| New model in OGS2.0 | DPOGS213744 |
|---|---|
| Genomic Position | scaffold715:+ 4638-10859 |
| See gene structure | |
| CDS Length | 3060 |
| Paired RNAseq reads | 1325 |
| Single RNAseq reads | 3558 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA009273 (0.0) |
| Best Drosophila hit | trp-like, isoform B (0.0) |
| Best Human hit | short transient receptor potential channel 5 (2e-110) |
| Best NR hit (blastp) | calmodulin-binding protein trpl [Culex quinquefasciatus] (0.0) |
| Best NR hit (blastx) | calmodulin-binding protein trpl [Culex quinquefasciatus] (0.0) |
| GeneOntology terms | GO:0005516 calmodulin binding GO:0005886 plasma membrane GO:0016028 rhabdomere GO:0009416 response to light stimulus GO:0019722 calcium-mediated signaling GO:0008086 light-activated voltage-gated calcium channel activity GO:0005887 integral to plasma membrane GO:0005262 calcium channel activity GO:0006816 calcium ion transport GO:0009628 response to abiotic stimulus GO:0005515 protein binding GO:0016027 inaD signaling complex GO:0005261 cation channel activity GO:0015279 store-operated calcium channel activity GO:0055085 transmembrane transport GO:0016021 integral to membrane GO:0007589 body fluid secretion |
| InterPro families | IPR020683 Ankyrin repeat-containing domain IPR002110 Ankyrin repeat IPR000435 Tektin IPR013555 Transient receptor potential II IPR005821 Ion transport IPR004729 Transient receptor potential channel |
| Orthology group | MCL10107 |
Nucleotide sequence:
ATGGATAAAAAAGATTTGGAATGTGGTGACCTAACAATAGCGCGTCAGGCTGCAAACCTG
CCGACGCTACCGAAACAACTTACCCTCGAGGAGAAGAAATATTTACTGGCCGTAGAAAGA
GGAGACTTGGCAAATGTTAGAAGGATGCTTCAAAAAGCTCATCGGAAGAAAACTATGGAC
ATCAACTGCGTGGATGCTCTCGGTAGAGGGGCCCTTACCATGGCTATTGAGGGCGAGAAC
CTTGAAATGGTAGAACTGTTGATTGTGATGGGAGTTACTACCAAGGATGCTTTGCTGCAA
GCAATAAACGCGGAATTCGTGGAGGCGGTGGAACTTTTATTGGAACATGAGGAATTAATT
CACAAGCATCCAGAACCCTACAGTTGGCAGAAAGTGGATCCAAATACAGCCATGTTTACA
CCCGATATAACACCGCTTATGCTGGCAGCGCACAAGAATAACTACGAAATAATCAAGCTG
CTACTGGATCGAGGCGCGACTTTGCCAGATCCTCATGATATACGGTGTGGCTGTGACATT
TGTATAAGGGACTCTTCGGATGATTCTCTCAGACACTCACTAGCAAGACTCAACACTTAT
AGAGCTTTGGCGTCACCATCATTGATAGCGTTATCAGCAACTGATCCTATACTGACTGCC
TTTCAATTATCTTGGGAGTTACGGAACTTGGCTTTTGCCGAACAGGAAAGTAAATCACAG
TATTTAGAACTTCGGCGCAAAGCGCAGAAGTTTGCAGTAGATTTATTGGATCAATCGAGG
AGTTCGAAGGAGTTGGCAATTATTTTGAATCATGACCCTGAAGAAGCGCCTTTTGAGGAA
GGGGAGCATATGAAGTTAGCCAGATTGGAATTGGCGATAAACTTAAAGCAGAAAAAGTTT
GTCGCCCATCCAAATATACAGCAATTATTAGCTACCATTTGGTATGATGGTGTACCAGGA
TTTCGCAGAAAGACTGCCTTTGAAAAGATCATGATAATAATGAGAGTGGCGTTAATGTTC
CCCTTTTATTGCTGTATGTATATGATAGCACCGAACTGCTCTACCGGCAGATTAGTGAGG
AAACCCTTCATGAAGTTTTTGATACACGCCTCCAGCTATTTATTCTTTTTGTTGATTCTA
ATCTTGGTCTCTCAAAGAGTTGATGTCCAACTGATCCAAACCTTTGGTCCAGACTGGATG
GTGAAAGACCTGGATCAAGAGTTGACGAAACAACGAGGGAATGGACCCACATACTTGGAG
CTTGTCGTGTTGATATATGTTGTTGGTTTCATCTGGCAAGAAACTCATGAGATCTACATC
