIDIHETLKEFPEELRGDVSLHLHREILSLPIFESASQGCL
KLLSLHIRNNFCAPGEYLVHKGDALTYIHYICNGSMEVMQNDMVVAILGKGDLVGCDMNT
HLQVHNGSGTSQSNNPDVVVKSSSDVKALTYCDLKCINMVGLGEVLRLYPEYQQEFVHDI
LHDLTYNLREGYEAEQEEGNGHPSLTLPSISEDDENAAEENALSPKKPLLSSSSPRHTKF
RTDGQPRLSHRELRERIERQRSVATPKITRADSLEGLNLEMHNTRSSVDRLDTQVSSLHH
DVAALSMEVRNAIQALQEMTGPVWHAAHSNPNLQWNTPPNQLARSCSHPPDVFCWDQQER
PLSPERPKINRSTQTEPFLHCVTQYILEHPATVMLLLGLDPMANLAPVIPPAVEYYDTRS
RRPSGLEQIIESENGSQTPSSSASDKGEAANSPIGSEKDLDLQTDKIRSLDKDRNLNLKR
NRYSASDICEVSERLLPSRSSPSTYSLKNNDKS