New model in OGS2.0 | DPOGS209674  |
---|---|
Genomic Position | scaffold38:- 111665-132665 |
See gene structure | |
CDS Length | 4359 |
Paired RNAseq reads   | 228 |
Single RNAseq reads   | 715 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA000705 (0.0) |
Best Drosophila hit   | CG34363, isoform E (0.0) |
Best Human hit | potassium channel subfamily T member 1 (0.0) |
Best NR hit (blastp)   | hypothetical protein TcasGA2_TC000254 [Tribolium castaneum] (0.0) |
Best NR hit (blastx)   | hypothetical protein TcasGA2_TC000254 [Tribolium castaneum] (0.0) |
GeneOntology terms    | GO:0005267 potassium channel activity GO:0006811 ion transport GO:0006810 transport GO:0005216 ion channel activity GO:0015269 calcium-activated potassium channel activity GO:0006813 potassium ion transport GO:0016020 membrane GO:0016021 integral to membrane GO:0005886 plasma membrane |
InterPro families    | IPR016040 NAD(P)-binding domain IPR003929 Potassium channel, calcium-activated, BK, alpha subunit IPR013099 Ion transport 2 |
Orthology group | MCL10924 |
Nucleotide sequence:
ATGGCAGCCGTTAGCAGATACAGTTCGTATAACTGTTTGACTGGATGGGATAGCTACGAC
AAGATACCCAGAGTTCGAGTCGAATACTATGTAAACGAGAATACTTTCAAAGAGAGACTG
CAACTGTATTTTATAAAAAATCAACGCTCGAGTTTACGCATTAGAATTGTCAACCTGTTC
TTCAAGATTCTCGCTTGCTTGCTTTATATTTTCCGCGTCTGCGCCGATGGAGACCCTATT
TCTGCTACTTGTTATGGATGTAAACCGGGTAATAAAACTGAATTTGAGTTTTCGGCTAAT
CTCACGGAAGAGGAGTTTCAAGAGCATCCTATCATAAACTGGGACGGCATAGTATGGGTG
AATCGACCGCTATACTTATGGGGAGTCCAAGTTGTATTGGCTATGATCTCTCTAGCGGAG
GCTATACTTCTCGTTTATCTCGGATACAAGGGCAACATCTGGCAACAGATATTATCATTC
CATTTTATCTTGGAAATGGTGAACACGGTCCCATTCGCACTGACTATACCGTTCCCTCCC
TTAAGAAATCTTTTCATCCCGGTTTTCTTAAACTGCTGGCTTGCCAAGAGGTCTTTAGAA
AATATGTTTAACGATTTGCACCGCGCAATGCAGAAATCCCAGTCGGCACTCTCACAGCAA
CTTATGATATTATGCGTCACCCTACTCTGCCTTGTATTTACGAGTGTTTGCGGAATCCAA
CATTTTCAACGTGCTGGTCACCGTCACTTGAACCTATTTCAAGCCACCTACTTCGTGGTA
GTAACGTTTTCAACCGTCGGCTACGGAGACTTCGTACCAGATATCTGGCCATCTCAAATG
TATATGGTCATTATGATTGGTGTTGCTCTCGTGGTCTTACCCACTCAATTTGAACAACTC
GCATTCACTTGGATGGAAAGGCAAAAGTTGGGTGGTTCTTATTCGTCCCACCGAGCTCAA
TCCGAAAAGCACGTGGTTGTTTGCTCGACTACTCTCCATGCAGATACTATTATGGATTTC
CTAAATGAATTTTATGCCCACCCTCTTCTACAGGATTATTATGTTGTCCTTTTGTCACCG
ATGGAACTCGATACAACCATGAGGATGATATTACAGGTTCCCATCTGGGCCCAGCGAGTT
ATTTACATCCAAGGATCATGTCTTAAAGACACAGACCTGATTCGTGCTCGCATGAACGAA
GCCGAGGCTTGCTTTATACTGGCTGCTAGAAACTATGCCGATAAAACAGCAGCTGATGAA
