| New model in OGS2.0 | DPOGS203502 |
|---|---|
| Genomic Position | scaffold41:+ 136444-144818 |
| See gene structure | |
| CDS Length | 3123 |
| Paired RNAseq reads | 407 |
| Single RNAseq reads | 1042 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA008560 (1e-19) |
| Best Drosophila hit | ether a go-go, isoform B (0.0) |
| Best Human hit | potassium voltage-gated channel subfamily H member 5 isoform 1 (0.0) |
| Best NR hit (blastp) | Eag K+ channel [Manduca sexta] (0.0) |
| Best NR hit (blastx) | Eag K+ channel [Manduca sexta] (0.0) |
| GeneOntology terms | GO:0007629 flight behavior GO:0008076 voltage-gated potassium channel complex GO:0005887 integral to plasma membrane GO:0005249 voltage-gated potassium channel activity GO:0006813 potassium ion transport GO:0007619 courtship behavior GO:0042066 perineurial glial growth GO:0007611 learning or memory GO:0008016 regulation of heart contraction GO:0048150 behavioral response to ether GO:0007608 sensory perception of smell GO:0022843 voltage-gated cation channel activity GO:0055085 transmembrane transport GO:0006355 regulation of transcription, DNA-dependent GO:0007165 signal transduction GO:0000155 two-component sensor activity GO:0000160 two-component signal transduction system (phosphorelay) |
| InterPro families | IPR000014 PAS IPR003949 Potassium channel, voltage-dependent, EAG IPR003938 Potassium channel, voltage-dependent, EAG/ELK/ERG IPR018490 Cyclic nucleotide-binding-like IPR014710 RmlC-like jelly roll fold IPR000595 Cyclic nucleotide-binding domain IPR000700 PAS-associated, C-terminal IPR005821 Ion transport IPR013767 PAS fold IPR001610 PAC motif |
| Orthology group | MCL11578 |
Nucleotide sequence:
ATGCCGGGCGGCCGCCGGGGGCTCGTCGCCCCACAGAACACCTTCCTCGAGAATATCATT
CGAAGATCCTCCTCACAGCCAGACAGCAGTTTCCTTCTGGCAAACGCTCAGATCGTGGAC
TACCCCATCGTGTACTGTAACGAAACCTTCTGCAAAATGAGCGGATACAACAGAGCAGAG
GTCATGCAGAAGTCATGCCGATGTACGTGGATGTATGGAGAGCTGACAGAAAAAGAGGCT
GTGGAGAGAGTGGACCGCTCGCTCGATCATCATCTTGCAGATCAATTTGAAATACTCCTC
