
Cellular Aspects of Membrane Permeability describes the state of knowledge on permeability problems and interprets experimental results within the framework of working hypotheses. The book discusses membrane permeability with some biochemical perspective presented to explain the origin and adaptations of animal life. The text explains the process and the driving forces affecting the permeability characteristics of the experimental object. It then discusses the distribution of ions and molecules between two phases separated by a living membrane. Then the text analyzes the chemical nature of the molecular architecture that causes such permeability characteristics. The book addresses the electrical potential profiles of epithelial tissues, and then discusses the conducting membranes. It also explains the relationships between inorganic ions, sugar, amino acids, fatty acids, and bioelectric potentials. The book also explains the physical nature of such chemical nature and structure of living membranes. The text then describes the structure of the cellular surface and the structural organization of the cell. The selection can prove useful for biologists, microbiologists, zoologists, and students and professors of biology and its related disciplines.
This text investigates the fundamental mechanisms governing membrane permeability and the biochemical processes that dictate the movement of ions and molecules across cellular boundaries. Author E. Schoffeniels synthesizes experimental data to construct a framework for understanding how membrane architecture influences the physiological adaptations of animal life. The work bridges the gap between molecular structure and bioelectric potential, providing a comprehensive overview of the forces that regulate cellular transport.
What You Will Find
Scope Limits
Experts recognize this work as a foundational text for students and researchers in zoology and microbiology seeking to understand the biophysical basis of cellular permeability. Readers frequently note the technical density of the prose, which requires a strong background in biochemistry to fully grasp the proposed hypotheses.
Page Count:
282
Publication Date:
1967-01-01
Publisher:
Pergamon
ISBN-10:
0080029760
ISBN-13:
9780080029764
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