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Research in to membrane transport has advanced rapidly in recent years, following the availability of new biophysical techniques, the integration of structural and molecular approaches, and developments in molecular genomics. With an expanding population, agricultural production is pushed increasingly into marginal areas, promoting interest in the genetic engineering of crop species to cope with these conditions. Membrane Transport in Plants provides on overview of our current understanding of plant membrane transport in the light of recent developments. The volume is directed at researchers and professionals in plant cell biology, biochemistry and physiology.
Michael R. Blatt, Regius Professor of Botany Laboratory of Plant Physiology and Biophysics, IBLS - Plant Sciences, Bower Building, University of Glasgow UK.
Preface 1 Concepts and techniques in plant membrane physiology 2 Electrophysiology equipment and software 3 Structure, function and regulation of primary H+ and Ca2+ pumps 4 Ion-coupled transport of inorganic solutes 5 Functional analysis of proton-coupled sucrose transport 6 Voltage-gated ion channels 7 Ligand-gated ion channels 8 Aquaporins in plants 9 Ca2+ and pH as integrating signals in transport control 10 Vesicle traffic and plasma membrane transport 11 Potassium nutrition and salt stress 12 Membrane transport and soil bioremediation
