New model in OGS2.0 | DPOGS215550  |
---|---|
Genomic Position | scaffold3211:+ 1708-8693 |
See gene structure | |
CDS Length | 3291 |
Paired RNAseq reads   | 1009 |
Single RNAseq reads   | 3035 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA002286 (0.0) |
Best Drosophila hit   | CG34396, isoform D (3e-91) |
Best Human hit | potassium channel subfamily K member 10 isoform 3 (5e-10) |
Best NR hit (blastp)   | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (9e-142) |
Best NR hit (blastx)   | PREDICTED: similar to conserved hypothetical protein [Nasonia vitripennis] (1e-111) |
GeneOntology terms    | GO:0005252 open rectifier potassium channel activity GO:0006813 potassium ion transport GO:0016020 membrane |
InterPro families    | IPR003280 Potassium channel, two pore-domain IPR013099 Ion transport 2 |
Orthology group | MCL14417 |
Nucleotide sequence:
GATTTTCTGTCGTTCATCGAAGAAGACCTGGTTGCTTACGAGGAGAGCTTCAAAGAGTAT
CTCAAACACGTCAACAATAACGACACGAAAAAGAAGACTTGGGGCTTTTGGAACGCTATA
TCAGCTTTACTTTGTTGTGGGATGAGTGAGAAAGATTTGAATTCTGATGATACTATAAGG
AAAGGTATACCTGTTATAAAAGCTGAAAGTGAAACACAAACAAGTGGCAAAGTTCGTTTG
AAATCTTCAGTCCAGTATAAAATGGAAGGTGACCTCAATTCTTCATCAATACGGAAAAGA
CGAAATTTGTCCAAAAACAGAGGACAGATTATGCGGCAAAGGGAAAAGACTCCTGAACCT
TCTCGAACTGCAGTTCCTCATGAAGATACTACATCTGAAGATGAAGATATACAGCCGCAA
CGGACGTCAAGAGAAATAGAAGCTGACAATACGTATGAAGAAATGAAACGCTTAGTTCAA
GAGCAATCTAATGCCAAAGATCCTGTATACGATATAGATACAGATGAAATCTTAGAAGCT
CGTTCTATCGCAGCAAATGAAAGAAGACGCAGAAGTATTTCACCATTTGCTCTTCCTGAC
AAAGAGGAATCAAATTCATTAGAACGAAAAGGAAGTTTTATTGATCCTGGGAACAAATTA
TTGAGTACAACGTACTGTTTGAGCCCGAAAGACGATGGTCCTAATAGAAGAAACTCATTA
ACTTTGGAGTCGCTAGACGCCAACCCTTCAAGAAACTCTTTATCACCACCGACTTCTCCA
AAAGATAACCAGAATACTCAAGTATTTCCTTCACCGACAAAACAATTAGAAGAGATAGTT
TATCCTGACGAAATTAAAGAGACAACAGAAAAAAATAAAAGTCCTTCCAAGAAAAAGGAC
TCAGCAATTGAAGAAAAAAAACCTAAGTCTACTCCAAAGTCTATCAAAAATAATGAACAA
CCATCCGCACCTGGAGAACTCGTTACGAAAGTAATACAAGTTGAAAGAACTCCAAGTAAA
AAACTTGCACAAGAACAAAAACCTGTAGTTGAAGTAAGAGAAAGAGTTGTCAGGACTCCT
AGTAGGAAAATATCTACTGATTCTAAACCAAGCGTAACGAAACAAGTGCCTGTTAAAGTT
ACAAGTGAAACCCAGAGTAAAGTTCCACCCGTAAAACCAGCTCGAAGTAAATCAACTTCC
AGATTTGCGAGTAAAACTAGTGAAAGTGAAATGAGTGAAGACCAAACGCAACAAAATAGC
GAATACTCCAGTGGAGTTAAACGAAAGGTAGTACCGACTCCACGACGTTTTATGAAAAAT
CGATCTCCTAGAGCAAATCGTTCGCAGTCTGTTACTAGAATAGAAAATACGAACATATTT
GACAAAACCGCAACCGGTGTAAGTCAAACTAGTCAAGAAATAATGGAGCTAATGCAAAAA
GCCAGAGCTCGTAGTTTGTCTATTCCCAAAGATGATCCAAAATTACCAATTGAGTATAAA
AAATATAGCAAAATTTTACAAACTCCTAATAAAACCCCTGTTAATCTTAGACAGACAAGA
GGTATATCGTGTCCAAAAACTATACAAATTATTAGTGATCGTGAAATTTTATCTGGATTG
ACAGATAAACCAAAACAAAGTCGTACAATTGAAAAACACAGCAGACAAAGTTCAGGATAT
GTCGATGCAAGTCAATCAGAATATACTTCTAGTTGTTATTCTTCGTCTCCGAGCGAAAAT
GAATATGATTTTGATTTACTTGAACGATCTGCAGAATTGACTCGTAAACTTAAACTTTTA
