| New model in OGS2.0 | DPOGS203987 |
|---|---|
| Genomic Position | scaffold2:+ 1116643-1127677 |
| See gene structure | |
| CDS Length | 3588 |
| Paired RNAseq reads | 10 |
| Single RNAseq reads | 35 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA002131 (0.0) |
| Best Drosophila hit | transient receptor potential A1, isoform F (0.0) |
| Best Human hit | transient receptor potential cation channel subfamily A member 1 (9e-160) |
| Best NR hit (blastp) | AGAP004863-PA [Anopheles gambiae str. PEST] (0.0) |
| Best NR hit (blastx) | AGAP004863-PA [Anopheles gambiae str. PEST] (0.0) |
| GeneOntology terms | GO:0006816 calcium ion transport GO:0005262 calcium channel activity GO:0009266 response to temperature stimulus GO:0016020 membrane GO:0055085 transmembrane transport GO:0005216 ion channel activity GO:0006811 ion transport GO:0043052 thermotaxis GO:0009408 response to heat GO:0034605 cellular response to heat GO:0042745 circadian sleep/wake cycle GO:0007613 memory |
| InterPro families | IPR002110 Ankyrin repeat IPR020683 Ankyrin repeat-containing domain IPR005821 Ion transport |
| Orthology group | MCL17469 |
Nucleotide sequence:
ATGGGTTCATTTACGTATACTAGACGGAACGTCTTGAGTTTAAAACATGGCGCTAAAAGG
CTACCGCGCAATTGGTCAAAACTATTCGGTTTGACGCCAAAGTTTCCCATTGAAGAATTG
TTTTTGGCGGCTGAAAGTGGAAATGTGGAAGATTTTATGCGTCTGTACCTAACGGAACCA
TCCCGAATATCCATCCGCGACTCTAATGGCCGCACTGCAGCTCATCAAGCAGCTGCTAAA
AACCACACAAACATCTTGCACTCCATTAATAAATACGGCGGAGCATTAGATATAGCAGAC
AACGCCGGGAATACGCCGCTTCACTTAGCAGTAGAAAATGAGTCACTAGATGCCATAGAT
TTTCTACTTCAGCAGAATGTAGATACTTCAAGTTTGAATGAGAAACGTCAGGCACCCATC
CATTTAGCCACAGAATTAAATAAAGTATCTGTACTAAAAGTTTTTGTAAAACATAAAACT
AAGTTTGACGTTGATATCGAGGGGGAACATGGTCGCACAGCTTTGCATTTCGCTGCTATT
CACGACCACGATATGTGTGCTAGAATATTGATTTCTGAATTGGGAGCCCAATGTAAACTT
CAATGTAATAATGGGTACTATCCTATTCATGAAGCTGCGAAGAATGCTTCCTCGCGTACT
ATGGAAGTCTTTCTTCAATGGGGTGAATCTGAAGGTTGTACAAGGGAAAAGATGATGTCC
TTACATGACAACGAAGGGAACGTTCCTCTTCATTCTGCCGTACATGGAGGTGACATCAGG
GCTGTGGAGCTCTGTTTGAGATCTGGTGCTAAGATATCAGAACAACAATACGATTTTTCC