TATAAAAAGAACCGCACGCCGCTGTGGCTGCTGGTCCACGTGGCACCCATCAAGAACGAA
CGCGAGCTGGTGGTGTTGTTTCTGCTCACCTTCAGAGACATCACCGCCCTCAAGCAGCCC
ATCGACGCCGACGACCCCAAGGGAGGTCTCTCCAAGTTCGCGAAGCTGGCTCGCAGCGTG
ACGCGCTCCAGGTCGGTGCTGGTGTCCGCGCTGCCCGCCCTCAAGGAGCCGGCGAGACAG
AGCCAGCTCGCGCATGTTATGTCGCTGTCAGGCGACGTGCTGCCGCAGTACCGACAGGAG
GCTCCCAAGACCCCGCCCCACATCCTGCTGCACTACTGCGCCTTCAAAGCGATCTGGGAC
TGGATCATTCTCTGCCTCACCTTCTACACGGCCATCATGGTGCCCTACAACGTCGCTTTT
AAGAACAAGACCAGCGAGGATGTGTCGCTTCTCGTCATCGACTCGATAGTGGACGTAGTG
TTCTTTATCGATATCGTATTAAACTTTCACACCACGTTCGTGGGGCCGGGAGGTGAGGTC
GTCAGTGACCCGAAGGTTATTCGAAAAAACTATTTCAAGTCATGGTTTTTGATTGATCTT
CTTTCCTGCTTGCCTTACGACGTTTTTAACGCTTTCGACCACGACGAAGATGGCATCGGC
AGCCTCTTTAGTGCCCTGAAAGTAGTTCGTTTGCTACGGCTGGGTCGAGTGGTTCGCAAG
CTGGACCGCTACCTCGAGTACGGCGCCGCCATGCTCATTTTGCTGCTGTGCTTCTACATG
CTAGTCGCACACTGGCTCGCCTGCGTCTGGTACAGCATCGGTCGCTCCGACGCCGACTCC
GGGCTCCAGTACTCGTGGCTCTGGAAGTTAGCGAACGTGACGCAGAGTCCTTATTCTTAC
GTGTGGTCCAACGAGTCCGACGGCCCCGAGCTCGTGAACGGGCCGTCTCGGAAGACGATG
TACGTCACCGCACTCTACTTCACGATGACCTGCATGACCTCCGTGGGCTTCGGCAACGTC
GCCGCCGAGACCGATAACGAGAAGATCTTCACCATCTGCATGATGATCGTGGCAGCTCTG
CTTTACGCCACGATATTCGGCCACGTGACGACCATCATACAGCAGATGACTTCGGCCACG
GCCAAGTACCACGACATGTTGAACAACGTGCGCGAGTTCATGAAGCTGCACGAGGTGCCG
AAGGCGCTGAGCGAGCGCGTCATGGACTACGTGGTGTCCACGTGGGCCATGACTAAGGGC
CTCGACACGGACAAGGTGCTGAATTACTGCCCGAAGGACATGAAGGCCGATATCTGCGTC
CATTTAAATAGAAAAGTTTTTAACGAGCACCCCGCCTTCCGCCTCGCGTCCGACGGCTGT
CTTCGAGCGCTAGCTATGCATTTTCACATGTCGCACTCGGCGCCCGGCGACCTTCTTTAC
CACACGGGAGAGTCCATCGACTCGCTATGTTTCATCGTCACGGGCAGCCTCGAGGTCATC
CAGGACGACGAGGTTGTGGCCATACTAGGTAAGGGAGACGTCTTCGGTGATTCGTTCTGG
AAGGACAGCGCCGTGGGCCAGTCTGCCGCCAACGTACGCGCGCTGACCTACTGCGACCTC
CATACCATCAAACGCGATCGCTTGCTCGAGGTGCTCGACTTCTACCAGGCGTTCGCCAAC
AGCTTCGCGAGAAATCTCACTCTAACATACAATCTTCGACATCGACTCATTTTTCGTAAA
GTCGCGGACGTCCGCCGCGAACGCGAGCTGATGGAGAGGCGGAAACGGGAACCGCAACTG
GAGCAAGCGCAGGACCACCTCGTGAGAAAGATCTTTTCTCGTTTTCGACGCGAACGAAGC
GTGGCGGCGACACCCGCTCCCGCCCCACGCGCCTCCCTCGCCGCTCTCGTGCCGGCCGCG
