New model in OGS2.0 | DPOGS213792  |
---|---|
Genomic Position | scaffold715:- 18732-40054 |
See gene structure | |
CDS Length | 4059 |
Paired RNAseq reads   | 1442 |
Single RNAseq reads   | 4392 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA009272 (0.0) |
Best Drosophila hit   | transient receptor potential (0.0) |
Best Human hit | short transient receptor potential channel 4 isoform alpha (4e-155) |
Best NR hit (blastp)   | transient receptor potential channel [Aedes aegypti] (0.0) |
Best NR hit (blastx)   | transient receptor potential channel [Aedes aegypti] (0.0) |
GeneOntology terms    | GO:0050908 detection of light stimulus involved in visual perception GO:0008377 light-induced release of internally sequestered calcium ion GO:0019722 calcium-mediated signaling GO:0016028 rhabdomere GO:0009416 response to light stimulus GO:0015279 store-operated calcium channel activity GO:0005516 calmodulin binding GO:0008087 light-activated voltage-gated calcium channel complex GO:0008086 light-activated voltage-gated calcium channel activity GO:0005887 integral to plasma membrane GO:0007602 phototransduction GO:0005262 calcium channel activity GO:0006816 calcium ion transport GO:0008355 olfactory learning GO:0008104 protein localization GO:0016027 inaD signaling complex GO:0005218 intracellular ligand-gated calcium channel activity GO:0016021 integral to membrane GO:0055085 transmembrane transport GO:0030845 inhibition of phospholipase C activity involved in G-protein coupled receptor signaling pathway GO:0050962 detection of light stimulus involved in sensory perception GO:0005515 protein binding GO:0005886 plasma membrane |
InterPro families    | IPR020683 Ankyrin repeat-containing domain IPR000519 P-type trefoil IPR002110 Ankyrin repeat IPR002153 Transient receptor potential channel, canonical IPR017957 P-type trefoil, conserved site IPR013555 Transient receptor potential II IPR005821 Ion transport IPR004729 Transient receptor potential channel |
Orthology group | MCL10107 |
Nucleotide sequence:
ATGAAAACTATGAAGAATAAAAGAAGAAAAAAACGTGTCAGATTCGACATGAACACGATG
ATTATTCCGACTGAGAACCGCTACCACGACCACAACAATTTGTCAACCAAGAACAAGAAC
ATCACAGAAGCGTCTTATAAGAAGGATAATAAGAAAAGTGACTACGGCGATTTGGATCAT
CAGTGTGGTGATGTATCAGACAGCATGAGGTTCGACTGTCATCCGCAGGGGGGCGCCAGT
GAGGAAGCTTGTACCAAACGGGGTTGTTGTTGGGGGGCGACCGCTGTGCAGGGTGCTCCC
TACTGCTACTACCCTAAACACTACCCGAGCTACCGCTTCATGAACAGCACAGAGAACAAG
CACAGCATGACCGTGTACTACGCTCACGGTCTGGATACAGGGTACCCTGGACAGTGGGGA
ACTGTCATGGTGACCTTCAACTACCTGGCCGATGATGTCCTGCAGATTAAGGTTCGAACC
