New model in OGS2.0 | DPOGS216168  |
---|---|
Genomic Position | scaffold1113:+ 1716-6683 |
See gene structure | |
CDS Length | 2859 |
Paired RNAseq reads   | 1083 |
Single RNAseq reads   | 2647 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA014186 (0.0) |
Best Drosophila hit   | pyrexia, isoform A (6e-51) |
Best Human hit | transient receptor potential cation channel subfamily A member 1 (1e-28) |
Best NR hit (blastp)   | PREDICTED: similar to pyrexia CG17142-PA, isoform A [Apis mellifera] (8e-67) |
Best NR hit (blastx)   | GJ20915 [Drosophila virilis] (9e-56) |
GeneOntology terms    | GO:0005262 calcium channel activity GO:0006816 calcium ion transport GO:0016020 membrane GO:0055085 transmembrane transport GO:0006812 cation transport GO:0005261 cation channel activity GO:0016021 integral to membrane GO:0051290 protein heterotetramerization GO:0009408 response to heat |
InterPro families    | IPR020683 Ankyrin repeat-containing domain IPR002110 Ankyrin repeat IPR005821 Ion transport |
Orthology group | MCL19670 |
Nucleotide sequence:
ATGCAAAAATTAATTGACAACGATAATTCTTCGACTTTCGACGGTATCAGGAATCAGTTT
GAATTATCATTCGATATGAGACAGAAAGCTCAAGAGATCGTTAATGTGAGATCCGACCTT
GGCGAGATAGAGGTGTCGTTGCCGAAAACATGGAAGGACAATATCGACCATATGTGTATG
GACATAAAAGGCACCGTTATGGGCCCAGGGAGTGAAAAAACAATCGATTTAGTGCATAAA
AGACTAGATTTGAAGGCTCGTCATCACTGCACCAGATTTCTTTTAGCAGCTGGTGCGAAT
CCAAATATCTGCGATGTCATGGGTCGCACACCCCTAGATGTGGCTGGTTCAGCATATTAT
TACAATAAGGAAATCAATCAGAAGAGTTTTACAGAAGTAATTAGGATGCTGCTGAAAGCT
GGTAGCCAGTTTAACACTATGAAAGCTGGTGGCATGAACGTAGACAGTCCGATACACACT
GCCGTGGAACTTAATAACATAGAATGTATTCTAGAATTATTGGATGCAGGAATATCTGTT
TCGTGTCTTAATTCAGAAGGCAAAACACCTTTACACGTATGTGTTGACAAGAAAATGGAC
GACGCTCTAAAGATATTAGCCAACTATAATTACAAAGATGCGGATCCTTTGTCGTCTATG
GTTGATGTCAAGGACAAAGACGGATATACAGTGTTGCATGCCGCTGTCAAAACAGCGTGG
GTCGCTGGTGTTTGTATTGCATTAGAGGCTGGTGCTGATGTAACTATAACAGCAAATGAT
GGCGAAACTGCCATACATTTAGCAGCAGCGTTGGGAAATACAGATGTATTAGATGAAATA
ATCCTACTGACATACCAAAACGGGTTAATAGATTGCCAGAACGAGGAAGGAGAAACGCCA
CTTTTCAAAGCCATTATAAACGGACACTTGAATTGCGTTGAGACTATACTTGAAAAAGGG
GCATCCATAAATATGCTTATGCCTGGGGATGTTAACGTCCTGCACGTGGCTGCAGAGTAT
GGTCATCTAAGCATGTTGGAATTTCTTATGGAGTACGGAGATGGTGTCATAAAACAGTTC
ATAAATTCGCTCACCACACCAGACAGGAGAGGAATAGGAGCCATACATTTTGCAGTACTA
AACAATAACGTCAAATGTTTAGAATATCTCATATCACAAGACGCTGATATTAGATTACGA
ACTACCCCCAGCCCTCACAAATCAGCAACACCTTTACATTTAGCCGCTAATAGAAATTAC
GTGGAATGTGCGAAAGTTATTTTAAATTGTGACAAAACAACCATATTGGAGGTCAATAGC
TTAGGTTGGTATCCGCTACACTCAGCGGGCCATCACGGGAGTAGAGACGTTATATCGCTG
