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Association between water and carbon dioxide transport in leaf plasma membranes: Assessing the role of aquaporins

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Authors

Zhao, Manchun
Tan, Hwei-Ting
Scharwies, Johannes
Levin, Kara
Evans, John
Tyerman, Stephen D

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Wiley

Abstract

The role of some aquaporins as CO2 permeable channels has been controversial. Low CO2 permeability of plant membranes has been criticized because of unstirred layers and other limitations. Here we measured both water and CO2 permeability (Pos, PCO2) using stopped flow on plasma membrane vesicles (pmv) isolated from Pisum sativum (pea) and Arabidopsis thaliana leaves. We excluded the chemical limitation of carbonic anhydrase (CA) in the vesicle acidification technique for PCO2 using different temperatures and CA concentrations. Unstirred layers were excluded based on small vesicle size and the positive correlation between vesicle diameter and PCO2. We observed high aquaporin activity (Pos 0.06 to 0.22 cm s−1) for pea pmv based on all the criteria for their function using inhibitors and temperature dependence. Inhibitors of Pos did not alter PCO2. PCO2 ranged from 0.001 to 0.012 cm s−1 (mean 0.0079 + 0.0007 cm s−1) with activation energy of 30.2 kJ mol−1. Intrinsic variation between pmv batches from normally grown or stressed plants revealed a weak (R2 = 0.27) positive linear correlation between Pos and PCO2. Despite the low PCO2, aquaporins may facilitate CO2 transport across plasma membranes, but probably via a different pathway than for water.

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Plant Cell and Environment

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Open Access

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