| New model in OGS2.0 | DPOGS215753 |
|---|---|
| Genomic Position | scaffold401:+ 53531-76065 |
| See gene structure | |
| CDS Length | 3267 |
| Paired RNAseq reads | 2147 |
| Single RNAseq reads | 6284 |
| Migratory profiles | Query via corresponding ESTs |
| Best Bmobyx hit | BGIBMGA003629 (0.0) |
| Best Drosophila hit | CG5594, isoform C (0.0) |
| Best Human hit | solute carrier family 12 member 6 isoform e (0.0) |
| Best NR hit (blastp) | hypothetical protein TcasGA2_TC005178 [Tribolium castaneum] (0.0) |
| Best NR hit (blastx) | potassium/chloride symporter, putative [Aedes aegypti] (0.0) |
| GeneOntology terms | GO:0016021 integral to membrane GO:0015379 potassium:chloride symporter activity GO:0006810 transport GO:0009612 response to mechanical stimulus GO:0007638 mechanosensory behavior GO:0006814 sodium ion transport GO:0006821 chloride transport GO:0003333 amino acid transmembrane transport GO:0015171 amino acid transmembrane transporter activity |
| InterPro families | IPR004842 Na/K/Cl co-transporter superfamily IPR004841 Amino acid permease domain IPR000076 K-Cl co-transporter |
| Orthology group | MCL10418 |
Nucleotide sequence:
ATGTCCTCTGAAAAGGAAAAAATGGCCACTGAAGCCAAATCTCCATCAAACAAGAGCAAT
TGCACGTCGCCTGGAAAGAAAGGTGACACCGATGAGTATGGCTTCTCGAAGGACAAAGAC
AAAGGCGACACAACGCTGTACCTCTACCAAGAGGAGATCGAAGACAGGCCTCGAGCGGCT
ACGTTCCTCAGTTCTCTGGCGGACTATTCCAATACCATCCCCACTGCCTCAGCGGCTGAT
CCCGATGCCCCAAAACCGGCACCCCCCGCTCGTATGGGTACCCTCATCGGGGTGTACCTT
CCTTGCATCCAAAACATTTTCGGCGTTATCCTCTTCATCCGTTTAACATGGGTTGTTGGA
ACCGCTGGCGCTATTCAAGGCTTTCTGATTGTGCTTGTCTGCTGTTGTACGACGATGCTC
ACTGCGATATCAATGTCAGCGATTGCTACGAACGGTGTGGTCCCAGCAGGGGGGTCATAT
TTCATGATCGGTCGGTCTCTGGGTCCAGAGTGTGGTGGCGCAGTTGGAATGTTGTTCTAC
ACAGGCACTACCCTCGCTGCTGCCATGTATATCGTCGGAGCTGTTGAAATAGTTCTGACG
TACATAGCACCCTGGATGTCAATTTTCGGCGACTTTACTAAGGATCCTGAAGCGATGTAC
AATAACTTCAGAGTTTACGGAACTGGCCTCTTATTGATAATGGGCATGGTTGTGTTTGTG
GGAGTCAAATTTGTCAACAAGTTCGCTACACTCGCCCTCGCTTGTGTCATTCTTTCCATT
AGTGCTGTCTACGCTGGCATCTTTGTAAACTTCAACGGAAACGATAAACTTCAAATGTGT
GTATTGGGAAAACGTTTATTGAAGGACATTCATATTAGTAACTGCAGCAAGGATTTGGGA
GGCGAACTGCATCAATTATTTTGCCCGAATAATACATGTGATCCATATTATCAACAACAT
GAAGTTTCAGTGGTCCAAGGCATTAAGGGTTTGGCAAGTGGAGTTTTCTTTGACAACTTA
CAAGACTCTTTTCTACAACTTGGACAATATATCGCTTATGGCAAAGAACCAGATGACATT
GAACAGATGGAACGACCAACCTATAACCAGATCTATGCTGATCTTACCACTACCTTTACA
ATTCTCATAGGCATTTTCTTCCCATCGGTAACTGGTATAATGGCTGGATCGAATCGTTCT
GGAGACTTGGCTGACGCCCAGAAAAGCATTCCAATCGGAACAATTTGCGCTATTCTTACA
ACATCGACTGTTTACCTATCTTGTGTGTTACTTTTCGCTGGAACTGTCGATAACTTATTA
CTGAGAGACAAATTTGGACAATCGATTGGCGGGAAACTTGTAGTTGCAAATATGGCATGG
CCGAATCAATGGGTTATATTAATTGGATCGTTCCTTTCTACCCTCGGAGCTGGACTACAA
TCTCTGACTGGCGCACCACGTTTACTGCAGGCTATCGCTAAGGATGAAATAATACCTTTC
CTTTCACCGTTCGCAGTTTCTTCTAGCAGGGGAGAACCAACAAGGGCTTTATTATTGACT
ATGGTTATTTGCCAATGCGGCATCCTTCTGGGCAACGTCGATATCCTAGCGCCATTGTTG