ACGCCCGTACATCTAGCCTGTGCTCAGGGCGCTCTAGAAATAGTAAAGTTGATGTTTACA
ATGCAACCAGAAGAGAAAATGGCATGTTTAATGTCCTGCGATGTACAGGAAATGACGCCT
TTACATTGTGCCGCAATGTTCGATCATCCTGAAATTGTTAAGTATCTTGTGAATGAAGGA
TCTGATCTGAATCCTTTGGATAAGGAAAAAAGGTCTCCTCTACTGTTGTCTGCCTCACGA
GGCGGTTGGAGAACTGTTCATACATTTATTCTTCTCGGTGCGAATATGGAACTGAAAGAC
ATAAATTCTCGGAACGTGCTTCATCACGTTGTTATGAACGGAGGTCGTCTAGAAGATTTT
GCAACAACTTGCAAAAATCGATGCGAAAAAAGTCTTTCACAATTACTAAATGAAAAAGAC
AATAACGGTTGTTCGCCCCTACATTATGCCAGTCGAGAAGGCCACATAAGGTCCTTAGAA
AATCTCATAAAGCTCGGTGCCTGTATCAATCTCAAGAACAATAATAACGAGAGTCCACTG
CACTTTGCCGCGAGATATGGGCGATATCACACAGCGTGCCAGCTATTAGATTCTGATAAG
GGAACTTTTATCATAAATGAAAGTGATGGGGAAGGACTCACACCATTGCATATCGCATCA
CGGGAAGGTCATACGAGAGTGGTACAATTGTTACTCAATCGAGGAGCTTTGCTGCATAGA
GATCATAATGGACGCAACCCACTTCATCTTGCAGCAATGAGTGGATATACTCAGACCGTA
GAACTTTTGCATTCAGTTCACTCACATTTGCTGGATCAGACTGATAAAGATGGAAATACA
CCACTTCACTTAGCTACAATGGAAAATAAGCCTAACTCTATAGCATTGCTGTTATCTATG
GGCTGTCAGTTGAGTTACAACTCGTTGGAAATGAGTGCTATCGACTATGCAATTCATTAC
AAATTCCCAGAGGCTGCTCTAGCAATGGTGACTCATGAAGAACGAGCTAAGGAAGTTATG
GCTTTACGATCAGATCGTCACCCTTGTGTCACTCTCGCACTGATAGCTTACATGCCTCGA
GTGTTTGAAGCAGTTCAAGATAAGTGTATAACAAAAGCTAACTGTAAAAAGGATTCTAAA
AGTTTCTATATCAAGTACAGCTTCGAAACGCTATGTCCACAAACGATAAACGATGACTGC
AACAGAATAGCAGATACTGCATTGAAATCTCAGAAAAATCCTCTGTCTGCGTTAAACATT
AAGTATTCTTTCAAATTCTACCAACACTCGAGGCTTGAGATAGATGCGCTGAGACAGGCG
CTGAACGACCCAAAGTTTCGACCAGAACCGTTGAGTGTTATCAACGCAATGGTAGCTCAC
GGTCGCGTTGAATTGTTAGCTCATCCTTTGAGCCAAAAGTATCTTCAAATGAAATGGAAT
TCTTATGGAAAATATGTCCACCTACTGAATCTCTTAATATACTGCATAATCCTCCTATTA
GTGACGCTGTATATTTATTTTTTGATGACCAAAATGCCTAAGAATATGAATACAGCAAGC
CATGTTAGCAATGAGACTGCATATGTATTTAATTCTCTATTAAATGACACTGCTACTACT
GGTTTCAAGCAAGATTTCGGAATATATGCTAGTGCAGGGATTATATTAACTTATAACTTC
ATTTGTGTGATACGCGAAATGTACAATATAAAGGAACAAAAATGGCATTATATTGTTGAC
CTCTCGAATTTTGTTTCCTGGATGCTGTACGTCAGTTCAACACTCATGACTTTGCCATCT
ATATACCCAATTTATCAAAATATTCAGTCTTCAGCTGCTTCAATTACCGCCTTCTTAGCA
TGGTTCAAATTGCTACTACTACTTCAACGCTTCGATCAAGTTGGGATCTACGTGGTTATG
TTTTTGGAGATACTACAAACACTTATTAAAGTTTTGATGGTGTTTTCAATACTAATAATA