CCGTACCCCGAGGTGCCGGTGGTGTCGGGCCGGGTCACCAGTCTCCAGTACCGAGTGCTG
GTGGACAGTGCCGCCGTCGGCTTCAAGGTCATCAGGACTGAGGACAACTTCAAAATGAAC
CGCGGGTCCAGAGAGGAACTCCTTGGCAGTTCCACCGAGGCCATCAGGAACAGTCAGCAT
GACTTGAGAAGCATCGCAGAGAGACCTCTAACGAGAGAGGAAAAATCCTTCTTACTGAAT
GCCGACAGAGGAGATTACAATACAGTTAAAAAGTTAATAGACGCGTACTCGTCCAAGCCA
GACGTCCTAGATATCAACTGCGTGGATCCGTTGAACAGATCGGCTCTCATAGCGGCCATC
GAAAATGAAAATATTGAACTAATCAAACTACTCTTGAATTCAGGGATCAAAGTTAAGGAT
GCTTTACTTCACGCTATCAAAGAAGAGTATGTAGAAGCCGTGGAGTTGCTACTGCAGTGG
GAAGAAGAGAATCATGTCCCCGGCGAGCCTTATAGCTGGGAGTCAGTAGACGCATCAGCA
GCAACCTTCACATCGGATATCACGCCGCTGATCCTCGCCGCCCATAGGAACCACTATGAA
ATACTCAAACTGCTGCTTGATAGAGGCGCGACGCTGCCGGTGCCTCACGACGTCAAATGC
GGTTGTGACGAGTGCGTGAAATCGTCATCGGAGGACTCTTTACGTCACTCACAAGCCCGT
ATCAATGCCTACCGCGCTTTGAGCTCTCCGTCACTCATTGCACTCTCCTCAGCCGACCCC
CTATTGACCGCCTTTGAACTATCTTGGGAATTGGGCAGGTTAAGTCAGATGGAAACAGAA
TTTCGGATAGAATATAAGACCCTACGCTTACAAGTTCAAGAGTTTGCGACCGCGCTTTTG
GACCACACGAGAACCTCTCAGGAACTGGAGATCATGTTGAACTACAACCCATGGGAGTTA
GACTGCTGGGAGCCAGGGGAGAGACAAACGCTCGGCAGGTTAAAGTTGGCTATCAATTAT
AAGCAGAAAATGTTCGTTGCACATCCGAATGTACAACAATTACTAGGCACAATTTGGTAC
GAAGGTTTGCCTGGCTTCAAAAGAAAAAATATGATCGGACAGTGTGTGCAAGTGGCGAAA
CTGGGAGTAATGTTCCCGGTGTACTGTACCCTGTACATGCTCGCCCCGGACTCCGAATAC
GGACAGTTCATGAAGAAACCATTCGTCAAATTCATCTGCCACAGCTCCTCGTACATGATG
TTTTTGATGTTACTCTCACTCGCATCTCAACGCGCTGAATATCTGGTATTGGAATGGTCT
GGAATATCCTGGCTGCAAGAGCTGGTAGAGTTCTGGAAGCAAAGAGAACGAGGCTCTCTA
CCTGGTCTCATAGAATCTACAGTCGTTCTATTCATAGCAAGTTTAGTTTGGGGTGAAATA
CGATCACTATGGTCAGGCGGTCTAATGGAATATTTGAGTGACTTGTGGAATATAGTTGAC
TTCATCACGAACGTGTTCTATATATCCTGGATAAGTTTGCGCTTCACGTCATGGTACATT
GTGCAGAGGGACTATAACAGTGGCAAGGATCCATGGTACCCACGTGATAAATGGGATTCA
TTCGATCCGATGCTGCTTTCCGAGGGTGCATTTGCAGCCGGCATGATCTTTTCATTCCTC
AAGCTAGTCCACATCTTTTCCATCAACCCGTACTTGGGTCCGTTGCAAGTCTCCTTGGGC
AGGATGATCATAGACATCATCAAATTCTTCTTCGTTTATATGCTCGTGCTGTTTGCCTTC
GCTTGCGGACTTAATCAATTGATGTGGTACTATGCTGAGTTGGAGAAAAACAAGTGCTAT
CACCATCCGTCCGGCGTCGCTGATTTTGACACTCAGGAACGAGCTTGTAGTATATGGAGA
CGATTTGCTAATTTATTCGAAACCTCCCAATCACTCTTCTGGGCCTCTTTTGGGCTAGTG
GACCTTACAACCTTCGAGCTGACCGGCATCAAGAGCTTCACAAGGTTCTGGGCGCTATTG
ACTTTCGGCTCGTACTCCGTGATCAATATCATCGTACTTCTGAACATGCTCATTGCTATG
ATGTCCAACTCTTATCAAATCATTTCTGAAAGAGCAGACGTAGAATGGAAATTTGCACGC
AGCAATCTGTGGATGTCCTACTTCGAGGATGGTGACACAGTCCCACCACCGTTCAATATC
ATCCCCACACCGAAACACGTGAACGGATGGATCACGAAGATACTTAGCAGCAAGGAGAGG
GGCTCCATCATTAACAAATCTCGCGAGAAAGCACGACAACAACACGAAGCAGTTATGCGC
GTTCTCGTACGAAGATATGTGACAGCGGAACAGCGAGCCAGAGATGAGGTCGGAGTCACC
GAGGATGACGTCATGGAGATCAGACAGGACATATCCACTCTGCGATTCGAGCTGATAGAT
