| New model in OGS2.0 | DPOGS202605 |
|---|---|
| Genomic Position | scaffold412:- 32242-43424 |
| See gene structure | |
| CDS Length | 4821 |
| Paired RNAseq reads | 189 |
| Single RNAseq reads | 511 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA006352 (1e-70) |
| Best Drosophila hit | ether a go-go, isoform A (6e-17) |
| Best Human hit | potassium voltage-gated channel subfamily H member 5 isoform 1 (7e-17) |
| Best NR hit (blastp) | PREDICTED: tetrameric potassium-selective cyclic nucleotide gated channel-like, partial [Saccoglossus kowalevskii] (5e-87) |
| Best NR hit (blastx) | PREDICTED: tetrameric potassium-selective cyclic nucleotide gated channel-like, partial [Saccoglossus kowalevskii] (1e-89) |
| GeneOntology terms | GO:0030551 cyclic nucleotide binding GO:0015271 outward rectifier potassium channel activity GO:0009409 response to cold GO:0009414 response to water deprivation GO:0009737 response to abscisic acid stimulus GO:0005634 nucleus GO:0009753 response to jasmonic acid stimulus GO:0005515 protein binding |
| InterPro families | IPR000595 Cyclic nucleotide-binding domain IPR018490 Cyclic nucleotide-binding-like IPR014710 RmlC-like jelly roll fold IPR013099 Ion transport 2 |
| Orthology group | MCL19903 |
Nucleotide sequence:
ATGGAGGAAGATGATGATGAAAGTAGTTTAAACATTTATAAGTACAGACGTGGGAGAGAT
AGAAGTGATGAATTTTTAAAAGCAATATCCATTGGACATTTTAATGATGAGCAGAACATA
ATCGTAGAAGTTGATGAGAATAAGCGTCAGAAGACTTATGCTGTATTGCAGGAACACCGA
ACTGATTTCTCTAACAACAAACTTCGCTATGTTCTTCTAATTTATTGCAATCCTATTTGG
AATCTCTCTATATTAATAGCAATTTTGCTTGAATACTTATTAGAGTCGTGTCTCTACACC
TTCATCGAACCAAGCAAACGATCGTCCTGGCTGATATTGTCTATATTTTTACTGAATATA
ACATTTACGCTTGATGTAGCGGTCGTTGTTGGTTTAAAATTCTTCGAAAAGTGGCGCAAG
ACGCTTAACTTAATGGAACCAGATATGAAACGCTCATTAACATCTCTTTTCATAACTATA
ACAACAAGACGAGCTAGGTATGTCCAACAGTTGAAGAAAATACAAAATCATTTGAAACTT
ATTAAAATGGACAACGAAACTACAAAACATATTATTAGGTACTATGAAGACCTATGGTAT
CAAAAATCTGGGGTCTTCAAACCTAAACTAATAAAACTTTTACCTGCGCCACTACAAATG