CATACCATTCTAAGGTCGTGGGCGGTTAAGGATTTTGCCCCAAATGTTCCACAATATGTT
CAAATTTTCCGACCCGAGAATAAACTTCATGTGAAATTCGCGGAATTCGTTGTCTGTGAG
GATGAATTTAAATATGCCTTGCTGGCTAACAACTGCACCTGTCCAGGAGCATCTACCCTA
GTAACTCTACTGTTGCATACAAGCCGTGGCCAGGAAGGACAACAATCTCCCGAAGAATGG
CATAGACTATATGGCAAGTGTTCTGGAAACGAAATATATCACATTGTTTTGGGTGATAGC
AGATTTTTTGGAGAATATGAAGGCAAGAGCTTCACTTATGCGAGCTTCCATTCCCATCGA
AAATACGGTGTTGCCTTAGTAGGCGTCCGACCAGCTGAACTTCCTGAATTTTATGAAGAG
ACTATACTGTTAAACCCTGGACCACGGCACATTATGAAAAGCAGCGACACTTGTTATTAC
ATGAGCATCACGAAGGAAGAGAATTCTGCTTTCGTTGTTTCCGATAAACAAACGGAATCA
AAGCCCAACACTAATCCTAAAGACCAAACAGCTTGTAGCCTTCTCTCAAACGCAAAGAAA
ACCGGAGACGCAGAAGATGGCACAGCACCGCAGCAAAAAAGACCAGACGGTAGTAATGTG
GCTCACTACGATCTCCCACAAGTGATTCTACAAGCTCCCGCGAGTTCCACACCAAATGTA
TCGCCATCACGCATCAAACCAGCTAAAACTGTTTCATCCGCTAATTTAACTGTTGCTGGC
TCTCGACTTGGTGACGGAGCTTCAACTTCTGGATCGGATTCTCGAACATGTTTAAAAGAG
TCCCCAGCCACAGATAGTGCTACTGACAGTCATCTACTACTGCCACGGCCTGATACTAAC
TTCTTAAGCCCCGACTCTCTTAGTTGCCGACGAGGTAGCAGACGTCCGTCGATTTTGCCT
GTACCCGACATGGTCACCAGCAGTCTCAATATAGCCTCAGATAACCAGGATGAAGAAGCA
GAGGCTGATGAAAGTGAGGACGAACTTGAAGATGACGTGCCTTGGAGATCGCCCTCTGAG
AAGATTGCAGACGACGCGACTACCACCTCGCTATCCTCACTGGACGCCAGCGAAAAGCAT
TCAGCATGGCGTAACGACTTCAGCAGAATTGTTAAAGGGTTTCCACCAGTGTCACCTTTT
ATCGGCGTAAGTCCTACACTGTGCTACTTGCTTAAAGAGAAAAAGCCGCTATGTTGCCTA
CAGCTTGCACAAGTTTGCGAGCATTGTGCGTATCGAAACGCTAAAGAATACCAATGGCAG
AATAAAACTATAATCCTGGCTGCCGATTATGCTTCGAATGGAATCTATAACTTTATAATT
CCATTGCGGGCTCACTTTCGTTCTAAGACATCGCTTAATCCAATAATTCTGCTTTTGGAA
CGGAGACCTCATATCGCATTTTTAGATGCTATATCATACTTTCCATTGGTTTATTGGATG
CTTGGTTCCATTGATTGTTTGGATGATCTCTTAAGAGCCGGTATAACTCTAGCAGAAAAC
GTGGTGGTTGTTAATAAGGAACTGTCGAATTCGGCTGAAGAAGATAGCCTTTCGGACTGT
AACACCATAGTGGCTGTCCAAACAATGTTCAAATTCTTCCCTTCGATTAAATCAATAACA
GAATTGTCTCAGTCTTCAAATATGCGATTCATGCAATTTCGAGCTCACGATAAATATGCT
TTACATTTGTCTAAGATGGAAAAGCGCGAAAAGGAGAGAGGATCTCATATATCATATATG
TTCAGACTACCTTTCGCTGCTGGGTCTGTATTCTCAGCCTCCATGTTGGATACATTACTT
TATCAGGCATTTGTAAAGGATTACGTCATAACATTTGTGAGGCTTTTACTCGGCGTAGAC
CAAGCACCAGGCTCGGGATTCCTAACATCAATGAAAATAACAAAGGAGGACATGTGGATC
CGTACGTATGGGAGATTATATCAAAAGCTATGCTCAACAACCTGTGAAATTCCGATAGGC
ATCTATCGTACTCAGGATACAAGTCTGGCCGACCAGGCGCACCACGTGAGTATGTCGCCT
CGCGGCCCGTCAGGGTGGTTCTGGCCAGGCTTCGCGGGGATGCGACCATCGCGCGCATCG
CAGGCTTCGGGGAATGCGGGGGTGAACGGAGACAGTGGGTCCTCGGAGAGGGGAAGGACG
CGATCGCGTCGCAGCCCCACCGGTTGCTTGAGCGGATGCTACGGAGAGCGTACGCCAGCG
