New model in OGS2.0 | DPOGS207619  |
---|---|
Genomic Position | scaffold2524:+ 4987-14603 |
See gene structure | |
CDS Length | 3501 |
Paired RNAseq reads   | 267 |
Single RNAseq reads   | 688 |
Migratory profiles | Query via corresponding ESTs |
Best Bmobyx hit | BGIBMGA006005 (2e-15) |
Best Drosophila hit   | Na[+]-driven anion exchanger 1, isoform C (0.0) |
Best Human hit | sodium-driven chloride bicarbonate exchanger isoform 1 (0.0) |
Best NR hit (blastp)   | PREDICTED: similar to Na+-driven anion exchanger 1 CG4675-PB, isoform B isoform 1 [Apis mellifera] (0.0) |
Best NR hit (blastx)   | sodium bicarbonate cotransporter [Aedes aegypti] (0.0) |
GeneOntology terms    | GO:0015106 bicarbonate transmembrane transporter activity GO:0006820 anion transport GO:0015992 proton transport GO:0015701 bicarbonate transport GO:0016021 integral to membrane GO:0006814 sodium ion transport GO:0006821 chloride transport GO:0015380 anion exchanger activity GO:0005886 plasma membrane GO:0008510 sodium:bicarbonate symporter activity GO:0005452 inorganic anion exchanger activity |
InterPro families    | IPR016152 Phosphotransferase/anion transporter IPR003020 Bicarbonate transporter, eukaryotic IPR013769 Bicarbonate transporter, cytoplasmic IPR011531 Bicarbonate transporter, C-terminal |
Orthology group | MCL10110 |
Nucleotide sequence:
ATGGACTCGAGAGCTGACGATGACGAGGCCCCCACAGACCCGGCCGCCAGGAAGCATACC
CATCACGACTACACTGAACAGGACTTTGAAGGACACAGAGCGCACACCGTGTTTGTGGGG
GTTCATGTACCGGCAAGAAGACACTCACATAGGAAACACAAACACCATCATCGCTATGGA
GAAAAGGATCCCGAAAGACCAATAACACCACCAGCTCAAAGGGTACAATTTATACTGGGC
GAAGATGTTGACGACTCCACGCTTGAATCGCATCCCCTTTTTTCTGAAATGGAAGAGCTG
GTAAAGGATGGAGATGAGTTGGAATGGAAAGAGACCGCAAGGTGGATAAAATTTGAGGAA
GACGTCGAGGAAGGAGGCAATAGGTGGTCGAAACCACATGTTGCGACACTTTCTTTGCAT
TCGCTTTTTGAACTGCGAAGTCTCATATTGAATGGATCAGTAATCCTTGACTTAGAAGCA
AATTCATTAGAACAAGTTGCAGATAGTGTTCTAGACAATATGGTTGTTGAAGGACTTCTT
GCTTACGATAGAAGAGACAAAGTAAAAGATGCATTACTTCGAAGACATAGACATCAACAT
GAAAGACGAAATCATAATAATATGTCCAGACTTCCTTTAATCCGTTCTCTTGCGGATATT