GAAATGTTTTACGACCTTAATGCAATACCTCTCTACAGTTCTTTACTATTCAGAAAACTT
CCGGAAGCATTCCTTAGAAGACTGTCTGTTACAATGAGTCACCAGTTTTATTTACCCGGC
GACATTGTTTATAATCATAATCAAAACAAGACTGTTATGATATGTATAACCACTGGGGTA
TTGGAGTTGTTGTCAGATGAGGATGATGAAAGCCCAATGATATCTTTTAGAAAGGGGACA
TGCTTTGGTGAAATCTCTTTAGTCTACAATATACCAGCAAGGTGTACCGTCAAAGCTGCA
ACTTATGTTGAATGTCAAGTTCTCAACAAAACAGATTTTATAAAGCTGATGTTAACGTAT
CCAGATATTGTTGCTTCAATTAGAAACGAAATTCAGGAAAGAATATTAAGAGTTTTAAAA
AGAAAACAAAAACAGGACCGTAACGCTCCTTTGTCATTAAATATTTACGCTTCGATACAC
CGCAAGAAAAGCAGCATTAAATGTCTCAAAAACAGATTACGATATTTACAAGGTACACAG
AGAGACAAATTTATGACTTTAGGAGTGGAACTTACAGGCGAAAATTGGCTTGAAAAGACG
GTTATACCTACAGAACTGCGAAAAAAAGTGCTACATCAAGCGAGATTTAAAACCCTGACT
TCAATAAAGTTCTTCCAAGTGAAAAATAAAGCTTACATTCACACACTTACAGAAATGGCA
CGTGACATTATTTTACCACCGGGTGAGATTGTTTATTACGGCGGAACTGTTACACGAGAG
CTGTATATTATTGAGAGCGGTTACTGTTTGGTGACATGTAGAGAGATGCGAGACACCAAG
AAGGAACGAGTCATTGGCCCCGGGAACCATCTGGGATTATTAGTGTTGTTATATGGCGTG
CCGGCTGTCAGTACTGTAATTACTTTGACACATTGCAAATTGATAAGCATCAGTCATTTT
GCGTACACGTCCGCTTTAAATCTCTTTCCGGATATGAGAGAACATGAAGGTCTATTTTCT
AGTGAAGAATTAAAAAAAATTGAACAACATGCAAAGTCACAGAACGCCAATGCTTATTTA
AAACACTATAACCTTTTAGTGGGTCCTCATAAAAAACACATAACAAGTATTGTGCAAAAT
CTTTTTAATGATTCATTTATAAATGTGTTGGATCACTATAGAAATAAAAATGAGAGTTAT
TTGAAATCATATAAGAACTTCAAAGTTTTAAACAAAATATCGCCATACTTGTTAATGCCT
ATCGTTATTAAGCCCGACGGCCTGTTCCTCAGAATCTGGGCTGTTCTTAGAATCACAGTT
GCAATGGCCCCAACTTATGATAGATTTAACATCATTATAGTAACATGTGAAGCAATTTGT
TATATTGACTTGTATTTAATGATGCACGTTGCTTTTTATGGTTCCAAAAACCAACTGATA
TACCATCCCTATTTAACGGCAAAAAATTACCTCAGGCGAACATTTGGTGTTGATTTTATT
ACCTGTTTTCCATGGTACGCGATATGGAAGCTATTTGTACCCAGGCATAATGAAAACCAC
ACTAAAGGAGATCATTTCCTCAATCCACACATGTACCATTGTATCATTCGATACGTCACA
GCTAACGATGAAGACGATTTTATCAGGAAGGTGCATAAGTTGTCAGTACTGAATGGACCC
TATATAAAAACGCAATACAATTCGGGTGGAAACATAATATGCAAAGTTGGTTCTTGGTTA
GATAGCACAAAGATATTTAAAGACGCCTATTTGAGTCCATCTAAAGCATATCTTCTGTCA
TATTATTGGGCATCTACGAGTTTTACTGGCGCTGGATTCGGTGATATCACAGCTCAAAAT
ACCTCCCACATGATACTCTCTATATGTATAAACATACATGGAGTGTTGTTTTTTGGATAT
