New model in OGS2.0 | DPOGS211234  |
---|---|
Genomic Position | scaffold1538:- 26676-32694 |
See gene structure | |
CDS Length | 2796 |
Paired RNAseq reads   | 139 |
Single RNAseq reads   | 408 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA005170 (0.0) |
Best Drosophila hit   | pyrexia, isoform A (0.0) |
Best Human hit | ankyrin-3 isoform 1 (6e-35) |
Best NR hit (blastp)   | hypothetical protein AaeL_AAEL004179 [Aedes aegypti] (0.0) |
Best NR hit (blastx)   | hypothetical protein AaeL_AAEL004179 [Aedes aegypti] (0.0) |
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 |
Orthology group | MCL15170 |
Nucleotide sequence:
ATGCCTTCGGTGAAAATAAAAAGTTCCAGCAGCAAAAAGCGCTATCGTGAGGAAAGCGAT
ACACGATGGAGGGAAGGCATAAGAGAGGTCGCAGAAGATTCCGATGAAGGGGAGGCCGAT
ATCAACGTGGATTATATATCCAGTGACGAGTCCGCGCATATGCCCGACCTCGGAGACCGA
CTTAGGGTTAAATCTAGAGATATTTGGGATTTGGAGGAAATACAGGAAACCCTAAGGCTA
CTACAGTCAGCTGATGAAATATCATCATTGATAGAGACCGCCCATTGCGAAGATGTGGTG
TCTTATGCCCTGGAAATGGATGAAGGTGGTGTACGGTGTGCTATGCTATGGGCTTGTTGG
ATGGGAAAGACCTGTTTACTTTCTAAGCTATTAAAAATCGGCGGAGATCCAAATAGCAGG
GATGATGCTGGCAGGACATGTTTGCATTTAAGCTGTTTAGTTGGAAATGGGGAAACTGTG
AAGCTTTTATTGGAACACGGAGCTGATCCAAATATGTGGGATTCTGTATCTGAAAGAAAA
GCCACTCCACTTCATTGTGCTGCTAGCGCTAAATCTTTGAATTGTGTCAACGCTCTATTA
AATCATGGAGCAGACGTTAATGCCGGTCTTAGCGAGCACTCTCCTTTACACTACGCTGTT
ATGAGCGATGCGCCGGAAGTTGTGAGCGCGCTTTTAGAAGCCGGGGCCTGTCCTGACACG
CCGCAGGTTTTTACAGAGACTCCCTTACATGTGGCCGCGTCATTAGGATCGGCTTCTTGT
ATGAAATTACTTCTGGATGCTGGTGCCGATGTCCGGGCGGCATTAGGACCAGGTCGCGCA
ACCGCTTTGCATCTCGCTGCGGTAGACGGTCACGCTGAATGCGCAAGTCTTTTGCTTGAA
CACGGTGCTAGAATTGACTGCCCGAATTCCAGAGGACAAACCAGTTTACATCTAGCTGCC
TTAGCACAATCTGTGGAGGTAGTGGAGCTCTTGGTTGCGAAACGTGCTGACGTTCGGGCA
AGAGATATTGACGGCAGGACGCCGTTGCATGGCGCTATTGTGAGAGGAGCTCGAGCATGT
GATGTAGCGAGATTACTTCTTTCTGTGGGAGCTGATCCTAATGCACCAGATAATTTTGGA
TACACTCCACTGCATATCGCTGCTCTTAACGAGTTTTCAGCGTGTGTTTTGCTACTTTTG
GATTATGGAGGCGACGTAACACTGCGTACAAATGGCGGAGTGTCAGCCTTGTCGTTTATA
GTTCGACGGGTGCCAGATGTAGTTCCAAGGTATTTATGCAAATTCGATGATGCCGTGCAC
GTGAGTGAACATGAAATCGGCGATGTAGACTGTGAGCTCACTATCGACTTCAGACCACTA
GTACCTTGCCTAACAAGAGGTGAGGCGGAATTGCTACTCGCATTTGTTGAGGTGGGAAGA
AAAGACGTATTGAAGCATCCGGTAGCGGAAACATTCCTGTTTTTGAAATGGCGAAGAATA
AGAAAATTTTTCGTTTTGAGTTTCGCTTATCACGCCATATTCATAACTTTGTATAGCCTG
