Structural basis for pH gating of plant aquaporins
Copyright policy )Structural basis for pH gating of plant aquaporins
Plants have evolved to cope with fluctuations in water supply by gating their water channels known as aquaporins. During flooding, a rapid drop of cytosolic pH due to anoxia leads to a simultaneous closure of the aquaporins in the plasma membrane. The closing mechanism has been suggested to involve a conserved histidine on cytosolic loop D. Here we report the crystal structure of a spinach aquaporin at low pH, revealing for the first time the structural basis for how this pH‐sensitive histidine helps to keep the aquaporin in a closed state.
- University of Gothenburg Sweden
Models, Molecular, Binding Sites, Protein Conformation, Aquaporin, Cell Membrane, Plasma membrane intrinsic protein, Water, Biological Transport, Hydrogen-Ion Concentration, Aquaporins, Crystallography, X-Ray, Protein Structure, Secondary, Recombinant Proteins, Cytosol, Spinacia oleracea, Membrane protein, Mutation, pH gating, Histidine, X-ray crystallography, Plant Proteins
Models, Molecular, Binding Sites, Protein Conformation, Aquaporin, Cell Membrane, Plasma membrane intrinsic protein, Water, Biological Transport, Hydrogen-Ion Concentration, Aquaporins, Crystallography, X-Ray, Protein Structure, Secondary, Recombinant Proteins, Cytosol, Spinacia oleracea, Membrane protein, Mutation, pH gating, Histidine, X-ray crystallography, Plant Proteins
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