GTTTATTCAAAAATTGCTTCCTTAAAAGCAATGGCTGACCAAGTTGTAACAACGTTCCAA
GAAAATCTTAAGCATTTAGAATTATTTTTAAATCGAGAAAAAGTCCCTTATCTACTAAAG
AAAACGGCTATCGAATATTGGAAATATCAATGGAAAAGAACTGGCGGTTGGTCGCATCAA
AAAATTTTGGGAAAACTACATGCCAACTTAAATGAAGATGCCGTTTTATACATGTACGAA
AAAACATTAAGAGAAATACCGTTATTTGAAGACGTGGAATACTCTTTCTTTAGAGCTTTC
GCTAAAAACCTCAGAGAACGTTATCTTCAGAAAGGTTACATGATGCTGAGATCCAATGAG
GTCATAACTGACATGTACATAATTTATCGTGGTAAAGTGGATATAATAAATAATACTAAT
GAGGTAGAGGCTTGTATGGGGCCAGGTGGTATTTTTGGAAACATCCGTGGAGCTGCCAGA
TATCTAACCATATCTAATGTTGTTGCTTCGAGAAATACGGATTTGCTAGTCATTGAGGGA
TCAAGCTTTTATACTCTATTAAAATATTTTCCGGCTGTATTAAGAAAAGTTAAATATTGT
GTTGAATCTACAACAAAGGATTACGTCTTGCCAACAATAATGTCAGAGCAATCCAGTGCT
GAAATAAGAACGTTTCCTCTAACTTATGAAGCTGATGACAATGAAGACGAAGACGAAATA
GACCAAGATGTTTATCTCGATAGTCCTGACAAGAGCATTGCTGAATCTCATGGATCGAGA
TCAATTGCTTCCGGCGGTTACTCTGATTATATTTCGGCCATTTGGCTAATAGTGAAGCCT
CATAAATGGTTCCAGAGTAGCATCGTACCAGATTGTAAATGGGTCATATTTATAGATTAT
CTCATAATCCTTCTCGCATACGTTGATTTTATGATTCTGGTCTACCAAATGGCCTTCTTG
TCTAATGAGTACTTTTTCTACATCTGTGTTGTCTTTGATGTGATATTTCTGTACAAAGTG
TTTCTGGATGTTCACACGGGATATATGAATAGATATGGAGATTATGTTTTGAATCCAAAG
AAAGTGAGAAAAATGTACTTCTCTAAAACATTTCTGCGCAGACGCGACTTTCTAACTAAT
TTGCCGATATGTTACTTAGCTTTTGCTATGAACTTGTCGTCATCGATGCAGCTCGCTTTA
TTCTGCTATTTAAGAACACCACAACTATTCAGAATATCGTATTTATTTACATATCGACAG
TATAGGAAAATTAACATTGGTTCATCGAACTTATTTCTGAAGCTAACAACAATTGGAATA
TGGGCATCTCTGCTTTCGCATGTGAACGCTTGCTTGTTTTTTAAGATGTCATGTCTGACA
CCAGTTCAATGTACTTCAGACAATTGGATAACAAAAGGGAATCTCAATTTGAGGGTTAAT
TACTCCGAGGATAATTTCTTTGCACTTTATATAGCGTCATTGTGGTACATGATAAACTTA
TTAACAATAACAGGATCTGGAGATGTGACGGCTCAAAATGATTTCGAAGTTATCGAAACA
ATTTTTATAACTTTAGTTATAAAATTTTGTACGGGACTCTTAATATCCGAAATGTCCGCT
ATGATCAGCGCTCATTCGTCATCTCGAATCGAATACGACTACGCGATTAACGAGTTGAAG
GACGGCTTAAGGGACACAGATCTTAGTGCGCATCAAATGAACAAGATGTGGGACTACGTT
AGGGAACTGTGGAACCGACAACAGGGAAAACAAATGCCGGAACTAGTATACCGGCTGCCG
TTCCGACTTCGCTGTCACGTAATGCAAGCGGTATACGGCAGTCATATAAGGGAATCGTTG
ATATTCAAGAAAACAAGCGATGACTTCAAACGGATGCTGGCTATGTGGTTGAAACATTGC
