Biochemistry and Function of Vacuolar Adenosine-Triphosphatase in Fungi and Plants

Biochemistry and Function of Vacuolar Adenosine-Triphosphatase in Fungi and Plants edited by B.P. Marin.

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Bibliographic Details
Corporate Author: SpringerLink (Online service)
Other Authors: Marin, B.P (Editor)
Format: eBook
Language:English
Published: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 1985.
Edition:1st ed. 1985.
Series:Springer eBook Collection.
Subjects:
Plant science.
Botany.
Cell biology.
Biochemistry.
Microbiology.
Electronic resources (E-books)
Online Access:Click to view e-book
Holy Cross Note:Loaded electronically.
Electronic access restricted to members of the Holy Cross Community.
Table of Contents:
  • Characteristics of Tonoplast Membranes
  • Plant Vacuole Membrane: Structure and Properties (With 9 Figures)
  • Analytical Characterization of Vacuolar Membranes from Higher Plants (With 11 Figures)
  • Tonoplast Adenosine-Triphosphatases
  • Comparative Analysis of the Properties of Tonoplast-Bound Adenosine-Triphosphatase from Fungi and Higher Plants: Pitfalls and Artifacts in the Search for Vacuolar ATPase and Proton Pumps
  • Salt-Stimulated ATPase and PPase Activities Associated With Vacuoles from Higher Plants (with 2 Figures)
  • Ca2+-ATPases and Their Occurrence in Vacuoles of Higher Plants (With 2 Figures)
  • Isolation, Properties, and Functions of Tonoplast ATPase from Higher Plants
  • Measurement of Protonmotive Potential Difference Across the Tonoplast Membrane
  • Membrane Potential Changes in Vacuoles from Storage Roots of Red Beet (With 2 Figures)
  • Transtonoplast Potential Difference and Surface Potential of Isolated Vacuoles (with 7 Figures)
  • Critical Evaluation of Methods for Estimating the Vacuolar pH of Plant Cells (With 5 Figures)
  • A Study of Transport in Tonoplast Vesicles Using Spin-Labelled Probes (With 3 Figures)
  • The Use of Optical Probes to Monitor the Formation of pH Gradients and Membrane Potential in Tonoplast Membrane Vesicles (With 4 Figures)
  • Proton Pump Activity and Tonoplast Energization
  • The H+-Translocating ATPase in Vacuolar Membranes of Neurospora Crassa (With 2 Figures)
  • The H+-Translocating ATPase in Vacuolar Membranes of Saceharomyoes Cerevisiae (With 2 Figures).
  • The Functioning of Tonoplast H+-Translocating ATPase from Hevea Latex in Physiological Conditions (With 4 Figures)
  • Proton Pump and ATPase Activities in Tonoplast Vesicles from Storage Tissue of Red Beet (With 4 Figures)
  • Anion-Sensitive H+-ATPases from Higher Plant Cells: The Role of Chloride in Stimulating Proton Transport (With 3 Figures)
  • An Electrogenic Proton Pump on the Tonoplast of Acer Pseudoplatanus L. Free Cells and Isolated Vacuoles (With 7 Figures)
  • Role of Tonoplast Adenosine-Triphosphatase in the Compartmentation of Solutes in Plant Cells
  • H+-ATPase and H+/Ion Antiporters of the Vacuolar Membrane of Sacchavomyces Carlsbergensis Yeast (With 7 Figures)
  • Compartmentation of Solutes and the Role of Tonoplast ATPase in Hevea Latex (With 2 Figures)
  • Transport of Malic Acid in Cells of CAM Plants
  • Transport and Energization in Vacuoles of Sugarcane (With 3 Figures)
  • Cooperation of a “Davies Type” Biochemical pH-Stat and the Tonoplastic Bioosmotic pH-Stat in the Regulation of the Cytosolic pH of Hevea Latex (With 7 Figures).

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