TATATACTTCAGATTTTTCTGTGTGAAGACGTTACTTGCGATGTTCCAAGCTATCTTCGA
CCAGTACAGTACGTAATAGTACTCTTGAATTTATGTTTTTTATCAAAAGAAATATTTCAA
GCATGTCTGGATTACTCAGCGTATATACGCCAATGGGAGAACTGGTTGCAAATATTAATA
ATCATAGGCGTTTTTCTATGTACAGTGACAATAACCAACACATCAAACTGGCAACATGAC
GTCGCAGCTATAACAATTTTTTTTTGTTGGCTTGAATTAATGATGATAATCGGACGTTTC
CCCACATTCGGTTTATATGTCCAAATGTTCACAACAGTGACTGTGAATTTTGCTACATTT
CTGATGGCCTATAGTTGTCTTCTGATGGCATTTGGTCTGGCCTTCAGTGTGCTGTTTAGC
AACTATCCAGCGTTTCATTTACCAGCTGGTTTGGTTAAAACTGTCATGATGATGTCGGGA
GAGTTGGAGTATGAGGACATTTTCTACAATAACTGCACGAATTCTCAGATACATTATCCT
TTGACCGCTCATGCGATGTTTTTGATATTTGTGCTTCTGGTAACAGTTATATTGACAAAT
CTTTTGGTGGGTTTGGCAGTTAGCGATATACAGGCCCTACAAGAAAGTGCAGGTTTGGAC
AGGCTAGTTAGACAAACTCAACTGGTGGCGCATCTTGAGAGTATGCTTTTCAGTTCTCTG
TTGACATGTGCCCCACAACAGTTGCTTGCCGTTTTGCGGTGGGGTGCCTTGTTGACAGCT
TCACACATGCGTACGTTGAACATCAGGCCCAATGACCCCAGAGAAAATAGGATACCGCGG
GAGTTGATAGCTTCGATTTACAAAATGGTAGCAAGCCGCAAGGACACAAAAAAGAGCATA
CGCAAAAACAATAACTACGAATTTCGCTTAAGAAAAGAAACAGATCAAGAGGACATTGAA
CGCCAACAACACGTTAAAAGAAAAAGTTATTTATATGAAAGATATTCTTGTGAAAGTCAA
AACGTCGAGCGGCGTAAGAAAACTACCAATTCTGGGTCGATTGACAATAAAAATAGACCA
GTATCTTTTTCTATAAACGCTATACAAGAAATATGTATGGTGGATATTAAGAATCAATTG
GCTGAATTGACTAAGAAGATAAACAAGTTGGCCGAAGTAACCGATTCAAAATTAAGTTTC
ATCGACAAAAAATTAGACGAAACTCGACCGCCTTAA
Protein sequence:
MPSVKIKSSSSKKRYREESDTRWREGIREVAEDSDEGEADINVDYISSDESAHMPDLGDR
LRVKSRDIWDLEEIQETLRLLQSADEISSLIETAHCEDVVSYALEMDEGGVRCAMLWACW
MGKTCLLSKLLKIGGDPNSRDDAGRTCLHLSCLVGNGETVKLLLEHGADPNMWDSVSERK
ATPLHCAASAKSLNCVNALLNHGADVNAGLSEHSPLHYAVMSDAPEVVSALLEAGACPDT
PQVFTETPLHVAASLGSASCMKLLLDAGADVRAALGPGRATALHLAAVDGHAECASLLLE
HGARIDCPNSRGQTSLHLAALAQSVEVVELLVAKRADVRARDIDGRTPLHGAIVRGARAC
DVARLLLSVGADPNAPDNFGYTPLHIAALNEFSACVLLLLDYGGDVTLRTNGGVSALSFI
VRRVPDVVPRYLCKFDDAVHVSEHEIGDVDCELTIDFRPLVPCLTRGEAELLLAFVEVGR
KDVLKHPVAETFLFLKWRRIRKFFVLSFAYHAIFITLYSLYILQIFLCEDVTCDVPSYLR
PVQYVIVLLNLCFLSKEIFQACLDYSAYIRQWENWLQILIIIGVFLCTVTITNTSNWQHD
VAAITIFFCWLELMMIIGRFPTFGLYVQMFTTVTVNFATFLMAYSCLLMAFGLAFSVLFS
NYPAFHLPAGLVKTVMMMSGELEYEDIFYNNCTNSQIHYPLTAHAMFLIFVLLVTVILTN
LLVGLAVSDIQALQESAGLDRLVRQTQLVAHLESMLFSSLLTCAPQQLLAVLRWGALLTA
SHMRTLNIRPNDPRENRIPRELIASIYKMVASRKDTKKSIRKNNNYEFRLRKETDQEDIE
RQQHVKRKSYLYERYSCESQNVERRKKTTNSGSIDNKNRPVSFSINAIQEICMVDIKNQL
AELTKKINKLAEVTDSKLSFIDKKLDETRPP