Transport in Plants: pt. A. Cells. pt. B. Tissues and organs. Edited by U. Lüttge and M. G. Pitman. 2 vMichael G. Pitman, Martin Huldrych Zimmermann |
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Page 133
... accumulation varies with the element concerned . Thus P can be accumulated to more than three times the critical ... accumulation has probably been investigated inadvertently many times ( e.g. RAVEN , 1971 b ) . In this instance , it was ...
... accumulation varies with the element concerned . Thus P can be accumulated to more than three times the critical ... accumulation has probably been investigated inadvertently many times ( e.g. RAVEN , 1971 b ) . In this instance , it was ...
Page 303
... accumulation in barley and beet tissues ( SUTCLIFFE , 1952 ; JACKSON and EDWARDS , 1966 ) shows that the reduced influx in KCl - loaded tissues is not due to respiratory substrate limitation of energy supply to active transport . On the ...
... accumulation in barley and beet tissues ( SUTCLIFFE , 1952 ; JACKSON and EDWARDS , 1966 ) shows that the reduced influx in KCl - loaded tissues is not due to respiratory substrate limitation of energy supply to active transport . On the ...
Page 332
... accumulation of inorganic anions and carboxylates are also indicated by the work of VAN STEVENINCK ( 1965 , 1966 ) . It was shown that in the presence of tris buffer ( pH 8 ) Cl accumulation by some storage tissues is replaced by rapid ...
... accumulation of inorganic anions and carboxylates are also indicated by the work of VAN STEVENINCK ( 1965 , 1966 ) . It was shown that in the presence of tris buffer ( pH 8 ) Cl accumulation by some storage tissues is replaced by rapid ...
Contents
N A WALKER | 3 |
Transport in Cells of Storage Tissues with 4 Figures | 8 |
1 | 66 |
Copyright | |
35 other sections not shown
Common terms and phrases
accumulation Acta action potential active transport algae amino acids anions ATPase ATPase activity Australian beet Biochim Biol Biophys Ca2+ cation cell membranes cell wall changes Chara Chara corallina charophyte Chlorella chloride chloroplasts Cl influx coenocytes component concentration cytoplasm DAINTY diffusion effect efflux electrical electrogenic electron energy enzyme equations exchange Exptl external FINDLAY fluxes free space giant algal cells glucose Griffithsia GUTKNECHT higher plants HOPE Hydrodictyon Hydrodictyon africanum inhibition intracellular ion transport Ionic relations KISHIMOTO lipid LÜTTGE MACROBBIE measured membrane PD membrane potential metabolism microelectrode NaCl Neurospora crassa Nitella translucens osmotic pressure passive permeability phase phosphate photosynthetic PITMAN plant cells Plant Physiol plasma membrane plasmalemma potassium protein pump RAVEN salt SLAYMAN sodium solution SPANSWICK specific STEUDLE Table TAZAWA tonoplast tracer transport in plants transport system turgor uptake vacuolar vacuole Valonia values volume WALKER yeast ZIMMERMANN µmol