ATACTTGCAAACAATGGCATGAAAACTCCAAGGGTTAACGTACATGATACCACAATATCG
GGCAAGAAAGGCAAAGTCATGGAGAGAAGAATCCTCAAGGACTTCCAGATCGGCATCGTG
GAAGGTATCATCAAAGACGTGATCTCCAAAGAGAGCAAGCCGAAAGATGTGTTCAGTCAG
ATCGCTAAAGCAATCGTTAGACGTGGCAGTGAAATGGAAAAGAAACGCGATTGGAATGCT
CAAGTCCGACGAAGCACTATCCGTCGTGACCCCATCGGCAGCACAGCGGAGGCACAGACT
AAGCGCAGCCGACAGTCGCTGAGAGCCCACATCTTGGACAACGTTAGCGCCAGGACCATA
GACCCGCAGAAGTTGTTGCAATATAATCCAAATCTGTCAACCGTGACGCCAACAACTCGA
GTCGCCTACGCGAAATTCATGAGGAGCAAGATAAAGTCAGATTTCACGGAAACAGACAAT
GTGGAAGAACTCAATGAAGACCAAATAGCGGCACAGAGCAACGATAAAATTCGCCAAGCG
TTCCGTAAGAAGAAACCACCAGTCGACAAGGAAGATGGCAATCCTCAATCCACGGAAATA
AAAGTCGAAGCTGAAATAGAAAATAAAGGCGCTGCAAGCGGATCGGATGAAGCGAAATCA
CCTCAAAAACCATCTGGTTCCAAATCCCCAGATCCACCGAAACCCACAGAACCTGAAAAA
GCCCCTGAACCACCAGCTAAACCTGAACCCAAAGATCACGTGATCCAGATAGAAGAACCT
GAATCACCATCAAAAAGCCTTTACATAACCAAGGAAGAGGACCAAAATTTGCAAAAACCA
ATTTCACCGACACCCAGTGGACAAACCGAGCAGATTCTTTCAGCTGCAACTCTTGAATCC
GACCAACAGAAAGAAGCCAAGCAACCAAGTGTAACCATAACTGTACCAGAAGAAGAAGCA
GAACCCAAACCGAAAGAAACCAAACCAAAACCTCCCAAACCAAAAGAAAGTAAACCCGGT
CCTTCTACTCTGGCTCCATCTCCAGCACCCAAACCAGCTCTGGTCACGGATAAAGGAAAG
TCAAAAGTAACCGGCAAAATAGTATCTGGTTGGCTTTAA
Protein sequence:
MKTMKNKRRKKRVRFDMNTMIIPTENRYHDHNNLSTKNKNITEASYKKDNKKSDYGDLDH
QCGDVSDSMRFDCHPQGGASEEACTKRGCCWGATAVQGAPYCYYPKHYPSYRFMNSTENK
HSMTVYYAHGLDTGYPGQWGTVMVTFNYLADDVLQIKVRTPYPEVPVVSGRVTSLQYRVL
VDSAAVGFKVIRTEDNFKMNRGSREELLGSSTEAIRNSQHDLRSIAERPLTREEKSFLLN
ADRGDYNTVKKLIDAYSSKPDVLDINCVDPLNRSALIAAIENENIELIKLLLNSGIKVKD
ALLHAIKEEYVEAVELLLQWEEENHVPGEPYSWESVDASAATFTSDITPLILAAHRNHYE
ILKLLLDRGATLPVPHDVKCGCDECVKSSSEDSLRHSQARINAYRALSSPSLIALSSADP
LLTAFELSWELGRLSQMETEFRIEYKTLRLQVQEFATALLDHTRTSQELEIMLNYNPWEL
DCWEPGERQTLGRLKLAINYKQKMFVAHPNVQQLLGTIWYEGLPGFKRKNMIGQCVQVAK
LGVMFPVYCTLYMLAPDSEYGQFMKKPFVKFICHSSSYMMFLMLLSLASQRAEYLVLEWS
GISWLQELVEFWKQRERGSLPGLIESTVVLFIASLVWGEIRSLWSGGLMEYLSDLWNIVD
FITNVFYISWISLRFTSWYIVQRDYNSGKDPWYPRDKWDSFDPMLLSEGAFAAGMIFSFL
KLVHIFSINPYLGPLQVSLGRMIIDIIKFFFVYMLVLFAFACGLNQLMWYYAELEKNKCY
HHPSGVADFDTQERACSIWRRFANLFETSQSLFWASFGLVDLTTFELTGIKSFTRFWALL
TFGSYSVINIIVLLNMLIAMMSNSYQIISERADVEWKFARSNLWMSYFEDGDTVPPPFNI
IPTPKHVNGWITKILSSKERGSIINKSREKARQQHEAVMRVLVRRYVTAEQRARDEVGVT
EDDVMEIRQDISTLRFELIDILANNGMKTPRVNVHDTTISGKKGKVMERRILKDFQIGIV
EGIIKDVISKESKPKDVFSQIAKAIVRRGSEMEKKRDWNAQVRRSTIRRDPIGSTAEAQT
KRSRQSLRAHILDNVSARTIDPQKLLQYNPNLSTVTPTTRVAYAKFMRSKIKSDFTETDN
VEELNEDQIAAQSNDKIRQAFRKKKPPVDKEDGNPQSTEIKVEAEIENKGAASGSDEAKS
PQKPSGSKSPDPPKPTEPEKAPEPPAKPEPKDHVIQIEEPESPSKSLYITKEEDQNLQKP
ISPTPSGQTEQILSAATLESDQQKEAKQPSVTITVPEEEAEPKPKETKPKPPKPKESKPG
PSTLAPSPAPKPALVTDKGKSKVTGKIVSGWL