GAAGGTATCCGCTCCTATCTTCGCAACATGTGGAACTTTATCGATTTCACTCGGAACACC
CTATACGTCGCTGTAGCTATCCTCCGACTTGCTGCTTATATTCAACAAACGGCCGAAATT
AAAAAGGATCCTCAAACAAGATTTATTCCGAGAGAACAATGGGACGCCTTCGACCCTCAA
CTGATAGCGGAAGGGCTGTTTGCTGCGGCTAACATATTTAGTGCCCTCAAGTTGGTGCAC
CTGTTCTCCATAAACCCCCACCTTGGCCCGCTTCAGATATCCTTGGGTCGGATGGTTATA
GACATCGTCAAGTTCTTCTTCATATACAGTTTGGTGCTTTTCGCTTTCGCCTGTGGTCTG
AACCAATTGCTTTGGTACTTTGCCGATTTGGAAAAACGTAAGTGTTACGTTTTGCCGGGT
GGCTTGCCGGATTGGGATCACGCTGGTGATTCATGCATGAAGTGGCGCAGCTTCGGCAAG
AATGTTATTGGGGCTCCGGTAGCCACTACTAGGTTGTCCGAGCAAGCCATAGTCTGCATG
CCGCCTAGAGCATCAAAGTTTACGCTGTCGGAATGGAAGTTGAGCAACGAACAGAGATGT
AGGAATACCGAAGATCAACAGCAATTAGCAGATCGGGTCTTGGGTGAATGCGAGAGAGTA
CGCGATGAAACTGCTGAACGGGCTTCCATCATGAAAGCGACTTCCGATAGACGAATAGAA
GAAAGGATTGGGGACATAGAATATAATAAAAAGGAGCTGCAGTTGCAAAGGAAGGAAATT
TGCCTTGAACTTGAAGCTTTAAGTGTTTACAAGACCCGATTGCTGGACTGTCTCTCATCC
CTGCAAACGAATGCACTGACCATTTGTCAAAAATGTTTGATGCTTAGAGATGGACGAATT
GGCATTGACTTGGTGGTTGATGAAGTAGAGCATGCTCTTCAGCAAGAAATCACCACAATA
TTAGGAGGACAAAGTTTACTTAAAAGAGCTTTAGAACAATTGAACGAACAAATGCGGCGT
CTTAGATCTACTCGTTACCTTCTTGACCGTGACTTGCAGTACAAACAAGCGGCTATAGAT
TTAGATAAGGGTTCTTTATCTCTAAAGCCTACTGATTTGTGTCTCTCTATTTACGAAGGC
TACGCTAATCTTGATCCAGCCAACATATCAGCCGATGAGTACAATGCTTATTCCGCCAAA
AACATCCAGAGTGCCGCAAGAGAAGTAACCAGTGCTCGCCCTATCCGCGTTTTCATTGAT
ATATTGTTAAAACAGGTGATTGATGATCTTTGGTCCGCATTTAATAAATGCAATCACGAA
TTCAAAGAGCGAATTGAAGACACAAAGCGGACTAAAGCGAAACTTGAAGACATGCATAGA
GAAACAACACAGAAAATAGCGGATATGGAGGAAAATATCTTGGAATTGCAAAAAGCTCTG
TCTGCAAAAGAAGGGAACATAGCATTGGCTCACACAAGACTAGGGAGAAGAGCACAAAGA
ATTGGAGCGGAATTAGTCCGGGATCCACCAGGACAAGCTCTGTATTACGAGTGTGAGATG
TTGCGCAAGAGTACTGAGGAATTGCAGCAAATGCTCCACGAAGCGACATCCTCGCTACGT
TACTTACTCCAGACCCAGATACAGTTGGAAGAAGATATTAATGTGAAGATGAATTCTTTG
AAAATCGATGAAGTGGACTGTATGACCCTGCGTACAACTATGGATTATCACGCCTACTAA
Protein sequence:
MDKKDLECGDLTIARQAANLPTLPKQLTLEEKKYLLAVERGDLANVRRMLQKAHRKKTMD
INCVDALGRGALTMAIEGENLEMVELLIVMGVTTKDALLQAINAEFVEAVELLLEHEELI
HKHPEPYSWQKVDPNTAMFTPDITPLMLAAHKNNYEIIKLLLDRGATLPDPHDIRCGCDI
CIRDSSDDSLRHSLARLNTYRALASPSLIALSATDPILTAFQLSWELRNLAFAEQESKSQ
YLELRRKAQKFAVDLLDQSRSSKELAIILNHDPEEAPFEEGEHMKLARLELAINLKQKKF
VAHPNIQQLLATIWYDGVPGFRRKTAFEKIMIIMRVALMFPFYCCMYMIAPNCSTGRLVR
KPFMKFLIHASSYLFFLLILILVSQRVDVQLIQTFGPDWMVKDLDQELTKQRGNGPTYLE
LVVLIYVVGFIWQETHEIYIEGIRSYLRNMWNFIDFTRNTLYVAVAILRLAAYIQQTAEI
KKDPQTRFIPREQWDAFDPQLIAEGLFAAANIFSALKLVHLFSINPHLGPLQISLGRMVI
DIVKFFFIYSLVLFAFACGLNQLLWYFADLEKRKCYVLPGGLPDWDHAGDSCMKWRSFGK
NVIGAPVATTRLSEQAIVCMPPRASKFTLSEWKLSNEQRCRNTEDQQQLADRVLGECERV
RDETAERASIMKATSDRRIEERIGDIEYNKKELQLQRKEICLELEALSVYKTRLLDCLSS
LQTNALTICQKCLMLRDGRIGIDLVVDEVEHALQQEITTILGGQSLLKRALEQLNEQMRR
LRSTRYLLDRDLQYKQAAIDLDKGSLSLKPTDLCLSIYEGYANLDPANISADEYNAYSAK
NIQSAAREVTSARPIRVFIDILLKQVIDDLWSAFNKCNHEFKERIEDTKRTKAKLEDMHR
ETTQKIADMEENILELQKALSAKEGNIALAHTRLGRRAQRIGAELVRDPPGQALYYECEM
LRKSTEELQQMLHEATSSLRYLLQTQIQLEEDINVKMNSLKIDEVDCMTLRTTMDYHAY