GTTTTCTTCCCCGGCAATTACATCGTACAGTGCGGGGACGCGGATCAGTGTATATACTTC
ATACATAGAGGACAGGTTGAAGTGTTGACAGTTCATCAGAACTTGACCGAGTCTGTGTAT
GACATTCTTGGACCGGAGGACAGCTTTGGGATAGCTCAGGGTCTTTTTGTCGGTGTGACA
CATCATTTCTCATTCAGGGCGCGCACCGTCGTCGACATAGTGTACTTAAAACTCGACGAG
TGGAAGTATTTACTTGATTTTTATCCGTCTTCAGCTAAATTAGTACGACGCAAAGTTGAG
AACGTATATCTAGCGATATGA
Protein sequence:
MEEDDDESSLNIYKYRRGRDRSDEFLKAISIGHFNDEQNIIVEVDENKRQKTYAVLQEHR
TDFSNNKLRYVLLIYCNPIWNLSILIAILLEYLLESCLYTFIEPSKRSSWLILSIFLLNI
TFTLDVAVVVGLKFFEKWRKTLNLMEPDMKRSLTSLFITITTRRARYVQQLKKIQNHLKL
IKMDNETTKHIIRYYEDLWYQKSGVFKPKLIKLLPAPLQMEMFYDLNAIPLYSSLLFRKL
PEAFLRRLSVTMSHQFYLPGDIVYNHNQNKTVMICITTGVLELLSDEDDESPMISFRKGT
CFGEISLVYNIPARCTVKAATYVECQVLNKTDFIKLMLTYPDIVASIRNEIQERILRVLK
RKQKQDRNAPLSLNIYASIHRKKSSIKCLKNRLRYLQGTQRDKFMTLGVELTGENWLEKT
VIPTELRKKVLHQARFKTLTSIKFFQVKNKAYIHTLTEMARDIILPPGEIVYYGGTVTRE
LYIIESGYCLVTCREMRDTKKERVIGPGNHLGLLVLLYGVPAVSTVITLTHCKLISISHF
AYTSALNLFPDMREHEGLFSSEELKKIEQHAKSQNANAYLKHYNLLVGPHKKHITSIVQN
LFNDSFINVLDHYRNKNESYLKSYKNFKVLNKISPYLLMPIVIKPDGLFLRIWAVLRITV
AMAPTYDRFNIIIVTCEAICYIDLYLMMHVAFYGSKNQLIYHPYLTAKNYLRRTFGVDFI
TCFPWYAIWKLFVPRHNENHTKGDHFLNPHMYHCIIRYVTANDEDDFIRKVHKLSVLNGP
YIKTQYNSGGNIICKVGSWLDSTKIFKDAYLSPSKAYLLSYYWASTSFTGAGFGDITAQN
TSHMILSICINIHGVLFFGYVYSKIASLKAMADQVVTTFQENLKHLELFLNREKVPYLLK
KTAIEYWKYQWKRTGGWSHQKILGKLHANLNEDAVLYMYEKTLREIPLFEDVEYSFFRAF
AKNLRERYLQKGYMMLRSNEVITDMYIIYRGKVDIINNTNEVEACMGPGGIFGNIRGAAR
YLTISNVVASRNTDLLVIEGSSFYTLLKYFPAVLRKVKYCVESTTKDYVLPTIMSEQSSA
EIRTFPLTYEADDNEDEDEIDQDVYLDSPDKSIAESHGSRSIASGGYSDYISAIWLIVKP
HKWFQSSIVPDCKWVIFIDYLIILLAYVDFMILVYQMAFLSNEYFFYICVVFDVIFLYKV
FLDVHTGYMNRYGDYVLNPKKVRKMYFSKTFLRRRDFLTNLPICYLAFAMNLSSSMQLAL
FCYLRTPQLFRISYLFTYRQYRKINIGSSNLFLKLTTIGIWASLLSHVNACLFFKMSCLT
PVQCTSDNWITKGNLNLRVNYSEDNFFALYIASLWYMINLLTITGSGDVTAQNDFEVIET
IFITLVIKFCTGLLISEMSAMISAHSSSRIEYDYAINELKDGLRDTDLSAHQMNKMWDYV
RELWNRQQGKQMPELVYRLPFRLRCHVMQAVYGSHIRESLIFKKTSDDFKRMLAMWLKHC
VFFPGNYIVQCGDADQCIYFIHRGQVEVLTVHQNLTESVYDILGPEDSFGIAQGLFVGVT
HHFSFRARTVVDIVYLKLDEWKYLLDFYPSSAKLVRRKVENVYLAI