AGTAAGGAAACAGACGTTGAAGACCATAAAAATAATTTTAAATTAATCCACAATGTAAAA
GAAGACGCAGATATCGGTGTAAAGTCTTCATTACGTAAACGATCTTTAGCTGATCAAATT
GTAAAACAGGCTAAGGCTACAGATAACATAGAAAATCATAAAAAAGAATTAAATAAACCG
AAATCTACAACAACCGTTAAGGATAAGAAAGTTAAGTATTCTCGATGGAAATTATTAGCA
AATTGGCAAGAATTTAAACAAGAATATGAAAAGGAATATAAGCAAATTATTCTATTAAGA
AATAAATGCATTTGTAATCTAATTCTATTAATAATGATGTGTGGTTTGGGCGGAATTATG
TTTAAAACTTTAGAAGGATCTTTTGAAAATGCGTACAAATGCAGCTCCAGAAATGTTAAA
CGTGACTTCATTGAAAGTCTATGGAAAGGTAGTCATTATTTACGAGAGGAAGATTGGAAG
TCATTGGCAAGAAAAAAGTTATATGAATTCGAGGATCAGTTGCATACAGCCCACGAAGCT
GGCGTGACATCTTACAGTGGTCAAAGATCATGGAACTTTATGAACTCATTTGTCTATTGT
TTGACCCTCGTAACTACTATAGGTTATGGCCATATTGCTCCAAAAACAACAAACGGTCGT
GTGGCAACGATAGTCTACGCTATTATAGGCATACCACTGTTCTTGATAGTATTGGCTGAT
TTTGGAAAGCTATTTACAAGAATAATAAAATTTTTCTGGTCCTTTATTCGTCGATTTTAC
TACACAAGAAGTTGTAGACGCGTTAGAAGAACAATTCCTGTACAGGAAGTGATGAAAGGC
CTAAATATTGTATATGATGTTGTACGAAGACCTTCACAAATATTTTCTGAAGAAGATGTG
AATGGAGTTTCCGAGAGTCATCATCCACCACCAGTTGTAAGAAAAGCTAGTGATGTGCCA
CCGCCCTTACCACCAAAACCTGGTAGCAAGAATGACTTTGAAATTGAAACCGAGCCAGAC
ACGCCAGCCCCATCTGTGTTTGAAATAGATGACGAATTTAATCTTCCTATATCAGTAGCT
ATATTTATTTTGGTAGTTTATATTATAATCGGTGCTGTAGGGTACAATTTTTGGGAAAGT
TGGAGCTTTTTTGAATCATTTTACTTCGTTTTCATATCAATGTCGACTATTGGTTTAGGA
GACCTGGTACCGGATCATCCAATGTTTATGATGGCGTCAATTTTATATCTTGTCTTTGGT
TTAGCATTGACCTCTATGTGTATCAATGTTGTTCAAGTGAAACTATCTGATACCTTCAAA
CAGGCGAGTGCTAAACTTGGAGCTACTATAGGACTTAAAGTAGCTGAAGAAGATGGCAGT
TTAGTGCCAATAACGCCACCTCCAGTTGAAAATGTACCGGTTCATAAACCAAAAATTGAC
GAAGAATCAAAAAGAAACGAAACCAAAGACGATGAAGCCAAAACCAGGTGA
Protein sequence:
DFLSFIEEDLVAYEESFKEYLKHVNNNDTKKKTWGFWNAISALLCCGMSEKDLNSDDTIR
KGIPVIKAESETQTSGKVRLKSSVQYKMEGDLNSSSIRKRRNLSKNRGQIMRQREKTPEP
SRTAVPHEDTTSEDEDIQPQRTSREIEADNTYEEMKRLVQEQSNAKDPVYDIDTDEILEA
RSIAANERRRRSISPFALPDKEESNSLERKGSFIDPGNKLLSTTYCLSPKDDGPNRRNSL
TLESLDANPSRNSLSPPTSPKDNQNTQVFPSPTKQLEEIVYPDEIKETTEKNKSPSKKKD
SAIEEKKPKSTPKSIKNNEQPSAPGELVTKVIQVERTPSKKLAQEQKPVVEVRERVVRTP
SRKISTDSKPSVTKQVPVKVTSETQSKVPPVKPARSKSTSRFASKTSESEMSEDQTQQNS
EYSSGVKRKVVPTPRRFMKNRSPRANRSQSVTRIENTNIFDKTATGVSQTSQEIMELMQK
ARARSLSIPKDDPKLPIEYKKYSKILQTPNKTPVNLRQTRGISCPKTIQIISDREILSGL
TDKPKQSRTIEKHSRQSSGYVDASQSEYTSSCYSSSPSENEYDFDLLERSAELTRKLKLL
SKETDVEDHKNNFKLIHNVKEDADIGVKSSLRKRSLADQIVKQAKATDNIENHKKELNKP
KSTTTVKDKKVKYSRWKLLANWQEFKQEYEKEYKQIILLRNKCICNLILLIMMCGLGGIM
FKTLEGSFENAYKCSSRNVKRDFIESLWKGSHYLREEDWKSLARKKLYEFEDQLHTAHEA
GVTSYSGQRSWNFMNSFVYCLTLVTTIGYGHIAPKTTNGRVATIVYAIIGIPLFLIVLAD
FGKLFTRIIKFFWSFIRRFYYTRSCRRVRRTIPVQEVMKGLNIVYDVVRRPSQIFSEEDV
NGVSESHHPPPVVRKASDVPPPLPPKPGSKNDFEIETEPDTPAPSVFEIDDEFNLPISVA
IFILVVYIIIGAVGYNFWESWSFFESFYFVFISMSTIGLGDLVPDHPMFMMASILYLVFG
LALTSMCINVVQVKLSDTFKQASAKLGATIGLKVAEEDGSLVPITPPPVENVPVHKPKID
EESKRNETKDDEAKTR