CTTTTACAAGAAGGTGCAGACTTATCAGAATACACTGCAGCGCCGAAATTTAAAAGAACA
GCTATCGATATGATAATAAATAACGTGTCCAAACCGACCGAGTTCCTAGAGGATGTATTC
GATTCATACATATCATCTAATTCTCAGAACTTAAACGACTCCAAGTGTGTAGTGACCGTG
GATTACAAAATACTGTTGCCAACCGCCTGCGAGATGGAACAGATGAAAGTTGTTGAATCT
TTACTTAAAACTGGAAATCGTTACGGCCAACAGAAACTTCTTGTACATCCCTTGCTCGAG
AGCTTTCTATACTTAAAATGGCAGGCGTTGTTGCCGTTCTTTTATGCTATCATAGCTATT
TACGCGATGTTCGTCTCATCTTTAACCATTTTTATCACATCCATTTTCTTTTACAAAGAT
ACCAATACAGATAGGCCGGCTTACCTCGCTCCACACATTTGGAGCTATGTCGTATATTCA
ACAATATGTCTTATAATATTGCAGGAGCTGTTGTACATGAATTTAAAAAATACCAGATAT
TTTCGACAACTAGAAACTTGGATAAAAGTATTTTCTCTTCTCCTAGCGGCCAGCTTACCT
CCAGTAGTAGCATTTTTTTCTGACAGTGTCACCGAATTGCCAAGACACATCGCGACCTGC
GCCCTGCTACTTTCTTGGATAGAACTAATGTTCTTACTATCTAGATTTCCAAATTGGGGT
TATTATGTTCTTATGTTTGGTAAAGTTGCCAGTAATGTAATAAAGATACTCCTCACGTTT
GCGTTCTTGGTGATCGGATTTTCTCTAAGTTTCATGATACAATTCAAATCAGAAATGCCA
TTTGATGGTCCATGGGCTGCGTTTGTCAAAACCATGGTGATGATGACGTCAGAGTTCGAT
TACATGGATTTATTTGATGAGGCGCATTCAAATGACCTCGCAAAATCACTGATAGTGGTT
AGACTAATATTCGTGATATTTCTTATCCTGGCAGCGATAGTCCTCATGAATTTAATGGTT
GGTGTGGCGGTTAATGACATCAATGATTTGGAAATATTAGGCAATATAAGAAGACTCGCC
AAGCAAGTCGAATTTCTCGGTACCTTGGACAACTTAGTTTACAACAAGTTCTTTAGCACC
ATACTGCCACATCGAGTTAGCAAACGACTGCAGAATAAAAGGAAGGTTATGAATGTGATG
TCTTTCTGTCCTGGCAAGACTCGCTGGAGGTTCAATAGATCGGTACCATCGCGTATTAAA
AACGCTATAATCGATAAAGCGCAGCAACAAAAGAAACAGATGGAGGAAGAGTTCCACATG
GAGACCTTTAAAAAGAAAATTGATGAAATGCATGAGGCTATTGTCAATCTGAATCTGTCT
TATAAAGATACACAGGAGGCGACCAATAATGAAGGTACCAAAGAAATAATTCAAGGAATA
AAAAGGTTACACTTAAGGATATGGAAATATTACCAATGA
Protein sequence:
MQKLIDNDNSSTFDGIRNQFELSFDMRQKAQEIVNVRSDLGEIEVSLPKTWKDNIDHMCM
DIKGTVMGPGSEKTIDLVHKRLDLKARHHCTRFLLAAGANPNICDVMGRTPLDVAGSAYY
YNKEINQKSFTEVIRMLLKAGSQFNTMKAGGMNVDSPIHTAVELNNIECILELLDAGISV
SCLNSEGKTPLHVCVDKKMDDALKILANYNYKDADPLSSMVDVKDKDGYTVLHAAVKTAW
VAGVCIALEAGADVTITANDGETAIHLAAALGNTDVLDEIILLTYQNGLIDCQNEEGETP
LFKAIINGHLNCVETILEKGASINMLMPGDVNVLHVAAEYGHLSMLEFLMEYGDGVIKQF
INSLTTPDRRGIGAIHFAVLNNNVKCLEYLISQDADIRLRTTPSPHKSATPLHLAANRNY
VECAKVILNCDKTTILEVNSLGWYPLHSAGHHGSRDVISLLLQEGADLSEYTAAPKFKRT
AIDMIINNVSKPTEFLEDVFDSYISSNSQNLNDSKCVVTVDYKILLPTACEMEQMKVVES
LLKTGNRYGQQKLLVHPLLESFLYLKWQALLPFFYAIIAIYAMFVSSLTIFITSIFFYKD
TNTDRPAYLAPHIWSYVVYSTICLIILQELLYMNLKNTRYFRQLETWIKVFSLLLAASLP
PVVAFFSDSVTELPRHIATCALLLSWIELMFLLSRFPNWGYYVLMFGKVASNVIKILLTF
AFLVIGFSLSFMIQFKSEMPFDGPWAAFVKTMVMMTSEFDYMDLFDEAHSNDLAKSLIVV
RLIFVIFLILAAIVLMNLMVGVAVNDINDLEILGNIRRLAKQVEFLGTLDNLVYNKFFST
ILPHRVSKRLQNKRKVMNVMSFCPGKTRWRFNRSVPSRIKNAIIDKAQQQKKQMEEEFHM
ETFKKKIDEMHEAIVNLNLSYKDTQEATNNEGTKEIIQGIKRLHLRIWKYYQ