AGCGACCCGGAGCGCGGAGACGGTATGAGCAACGCCACCAGCACGGCCGCCGCCAGCGCC
GAGGACGGAAAACAGGGAGCCGGAGCGGCCGCCGTCACCGCTAGAGGGAAGTGGGGTCGA
CTCGTGGCTAGCGGCTCCCTGGACGCGGGGGAGGCGCCTCGGGCCGCCTTCACCAGGTCA
CTGAGCGCTCGAGACCGACCCGCCGCCCCCGGGGCGAGTGACGCGACCACCGCGCCCACC
ATGGCTATCAAGAATATTTTCGGGCGCGGTCGAGCCGGCAGCGTGCTGGGAGCGGCCGCC
AGGAGGGAGCCCATCGACGAGGAGGCGGACGACAAGAAAGTCACTTCACCCGTCACCAGC
AAGACGTCGACGACCACAGGCACGACCGCACCCGCTCAGGCGACCGCGCCCGCGCCGGCC
CCGGCTCCCGCGGCCTCGTCCGCTTCTGCCGTCGCCAGCGTCTCGATGGCCACACCCGTA
CCAGCACCGGCGCCCGCCGCCGCACCTCCCGCCGCCGTCTCCGCACACGAGGCGGCGCTG
GCTGAACTGAGAAGAGATGTTCGCACCGAAGTACAACGTCTCCAGCAGAAGTTAGGCCGA
GTCGAAGAACTGCTGACGATGCTGGCGGCGCGACTGGGAGCGGAGCCTGCGGACGTGACG
CCGGACAGCGAGAAGAATGAACGGTCCGACAGGGTCGAGCGCCTCGAGCGAACTGACCGA
GCGGACCCTGCCTCTCTGGCCAGGAAGAGACGCACTAAGGCGCGGAGCAAAGGCGCCGCC
CCGCAGGTGCCGACTCCGCCGGGAGAGTCCCCGGAGAGCCCAGCAGGCACGAGCGCCGCG
AGCGGGGGCGCACTGCCGGCGGGAGCGAGCGCTGCGGCCGCTAGGAGGCGAGAGTTCGTG
TAG
Protein sequence:
MPGGRRGLVAPQNTFLENIIRRSSSQPDSSFLLANAQIVDYPIVYCNETFCKMSGYNRAE
VMQKSCRCTWMYGELTEKEAVERVDRSLDHHLADQFEILLYKKNRTPLWLLVHVAPIKNE
RELVVLFLLTFRDITALKQPIDADDPKGGLSKFAKLARSVTRSRSVLVSALPALKEPARQ
SQLAHVMSLSGDVLPQYRQEAPKTPPHILLHYCAFKAIWDWIILCLTFYTAIMVPYNVAF
KNKTSEDVSLLVIDSIVDVVFFIDIVLNFHTTFVGPGGEVVSDPKVIRKNYFKSWFLIDL
LSCLPYDVFNAFDHDEDGIGSLFSALKVVRLLRLGRVVRKLDRYLEYGAAMLILLLCFYM
LVAHWLACVWYSIGRSDADSGLQYSWLWKLANVTQSPYSYVWSNESDGPELVNGPSRKTM
YVTALYFTMTCMTSVGFGNVAAETDNEKIFTICMMIVAALLYATIFGHVTTIIQQMTSAT
AKYHDMLNNVREFMKLHEVPKALSERVMDYVVSTWAMTKGLDTDKVLNYCPKDMKADICV
HLNRKVFNEHPAFRLASDGCLRALAMHFHMSHSAPGDLLYHTGESIDSLCFIVTGSLEVI
QDDEVVAILGKGDVFGDSFWKDSAVGQSAANVRALTYCDLHTIKRDRLLEVLDFYQAFAN
SFARNLTLTYNLRHRLIFRKVADVRRERELMERRKREPQLEQAQDHLVRKIFSRFRRERS
VAATPAPAPRASLAALVPAASDPERGDGMSNATSTAAASAEDGKQGAGAAAVTARGKWGR
LVASGSLDAGEAPRAAFTRSLSARDRPAAPGASDATTAPTMAIKNIFGRGRAGSVLGAAA
RREPIDEEADDKKVTSPVTSKTSTTTGTTAPAQATAPAPAPAPAASSASAVASVSMATPV
PAPAPAAAPPAAVSAHEAALAELRRDVRTEVQRLQQKLGRVEELLTMLAARLGAEPADVT
PDSEKNERSDRVERLERTDRADPASLARKRRTKARSKGAAPQVPTPPGESPESPAGTSAA
SGGALPAGASAAAARRREFV