TCTATGTTCTTCCTCATGTGTTACGGATTCGTCAATTTGGCTTGCGCTCTGCAAACGCTT
TTGAAGACTCCCAACTGGCGACCCAGATTCAAATATTACCATTGGTCACTTTCACTAGCA
GGTTTAACGCTTTGTATTTCCATTATGTTTATGACATCATGGTTTTATGCCTTAATAGCT
ATAGGCATGGCTGGTCTTATCTACAAGTACATCGAGTATCGAGGAGCCGAAAAAGAGTGG
GGTGATGGCCTGCGCGGTCTGGCGCTTTCCGCAGCTCGTTATTCATTATTGCGTCTGGAA
GAAGGACCCCCACATACAAAGAACTGGAGACCTCAAGTTCTTGTTCTTGCTAAACTGAAT
GAGGATCTGAATCCGAAGTATCGTAAAATGCTTGCTTTTGCCAGTCAACTTAAAGCTGGA
AAAGGTTTGACAGTTTGTGTATCCGTGTTGGGTGGTGATTTCACCCGCCGCGCAGGGGAA
GCAGCTACGGCTAAACAAAACTTACGCAAATGCATGGATGAAGAGAAAGTCAAAGGATTC
GTTGATGTCCTTGTATCACATAGTATTGCTGATGGCCTGGGCCACTTTGTTCAAACGACC
GGTCTCGGCGGATTGAAGCCAAATACAGTTATTGTTGGATGGCCATACGGCTGGCGACAA
TCGGAAGATGAACGTACTTGGCAAGTGTTCCTGCACACTGTCCGAGCTGTTACCGCCGCG
AGAATGGCCATGCTGGTACCTAAGGGAATCAATTTCTTCCCTGACTCTACTGAAAAGGTC
TCTGGTAACATAGATATTTGGTGGATAGTTCACGATGGTGGAATGTTGATGCTCTTACCA
TTCCTGTTGAAGCATCATCGCACGTGGAAAAATTGCAAGATGCGAATTTTCACTGTCGCT
CAAATAGAAGATAACTCCATACAAATGAAAAAAGATCTGAAAATGTTCCTGTATCAATTA
CGTTTGGAAGCTGAAGTTGAAGTCGTAGAAATGACTGATAATGATATCTCCGCCTACACT
TACGAACGCACCTTGATGATGGAACAGCGCAATCAGATGTTACGTGAACTGAGACTTAAT
AAGAAGGAATCGCTTGGAATGGTTCAAGCCATAGTGGATCATCATCACGCTGATGTGAAG
ACTGCTAGCAAGGTCCGTTTCGCTGAACCTGGTTCGGAGCCGGCAGCCGAAGACGCACCC
TCACCTCCTCTGGCAGAAAACGATGACAAGGACAAAGATGATAAGGACGAATTTCGAAGT
AGTTTGTTGCACATAATCGATTCAATGTGGGACTCGCCCGATGAACGCTCGCAGTGTGAG
TCGCCAACGCCTCCCATCGACGCGGACAAACACAAGGATGGCAACCTCAACGGCGACGCG
CTTAAACCCCAGCCCAACATGCCGATACTGACTCCCGACGAGGGAACGGTTCGACGGATG
CACACCGCCGTTAAGCTGAATGAAGTCATAGTGTCGCGTTCACACGACGCACAATTAGTC
ATACTGAACCTGCCGGGCCCGCCGCGCGACACTAAACTCGAGAGGGAATCCAACTACATG
GAGTTCCTGGAGGTGCTGACGGAGGGACTGGAAAAGGTCCTGATGGTTCGTGGCGGAGGC
CGCGAGGTCATCACTATCTACTCGTGA
Protein sequence:
MSSEKEKMATEAKSPSNKSNCTSPGKKGDTDEYGFSKDKDKGDTTLYLYQEEIEDRPRAA
TFLSSLADYSNTIPTASAADPDAPKPAPPARMGTLIGVYLPCIQNIFGVILFIRLTWVVG
TAGAIQGFLIVLVCCCTTMLTAISMSAIATNGVVPAGGSYFMIGRSLGPECGGAVGMLFY
TGTTLAAAMYIVGAVEIVLTYIAPWMSIFGDFTKDPEAMYNNFRVYGTGLLLIMGMVVFV
GVKFVNKFATLALACVILSISAVYAGIFVNFNGNDKLQMCVLGKRLLKDIHISNCSKDLG
GELHQLFCPNNTCDPYYQQHEVSVVQGIKGLASGVFFDNLQDSFLQLGQYIAYGKEPDDI
EQMERPTYNQIYADLTTTFTILIGIFFPSVTGIMAGSNRSGDLADAQKSIPIGTICAILT
TSTVYLSCVLLFAGTVDNLLLRDKFGQSIGGKLVVANMAWPNQWVILIGSFLSTLGAGLQ
SLTGAPRLLQAIAKDEIIPFLSPFAVSSSRGEPTRALLLTMVICQCGILLGNVDILAPLL
SMFFLMCYGFVNLACALQTLLKTPNWRPRFKYYHWSLSLAGLTLCISIMFMTSWFYALIA
IGMAGLIYKYIEYRGAEKEWGDGLRGLALSAARYSLLRLEEGPPHTKNWRPQVLVLAKLN
EDLNPKYRKMLAFASQLKAGKGLTVCVSVLGGDFTRRAGEAATAKQNLRKCMDEEKVKGF
VDVLVSHSIADGLGHFVQTTGLGGLKPNTVIVGWPYGWRQSEDERTWQVFLHTVRAVTAA
RMAMLVPKGINFFPDSTEKVSGNIDIWWIVHDGGMLMLLPFLLKHHRTWKNCKMRIFTVA
QIEDNSIQMKKDLKMFLYQLRLEAEVEVVEMTDNDISAYTYERTLMMEQRNQMLRELRLN
KKESLGMVQAIVDHHHADVKTASKVRFAEPGSEPAAEDAPSPPLAENDDKDKDDKDEFRS
SLLHIIDSMWDSPDERSQCESPTPPIDADKHKDGNLNGDALKPQPNMPILTPDEGTVRRM
HTAVKLNEVIVSRSHDAQLVILNLPGPPRDTKLERESNYMEFLEVLTEGLEKVLMVRGGG
REVITIYS