GCATTCGGACTAGCCTTCTTCGTCCTTTTATCTAATGTTGATGTTAACATATTTTTTCTG
CAGGGCCAGCATTTATCATTCAGCAGCATACCGATGTCATTGATGAGAACATTCACGATG
ATGTTGGGAGAGATTGACTTTGTTGGTACTTATGTCCAACCCTACTATAAGACAGAAATA
GACGTTCTCTTACCTTTCCCTATTCCAACTTTCTTTATCCTCGGCCTGTTTATGGTCTTT
ATGCCAATCCTATTGATGAACTTACTCATTGGTTTGGCTGTCGGAGACATTGAGAGCGTC
AGGCGAAATGCGCAGCTAAAACGCTTGGCTATGCAAGTAGTTTTACATACAGAATTAGAA
CGAAAATTGCCTGCTTGCATTTTGGAAAATGTTGACAAAGATGAACTGATTGAATACCCA
AACAACAACAAATGCAAACTCGGTTTCCTTGACTTAATTCTACGGAAATGGTTCTGCAAT
CCATTCACTGACGACGCCGTCGGTCTTGACTTGGTCCTGGAGAGTAAAGAAGATTACATG
ACTGCTGAAATGGACAAGCAGAAGAGACGTTTACGCGAAATGTCACAATTACTTGAACAA
CAGCATACTCTTATTCGTCTCATTGTGCAGAAGATGGAAATAAAAACTGAAGCTGATGAT
GTCGACGAAGGGGTTTCTCCAGCGGAAACGCGTGTTGTACCGAGGTGGAGTACACCACGC
ATCAGAAAACAACTTCACACCGCTGCGTCATTTAATAAAGGGATCTAA
Protein sequence:
MGSFTYTRRNVLSLKHGAKRLPRNWSKLFGLTPKFPIEELFLAAESGNVEDFMRLYLTEP
SRISIRDSNGRTAAHQAAAKNHTNILHSINKYGGALDIADNAGNTPLHLAVENESLDAID
FLLQQNVDTSSLNEKRQAPIHLATELNKVSVLKVFVKHKTKFDVDIEGEHGRTALHFAAI
HDHDMCARILISELGAQCKLQCNNGYYPIHEAAKNASSRTMEVFLQWGESEGCTREKMMS
LHDNEGNVPLHSAVHGGDIRAVELCLRSGAKISEQQYDFSTPVHLACAQGALEIVKLMFT
MQPEEKMACLMSCDVQEMTPLHCAAMFDHPEIVKYLVNEGSDLNPLDKEKRSPLLLSASR
GGWRTVHTFILLGANMELKDINSRNVLHHVVMNGGRLEDFATTCKNRCEKSLSQLLNEKD
NNGCSPLHYASREGHIRSLENLIKLGACINLKNNNNESPLHFAARYGRYHTACQLLDSDK
GTFIINESDGEGLTPLHIASREGHTRVVQLLLNRGALLHRDHNGRNPLHLAAMSGYTQTV
ELLHSVHSHLLDQTDKDGNTPLHLATMENKPNSIALLLSMGCQLSYNSLEMSAIDYAIHY
KFPEAALAMVTHEERAKEVMALRSDRHPCVTLALIAYMPRVFEAVQDKCITKANCKKDSK
SFYIKYSFETLCPQTINDDCNRIADTALKSQKNPLSALNIKYSFKFYQHSRLEIDALRQA
LNDPKFRPEPLSVINAMVAHGRVELLAHPLSQKYLQMKWNSYGKYVHLLNLLIYCIILLL
VTLYIYFLMTKMPKNMNTASHVSNETAYVFNSLLNDTATTGFKQDFGIYASAGIILTYNF
ICVIREMYNIKEQKWHYIVDLSNFVSWMLYVSSTLMTLPSIYPIYQNIQSSAASITAFLA
WFKLLLLLQRFDQVGIYVVMFLEILQTLIKVLMVFSILIIAFGLAFFVLLSNVDVNIFFL
QGQHLSFSSIPMSLMRTFTMMLGEIDFVGTYVQPYYKTEIDVLLPFPIPTFFILGLFMVF
MPILLMNLLIGLAVGDIESVRRNAQLKRLAMQVVLHTELERKLPACILENVDKDELIEYP
NNNKCKLGFLDLILRKWFCNPFTDDAVGLDLVLESKEDYMTAEMDKQKRRLREMSQLLEQ
QHTLIRLIVQKMEIKTEADDVDEGVSPAETRVVPRWSTPRIRKQLHTAASFNKGI