GGAAAAAATCACTCATCCTGCAAAAATTTCCAGGAGAGTGGCTCTCGACGCTCCAGTTCG
AGGAGTTGTCGAGGGTCCACCTCATCTCAGAAATCGGCACTTCATCCCGCAGCCGACTCG
AGAGGCTCTTATCTAGCCGTTCCAGTGGATGAAGGTGCTACAAGTTCATCAAGTGGGCCT
TTTCAAAAAGGAGACTTTGGTCGATTCCTAGGCATCTCTAGTGCGGGTGCAGCTCATGAT
GAAGGAATGATAAAAAGTCCTAGCAATTTATCTATGCATCGTAATCACAGTTTAGGAGAT
TTACCATTGAATGGGGATATAAATCACAAATGCAATACACATTTTATGAGAAAAATCCCA
CCTGGAGCCGAAGCTTCCAATATTCTTGTCGGTGAAGTTGATTTTCTCGAAAAAACGCTT
TCCGCTTTCGTGAGACTGAAAACTGGTACTATTATGGGCGATTTGACCGAAGTTCCTGTG
CCAACACGGTTTATGTTTGTTTTGCTAGGACCACCCAACAGCAACTCTAGCTTTCACGAA
ATCGGAAGAGCAATGGCAACCTTAATGTCGGATGAAATATTTCATGAGGTTGCTTATAGG
GCTAAAAGACGTGATCACCTATTAGCGGGAATAGATGAGTTTCTGGATGCTGTGACTGTA
TTGCCGCCTGGAGAGTGGGACCCGGCTATTCGTATTGAACCTCCCGCAGCAATTCCTTCT
CAAGATCCTCGCAAGCGTCCAAATGACAGTACGCCGAAAGAGGAACCCGATGAAGAAGAA
GAAGAACAAAAGCAAAGAGAAGAGTCGGGTTTGTCAAGGAGTGGAAAACTGTTTGGTGGT
TTAATGAATGACTTTAAACGAAAAATTCCATGGTATTGGTCAGACTTTAAAGATGCTATG
GCTCTACAGTGTATTGCTTCGTGGATATTTTTATACTTTGCCTGCCTATCACCAATTATA
ACTTTCGGAGGCTTGTTAGGAGAAGCAACTGGTAAAAATATGGCAGCAATGGAATCTTTG
GTGTCTGGTTTTGTATGCGGCATGGGATACGGCTTTTTTTCTGGCCAACCCTTAACAATC
TTGGGGTCAACTGGACCCGTCTTAGTATTTGAAACGATCGTTTTCGAATTTTGTAAACAG
ATTGGGTGGAACTACATGTCTTTTAGATTCTGTATCGGAACTTGGACGACTATTATCCTT
ATTACTTTAGTTGCAATAGACGCAAGTGCATTAGTTTGTTACATAACTCGATTCACAGAA
GAAAATTTCGCAACTTTAATAGCTTTCATATTTATTTACAAGGCAGTGGAAAATGTTATC
TCAATCGGCAGAAAGTACCCTTTAAAGACGCGGCCTGATGAAGTTCTCAATTATGAATGT
TATTGTTTACCAACCAATTACTCAAAAGTGCCGGAGCAATTTAATTGGACGTCCGTTGAT
AAAGTGTCTTGTCAGTTATATAACGGAACCCTAGCAGGTGGTGGGTGTGATACCAAAGTC
TATGTACCAGATGTTTTTTTGATGTCAATAATTTTATTTCTCGGTACATTTACAATCTCT
ATTATTCTTAAAGATTTTAAAAACTCCCTGTTCTTCCCATCAAAGGTCCGGCAAATCATA
AGTGATTTTTCGGTTATAATAGCAATTCTGTCGATGTCTTTCCTAGATTATAAGGTTGGT
GTGAAAACCCCAAAACTGGAGGTTCCATCAGAATTTAAACCAACTTTGCCAACTCGCGAT
TGGGTCATAACTCCATTTAATGGAAATCCAGTGTGGTCGGCCCTGGTAGCTATTCTACCG
GCATTGTTGGGTACCATACTTATATTCATGGATCAACAAATAACAGCAGTTATTGTAAAT
CGGAAAGAGAATAAATTGAAGAAAGGATGTGGTTACCATTTGGACCTATTCGTCTTAGCT
ATTCTTATACAAATTTGTTCTATAATGGGATTGCCATGGTTTGTAGCGGCTACTGTCCTG
AGTATAAATCATGTGAATTCTCTAAAGGTCGAATCGGAATGTGCTGCTCCTGGTGAGAAA