TATTCAACCAGTTTGGCAGATGAAGCAAGAGATAATCATGCGCAACAAATCGAAAGAGCT
GAAATTGCTAATCTTGTAAGATCTAGAATGGAATCTCTGAATTTAACTGGAATTGACTAT
GATGATGTTAGTGAGAAACGAAACAGCTTATCATACGTTATTATCAACCCAAGTTGTGAT
CTCAATTTACAGGAAGGCGATATTATATATCTTGTACGTCCTTCACCTTTCTCTGCCCAA
AAGACCTTTGAGAGACATAACAGCCGACGCAAGTCAAACATCAGTTTTTGCTCAGGAGCT
CTTATTCAGGCTGCTGCCGGTAGCCGTCGTGGCTCCGCTCTAGCAGGGCTCACCAGCCTC
TCCCCTAGGGCTCCGCCACTCACCTGCACAAAAGCCAATTCACTATCCCTACCTGATAGT
CCTACAATCATTACCGATTTCCGAGGACGTTCTAACTCTTTGCGTGTCGTAGATGACATT
TTGCTCCGCCGCTCAAACTCCTTGCGTCAAGGTCTTGGGACACCTGGTAATTCGCGACGT
CGAAAGAGCAGTCTTGAAGAGATTGGAATTTCTCACTTTAATTCACTTTTACAACATCAA
CAACAACAACAGCAACAGAATGCAAATGCTATTAAGATAGCTCTGAATGGGAGTATTGGT
CTTGAAGTGACACCACCAGATGAGGGACCTATGGATCGGATGGGAGGGCATCTAGGTGGA
TATCAAGATATGGCCGCCGCATTACCACCGACAGCATCGCAATCAGGATTGCCACCAGAT
TTTGCCGATCCGCAGCATTTGCAGGGGACAATCGTATGA
Protein sequence:
MAAVSRYSSYNCLTGWDSYDKIPRVRVEYYVNENTFKERLQLYFIKNQRSSLRIRIVNLF
FKILACLLYIFRVCADGDPISATCYGCKPGNKTEFEFSANLTEEEFQEHPIINWDGIVWV
NRPLYLWGVQVVLAMISLAEAILLVYLGYKGNIWQQILSFHFILEMVNTVPFALTIPFPP
LRNLFIPVFLNCWLAKRSLENMFNDLHRAMQKSQSALSQQLMILCVTLLCLVFTSVCGIQ
HFQRAGHRHLNLFQATYFVVVTFSTVGYGDFVPDIWPSQMYMVIMIGVALVVLPTQFEQL
AFTWMERQKLGGSYSSHRAQSEKHVVVCSTTLHADTIMDFLNEFYAHPLLQDYYVVLLSP
MELDTTMRMILQVPIWAQRVIYIQGSCLKDTDLIRARMNEAEACFILAARNYADKTAADE
HTILRSWAVKDFAPNVPQYVQIFRPENKLHVKFAEFVVCEDEFKYALLANNCTCPGASTL
VTLLLHTSRGQEGQQSPEEWHRLYGKCSGNEIYHIVLGDSRFFGEYEGKSFTYASFHSHR
KYGVALVGVRPAELPEFYEETILLNPGPRHIMKSSDTCYYMSITKEENSAFVVSDKQTES
KPNTNPKDQTACSLLSNAKKTGDAEDGTAPQQKRPDGSNVAHYDLPQVILQAPASSTPNV
SPSRIKPAKTVSSANLTVAGSRLGDGASTSGSDSRTCLKESPATDSATDSHLLLPRPDTN
FLSPDSLSCRRGSRRPSILPVPDMVTSSLNIASDNQDEEAEADESEDELEDDVPWRSPSE
KIADDATTTSLSSLDASEKHSAWRNDFSRIVKGFPPVSPFIGVSPTLCYLLKEKKPLCCL
QLAQVCEHCAYRNAKEYQWQNKTIILAADYASNGIYNFIIPLRAHFRSKTSLNPIILLLE
RRPHIAFLDAISYFPLVYWMLGSIDCLDDLLRAGITLAENVVVVNKELSNSAEEDSLSDC
NTIVAVQTMFKFFPSIKSITELSQSSNMRFMQFRAHDKYALHLSKMEKREKERGSHISYM
FRLPFAAGSVFSASMLDTLLYQAFVKDYVITFVRLLLGVDQAPGSGFLTSMKITKEDMWI
RTYGRLYQKLCSTTCEIPIGIYRTQDTSLADQAHHVSMSPRGPSGWFWPGFAGMRPSRAS
QASGNAGVNGDSGSSERGRTRSRRSPTGCLSGCYGERTPAYSTSLADEARDNHAQQIERA
EIANLVRSRMESLNLTGIDYDDVSEKRNSLSYVIINPSCDLNLQEGDIIYLVRPSPFSAQ
KTFERHNSRRKSNISFCSGALIQAAAGSRRGSALAGLTSLSPRAPPLTCTKANSLSLPDS
PTIITDFRGRSNSLRVVDDILLRRSNSLRQGLGTPGNSRRRKSSLEEIGISHFNSLLQHQ
QQQQQQNANAIKIALNGSIGLEVTPPDEGPMDRMGGHLGGYQDMAAALPPTASQSGLPPD
FADPQHLQGTIV