| New model in OGS2.0 | DPOGS211899 |
|---|---|
| Genomic Position | scaffold1343:+ 1201-4062 |
| See gene structure | |
| CDS Length | 2862 |
| Paired RNAseq reads | 1571 |
| Single RNAseq reads | 4144 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA001166 (0.0) |
| Best Drosophila hit | painless (3e-86) |
| Best Human hit | transient receptor potential cation channel subfamily A member 1 (6e-14) |
| Best NR hit (blastp) | PREDICTED: similar to GA13986-PA [Acyrthosiphon pisum] (3e-144) |
| Best NR hit (blastx) | PREDICTED: similar to GA13986-PA [Acyrthosiphon pisum] (8e-139) |
| GeneOntology terms | GO:0005262 calcium channel activity GO:0006816 calcium ion transport GO:0019233 sensory perception of pain GO:0016021 integral to membrane GO:0009612 response to mechanical stimulus GO:0009408 response to heat GO:0005216 ion channel activity GO:0050974 detection of mechanical stimulus involved in sensory perception GO:0055085 transmembrane transport GO:0016020 membrane GO:0006811 ion transport GO:0043052 thermotaxis GO:0007631 feeding behavior GO:0007620 copulation GO:0045924 regulation of female receptivity |
| InterPro families | IPR020683 Ankyrin repeat-containing domain IPR002110 Ankyrin repeat IPR005821 Ion transport |
| Orthology group | MCL13213 |
Nucleotide sequence:
ATGACGAAGGACAGCTACGAGATGAACAATCGTCTGTCTCGAGGCGGCTCGCTGTTCGGC
GGCGATCCTCAAGTGCAACTGCGAACCGCGCTCCGTTCCAACGACTACGGAACATTCAAG
AAGCTAGTCAGTTACGGTGCCGTCGACCTCGAACACGTGTACCCTTACCCCGACTACAAG
ACCTGCCTGGAAATCGCAGTTTCAGAACCAAATAAAATAGAATTCATCAAACTCTTACTC
CAGCATGAGGTCCAAGTTAATAAAATCAACGAAACACATGGCGGAGCACCGATCCATTTC
GCTGTTGAGAACGGTAACGCTGAGGCTTTAGAAGTACTCCTAGAAGATGACAGAATAGAT
CTGGACACGAGGTGGAAAGGCAACACCGCGCTACTGATGGCCATCAAGCAGATACAAGAT
TTAGACGAAGATCGTGAACACGACCTGGACATATATGAGGATATGGTAGAGAAGCTTCTC
AAAGCCGGATGCAACGCCAATTCCCCAGATCTGAGAGGTATAACACCTGTATATTCGGCA
GCTAAGCAAGGTCTAGAGAGGGTCGTGACCCTGATCTTAGACTATTCAAAAGATCCAATC
GATTTAGACACTTATAAAGATATAAAAGGCAAGACAGCAAGGTACTATTTGAAAGAGGCA
TTTCCACATTTACTGCCAAAATTTGATTCCGCCGTAGAAAACATTGAGCCCAGTATCGAC
AAGGATTTACTGTTTTCATATTTACTAAGACATGAAGAAGATAATTTTATAAGAGACTTC
ACTAAGCTCAGTAGAAAGAACGAACATCGAGCCATGCTTGCGGCAGATAACGGCATGAAT
ACGATGTTGCAACTGGCAGTTGACAAAGGACTGGAAAAGGTCGTGCAGACATTACTCAGT
GCGGGTGCAGACGTGAACGCCACTTGTTCAGGAAACAACAGACGACCCATCGCTATAGCG
TGCCACAACGGGTATCATAAGATCCTTAAAATGTTTATAGACAGCGATTCCAGTCTGTTC
GACCCGGTCAACAGCGAATCCCTGGTGCAAATCACCGTCAAAGGAATGCGAAAAGCTGTC
GAGAGTCCGAAGATCAATTACAAAGCTTGCTTGAACTTATTGTTGAAGCATCCCAAAGTT
AACGTCGACATCAACCACCAGGACATGAAGGACAATACAGCGCTACACTACGCTGCCAGG
AGCGGCGACAGCGAAACCGTTTTAGATTTACTGAGAAACGGAGCGTGCGTTGGTCTCAAT
