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RESEARCH PRODUCT

Cytosolic pH regulates root water transport during anoxic stress through gating of aquaporins.

Colette Tournaire-rouxChristophe MaurelElisabeth GoutHélène JavotPatricia GerbeauPatricia GerbeauRichard BlignyMoira SutkaDoan T Luu

subject

0106 biological sciencesCell signalingMagnetic Resonance SpectroscopyCell RespirationArabidopsisAquaporin[SDV.BC]Life Sciences [q-bio]/Cellular BiologyGatingBiologyAquaporins01 natural sciencesPlant RootsPermeability03 medical and health sciencesXenopus laevisCytosolAnimalsComputingMilieux_MISCELLANEOUS030304 developmental biologyPlant Diseases0303 health sciencesMultidisciplinaryWater transportMajor intrinsic proteinsWaterBiological TransportHydrogen-Ion Concentration6. Clean waterOxygenCytosolBiochemistryBiophysicsOocytesMembrane channelSignal transductionProtonsABSORPTION HYDRIQUEIon Channel Gating010606 plant biology & botany

description

Flooding of soils results in acute oxygen deprivation (anoxia) of plant roots during winter in temperate latitudes, or after irrigation1, and is a major problem for agriculture. One early response of plants to anoxia and other environmental stresses is downregulation of water uptake due to inhibition of the water permeability (hydraulic conductivity) of roots (Lpr)2,3,4,5. Root water uptake is mediated largely by water channel proteins (aquaporins) of the plasma membrane intrinsic protein (PIP) subgroup6,7,8. These aquaporins may mediate stress-induced inhibition of Lpr2,4,9 but the mechanisms involved are unknown. Here we delineate the whole-root and cell bases for inhibition of water uptake by anoxia and link them to cytosol acidosis. We also uncover a molecular mechanism for aquaporin gating by cytosolic pH. Because it is conserved in all PIPs, this mechanism provides a basis for explaining the inhibition of Lpr by anoxia and possibly other stresses. More generally, our work opens new routes to explore pH-dependent cell signalling processes leading to regulation of water transport in plant tissues or in animal epithelia10.

yearjournalcountryeditionlanguage
2003-01-01Nature
10.1038/nature01853https://pubmed.ncbi.nlm.nih.gov/14508474