Membrane Transport in PlantsW. J. Cram Concentrates solely on the latest advances and achievements in plant physiology. Six page papers by prominent lecturers are grouped together with one to two page abstracts of related poster communications in nine sections dealing with various topics of plant transport studies. |
Contents
PREFACE | 17 |
The kinetics of ion uptake by plant roots | 27 |
Steady | 33 |
Copyright | |
18 other sections not shown
Common terms and phrases
accumulation acidification Acta amino acids anion ATPase ATPase activity Biochim Biol Biophys buffer carrier cation cell membrane cell wall changes Chara chloride chloroplasts CO₂ coleoptile concentration conductance constant cotransport curves cytoplasm dark decrease depolarization diffusion effect efflux electrical electrode electrogenic elongating enzyme external flux glucose gradient growth H-ATPase Hevea hydrolysis hyperpolarization increase influx inhibition inhibitors intact isolated kinetics leaf light Lucas mannitol measured mechanism medium membrane potential Membrane Transport metabolic microsomal NaCl osmotic perfused permeability phloem phosphate phosphorylation photosynthesis Physiology plant cells Plant Physiol plasma membrane plasma membrane ATPase plasmalemma plasmolysis protein proton pump protoplasts reaction REFERENCES root seedlings solution Spanswick Steudle stimulation stomatal substrate sucrose suggested Table thylakoid tissue tonoplast tonoplast ATPase transport system turgor pressure uptake vacuolar vacuole values vanadate vesicles water potential xylem Zimmermann