CCACAATTTTTAGGAGTTAGAGAACAAAGAGTGACACATATCCTCATATTTCTGACTATA
GGTTGTTCGGTTGTATTAACCCCAGTATTAAGACATATACCAATGCCAGTATTATTTGGA
GTATTTCTATATATGGGTGTTGCATCGCTCAAAGGACTCCAATTCTTTGATAGGATTTTG
ATAATGTTTATGCCTCAAAAATATCAGCCAGATCACATGTTCTTGCGACAAGTCCCAATA
CGTCGAGTTCATATATTTACTGCTATCCAACTGACTTGTCTTGTCTGTTTGTGGCTTATT
AAGTCGTTTTCCACGACATCCATTCTGTTTCCATTGATGCTTGTTGTAATGATTGGTATC
AGGAAATCTCTGGATTGGTTCTTTACCAGAAGAGAATTAAAAATTTTAGATGATGTTATG
CCTGAAATGACCAAGAGGAACCAAGACGAACTTCGCGAACTCGGCGATATCGAGGACACA
AACAAGAGCAGTCCTCCAACATTTCAAGAGAATCTACAAATCCCTCTTATCAATGGAAAC
ATAATGAACATACCTTTGGCATCTATTAACATATCTGAGGAAATGAATAAAACAGGAATT
TGGAAACAAGTCAATAACACCAATAAAAATAAAAATCATGCAGAAGGAAGGGATTTAAAA
TTAAAGTGCGGGAAAAAAACTATCAAACACAAAAAACTAATATCCAAAAACGCACAATCC
GAGATCGAGAGGCGCCTTTCAACGATGGCAGAAGTGGAGGAAGATGACTCAATGAAGGTG
TGCATGGATACAAAATTCTAA
Protein sequence:
MDSRADDDEAPTDPAARKHTHHDYTEQDFEGHRAHTVFVGVHVPARRHSHRKHKHHHRYG
EKDPERPITPPAQRVQFILGEDVDDSTLESHPLFSEMEELVKDGDELEWKETARWIKFEE
DVEEGGNRWSKPHVATLSLHSLFELRSLILNGSVILDLEANSLEQVADSVLDNMVVEGLL
AYDRRDKVKDALLRRHRHQHERRNHNNMSRLPLIRSLADIGKNHSSCKNFQESGSRRSSS
RSCRGSTSSQKSALHPAADSRGSYLAVPVDEGATSSSSGPFQKGDFGRFLGISSAGAAHD
EGMIKSPSNLSMHRNHSLGDLPLNGDINHKCNTHFMRKIPPGAEASNILVGEVDFLEKTL
SAFVRLKTGTIMGDLTEVPVPTRFMFVLLGPPNSNSSFHEIGRAMATLMSDEIFHEVAYR
AKRRDHLLAGIDEFLDAVTVLPPGEWDPAIRIEPPAAIPSQDPRKRPNDSTPKEEPDEEE
EEQKQREESGLSRSGKLFGGLMNDFKRKIPWYWSDFKDAMALQCIASWIFLYFACLSPII
TFGGLLGEATGKNMAAMESLVSGFVCGMGYGFFSGQPLTILGSTGPVLVFETIVFEFCKQ
IGWNYMSFRFCIGTWTTIILITLVAIDASALVCYITRFTEENFATLIAFIFIYKAVENVI
SIGRKYPLKTRPDEVLNYECYCLPTNYSKVPEQFNWTSVDKVSCQLYNGTLAGGGCDTKV
YVPDVFLMSIILFLGTFTISIILKDFKNSLFFPSKVRQIISDFSVIIAILSMSFLDYKVG
VKTPKLEVPSEFKPTLPTRDWVITPFNGNPVWSALVAILPALLGTILIFMDQQITAVIVN
RKENKLKKGCGYHLDLFVLAILIQICSIMGLPWFVAATVLSINHVNSLKVESECAAPGEK
PQFLGVREQRVTHILIFLTIGCSVVLTPVLRHIPMPVLFGVFLYMGVASLKGLQFFDRIL
IMFMPQKYQPDHMFLRQVPIRRVHIFTAIQLTCLVCLWLIKSFSTTSILFPLMLVVMIGI
RKSLDWFFTRRELKILDDVMPEMTKRNQDELRELGDIEDTNKSSPPTFQENLQIPLINGN
IMNIPLASINISEEMNKTGIWKQVNNTNKNKNHAEGRDLKLKCGKKTIKHKKLISKNAQS
EIERRLSTMAEVEEDDSMKVCMDTKF