AACGCGTTCGACGAGCCCCCGCTAGCCGACATCAACGCAAAAACACTAGAAACCTACTTG
GACGAATGCATCACGACGAACAGCGAGCGGCCGAGTGACGAGAATTACGAGATACATATG
AAATACAGCTTTCTGGTGTATCCGAATAATTCGTTGGAAAACGAACTGTGCCAGGTGCCG
CTCATGGAAAAATCGAACAATAATAACGACAGCATCAGAAAATGTGACGCCATTTTAGCT
CCGGAGACGGAAGCGCTCTTATACATGACAAGAAATGAGGAATTGCGGCCGCTCCTGAAA
CATCCAGTCATAACGAGTTTCCTTTACTTGAAATGGCAAAGGATAAGTTGCCTGTTCTAC
GCAAACATAACCTTCTACTCTCTCCTGTGGCTGTGTTTGATTCTATATATCATTTTGGGC
TACGGAGTGGAAGGTCGGAAAAATAAATCCGTTGAAGCCCTGAATGTTCTGACGCACGTC
GGAGCTGTCATTGGATTGATACTTCTGATTATGCGCGAGCTGTTCCAACTGCTTGTGTCA
CCGACACGATATTTGCAGAGCATAGAAAATTGGATGGAGATAGCTTTAATATTTGTCACC
GCCTGGATTCTTGGTTATGACGCTGCAGAGGAATCGACTAAACAACAATTATCAGCTGTC
GCCATATTACTATCATCAGCTGAACTTGTTCTGCTAATCGGTCAATTTCCAACTCTGTCA
ACTAACATCGTGATGCTGCGTACTGTCTCCTGGAATTTCTTTAAATTCCTTCTCTGGTAT
TGCATTCTTATAATAGCATTCGCTCTAAGTTTCTACACGCTGTTCAGGAAAGTTATATCG
GAAGGAGATCAAAAGGCACCGAATCTGAATGAGCAAGCGTCGGAGGACGAGGACGAGGAC
TTCTTTGAAGACCCCGGCAGTTCCTTGTTCAAGACGATCGTCATGTTGACCGGTGAATTC
GACGCCGGTTCTATAAAGTTCAGCACCTTCCCGGTGACCAGCCATCTTATATTCACAGTG
TTCGTGTTCATGGTGCCCATAGTTTTGTTCAATTTGTTAAACGGTTTAGCCGTCAGCGAC
ACACAAGAGATACGAGCGGACGCCGAGCTGGTGGGTCACATATCACGTGTTAAGCTCATT
TCCTACTTTGAAAGCGTTCTCATCGGTAAAGCCTACACCAAGCCGAGGAGATGCTGGTCG
TGGCTGCCGGCATACCTACAGAACGTACACTTCATCAAGCCCCAAATGTTATGCATCAAG
CCGTTCGCCAAGCGAATATGTCTTTTTCCACACTTTCTGCCGAGGTTTCGTATCATCGTG
ATGCCGAATCAGAACAATCGAATCGAAATACCCAGACCTGAACCGCTCATGAAGGCCGGC
GATGATTACGAGGACATCGAGGGCGGGAAGTGCTGTTTTGAAGGATGCCAATCCTTGAGA
TTGGAGCGAAGAATAGTCAAAAACGCTAAATTTATTATAAGCAGACGAACACAGGTTTCA
GAATTCGACGAAATCAAATCAAGGCTCTCCGCGTACGAGAACAAAATCAGCGGTCTGGAG
GTTGCTTTGAAGAAAATCCTTACACGAATGGACATCCCGTAA
Protein sequence:
MTKDSYEMNNRLSRGGSLFGGDPQVQLRTALRSNDYGTFKKLVSYGAVDLEHVYPYPDYK
TCLEIAVSEPNKIEFIKLLLQHEVQVNKINETHGGAPIHFAVENGNAEALEVLLEDDRID
LDTRWKGNTALLMAIKQIQDLDEDREHDLDIYEDMVEKLLKAGCNANSPDLRGITPVYSA
AKQGLERVVTLILDYSKDPIDLDTYKDIKGKTARYYLKEAFPHLLPKFDSAVENIEPSID
KDLLFSYLLRHEEDNFIRDFTKLSRKNEHRAMLAADNGMNTMLQLAVDKGLEKVVQTLLS
AGADVNATCSGNNRRPIAIACHNGYHKILKMFIDSDSSLFDPVNSESLVQITVKGMRKAV
ESPKINYKACLNLLLKHPKVNVDINHQDMKDNTALHYAARSGDSETVLDLLRNGACVGLN
NAFDEPPLADINAKTLETYLDECITTNSERPSDENYEIHMKYSFLVYPNNSLENELCQVP
LMEKSNNNNDSIRKCDAILAPETEALLYMTRNEELRPLLKHPVITSFLYLKWQRISCLFY
ANITFYSLLWLCLILYIILGYGVEGRKNKSVEALNVLTHVGAVIGLILLIMRELFQLLVS
PTRYLQSIENWMEIALIFVTAWILGYDAAEESTKQQLSAVAILLSSAELVLLIGQFPTLS
TNIVMLRTVSWNFFKFLLWYCILIIAFALSFYTLFRKVISEGDQKAPNLNEQASEDEDED
FFEDPGSSLFKTIVMLTGEFDAGSIKFSTFPVTSHLIFTVFVFMVPIVLFNLLNGLAVSD
TQEIRADAELVGHISRVKLISYFESVLIGKAYTKPRRCWSWLPAYLQNVHFIKPQMLCIK
PFAKRICLFPHFLPRFRIIVMPNQNNRIEIPRPEPLMKAGDDYEDIEGGKCCFEGCQSLR
LERRIVKNAKFIISRRTQVSEFDEIKSRLSAYENKISGLEVALKKILTRMDIP