Effects of temperature on the coupled activities of the vanadate-sensitive proton pump from maize root microsomes
- PMID: 16668306
- PMCID: PMC1080901
- DOI: 10.1104/pp.96.4.1114
Effects of temperature on the coupled activities of the vanadate-sensitive proton pump from maize root microsomes
Abstract
The mechanism by which proton transport is coupled to ATP hydrolysis by vanadate-sensitive pumps is poorly understood. The effects of temperature on the activities of the vanadate-sensitive ATPase from maize (Zea mays) roots were assessed to provide insight into the coupling mechanism. The initial rate of proton transport had a bell-shaped dependence on temperature with an optimal range between 20 and 30 degrees C. However, the rate of vanadate-sensitive ATP hydrolysis increased as the temperature was raised from 4 to 43 degrees C. The differential sensitivity of proton transport to temperatures above 30 degrees C was also observed when the ATPase was reconstituted into dioleoylphosphatidylcholine vesicles. Inhibition of proton transport with temperatures above 30 degrees C was associated with higher rates of proton leakage from the membranes. In addition, proton transport was more inhibited than ATP hydrolysis at temperatures below 10 degrees C. Reduced rates of proton transport at lower temperatures were not associated with higher rate of proton conductivity across the membranes. Therefore, the preferential inhibition of proton transport at temperatures below 10 degrees C may reflect an effect of temperature on the coupling between proton transport and ATP hydrolysis within the vanadate-sensitive ATPase.
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