Evidence for an indirect coupling mechanism for the nitrate-sensitive proton pump from corn root tonoplast membranes |
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Authors: | David Brauer Shu-I Tu An-Fei Hsu Deidre Patterson |
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Institution: | Plant and Soil Biophysics Research Unit. Eastern Regional Research Center, Agricultural Research Service, United States Dept of Agriculture, Philadelphia, PA 19118, USA. |
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Abstract: | The nitrate-sensitive proton-translocating adenosine triphosphatase (H+-ATPase) of tonoplast membranes plays an important role in regulating the flow of nutrients and metabolic waste between the cytoplasm and vacuole in the cells of plant roots. Relatively little information is available regarding the coupling between ATP hydrolysis and proton pumping by the nitrate-sensitive, tonoplast H+-ATPase. The coupling may be achieved either directly, i. e. the two reaction pathways share at least one common molecular step, or indirectly, i. e. the two reaction pathways do not share an intermediate step. These coupling mechanisms may be differentiated by the responses of the two events to external perturbation. The effects of the presence of nitrate in the assay medium on the rates of ATP hydrolysis and proton transport catalyzed by the tonoplast H+-ATPase from maize ( Zea mays L. cv. FRB 73) were investigated. The presence of nitrate inhibited proton transport activity of the tonoplast H+-ATPase to a much greater degree than ATP hydrolysis. This differential response of the two activities to nitrate is the basis for a proposed reaction model for the tonoplast H+-ATPase that features an indirect coupling mechanism between ATP hydrolysis and proton transport. |
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Keywords: | Coupling H+-ATPase hydrolysis maize transport Zea mays |
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