An evolutionarily conserved gene family encodes proton-selective ion channels

An evolutionarily conserved gene family encodes proton-selective ion channels

Ion channels form the basis for cellular electrical signaling. Despite the scores of genetically identified ion channels selective for other monatomic ions, only one type of proton-selective ion channel has been found in eukaryotic cells. By comparative transcriptome analysis of mouse taste receptor...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2018-03, Vol.359 (6379), p.1047-1050
Hauptverfasser: Tu, Yu-Hsiang, Cooper, Alexander J, Teng, Bochuan, Chang, Rui B, Artiga, Daniel J, Turner, Heather N, Mulhall, Eric M, Ye, Wenlei, Smith, Andrew D, Liman, Emily R
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Cell membranes
Conductance
Conserved Sequence
Drosophila melanogaster
Evolution, Molecular
Evolutionary conservation
Fruit flies
Gene expression
Genes
Genetic screening
Gravitation
HEK293 Cells
Humans
Ion channels
Ion Channels - classification
Ion Channels - genetics
Ion Channels - metabolism
Membrane Proteins - classification
Membrane Proteins - genetics
Membrane Proteins - metabolism
Membranes
Mice
Otolithic Membrane - growth & development
Phylogeny
Proteins
Protons
Resistance
Signaling
Sour taste
Taste
Taste Buds - metabolism
Taste receptor neurons
Tissue Distribution
Transcriptome
Vestibular system
Zinc
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Zusammenfassung:Ion channels form the basis for cellular electrical signaling. Despite the scores of genetically identified ion channels selective for other monatomic ions, only one type of proton-selective ion channel has been found in eukaryotic cells. By comparative transcriptome analysis of mouse taste receptor cells, we identified Otopetrin1 (OTOP1), a protein required for development of gravity-sensing otoconia in the vestibular system, as forming a proton-selective ion channel. We found that murine OTOP1 is enriched in acid-detecting taste receptor cells and is required for their zinc-sensitive proton conductance. Two related murine genes, and , and a ortholog also encode proton channels. Evolutionary conservation of the gene family and its widespread tissue distribution suggest a broad role for proton channels in physiology and pathophysiology.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aao3264