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This volume brings together contributors from several different fields of cell biology, physiology, and molecular biology. The common thread that runs through all of the work presented is that cell processes regulate the activities of membrane transport proteins and classes of membrane transport proteins participate in a number of critical cell phenomena. This volume is unique in covering three different members of the ATP Binding Cassette family (MDR, CFTR and STE6) in one place, as well as in including structure and function analysis of the sodium pump in the same forum where its cell biology is considered. The book will appeal to a broad range of biologists with interests in membrane transport, membrane biology, cell biology, and sorting.
Membrane Transport Processes in Organized Systems is a softcover book containing portions of Physiology of Membrane Disorders (Second Edition). The parent volume contains six major sections. This text encompasses the fourth and fifth sections: Transport Events in Single Cells and Transport in Epithelia: Vectorial Transport through Parallel Arrays. We hope that this smaller volume, which deals with transport processes in single cells and in organized epithelia, will be helpful to individuals interested in general physiology, transport in single cells and epithelia, and the methods for studying those transport processes. THOMAS E. ANDREOLI JOSEPH F. HOFFMAN DARRELL D. FANESTIL STANLEY G. SCHULTZ Vll Preface to the Second Edition The second edition of Physiology of Membrane Disorders represents an extensive revision and a considerable expansion ofthe first edition . Yet the purpose of the second edition is identical to that of its predecessor, namely, to provide a rational analysis of membrane transport processes in individual membranes, cells, tissues, and organs, which in tum serves as a frame of reference for rationalizing disorders in which derangements of membrane transport processes play a cardinal role in the clinical expression of disease. As in the first edition, this book is divided into a number of individual, but closely related, sections. Part V represents a new section where the problem of transport across epithelia is treated in some detail. Finally, Part VI, which analyzes clinical derangements, has been enlarged appreciably.
This Volume forms the cornerstone of this series of four books on Membrane Transport in Biology. It includes chapters that address i) the theoretical basis of investigations of transport processes across biological membranes, ii) some of the experimental operations often used by scientists in this field, iii) chemical and biological properties common to most biological membranes, and iv) planar thin lipid bilayers as models for biological membranes. The themes developed in these chapters recur frequently throughout the entire series. Transport of molecules across biological membranes is a special case of diffu sion and convection in liquids. The conceptual frame of reference used by investigators in this field derives, in large part, from theories of such processes in homogeneous phases. Examples of the application of such theories to transport across biological membranes are found in Chapters 2 and 4 of this Volume. In Chapter 2, Sten-Knudsen emphasizes a statistical and molecular approach while, in Chapter 4 Sauer makes heavy use of the thermodynamics of irreversi ble processes. Taken together, these contributions introduce the reader to the two sets of ideas which have dominated the thinking of scientists working in this field. Theoretical consideration of a more special character are also included in several other Chapters in Volume I. For example, Ussing (Chapter 3) re-works the flux ratio equation which he introduced into the field of transport across biological membranes in 1949.
Concepts of Biology is designed for the introductory biology course for nonmajors taught at most two- and four-year colleges. The scope, sequence, and level of the program are designed to match typical course syllabi in the market. Concepts of Biology includes interesting applications, features a rich art program, and conveys the major themes of biology. The images in this textbook are grayscale.
This state-of-the-art assessment describes the means by which cell membrane transport systems are regulated in both epithelial and nonepithelial cells. Regulation and Development of Membrane Transport Processes leads readers from a physiological description of regulation toward a more mechanistic level of understanding. Distinguished researchers in physiology, biochemistry, genetics, and pharmacology offer key insights into the regulatory processes evoked by external stimuli, such as hormones or substrate limitation, and by the internal stimulus of genetically programmed development. Their multidisciplinary efforts define three forms of regulations: (1) gene expression leading to de novo synthesis; (2) insertion and removal of cytoplasmic membrane vesicles; and (3) in situ modification of the transport system in the membrane. Regulation and Development of Membrane Transport Processes reviews a wide spectrum of transport regulatory phenomena in eukaryotic cells and provides the groundwork for future research.
Focus, Organization, and Content This book, like the first edition, deals with the mass transport processes that take place in living systems, with a focus on the normal behavior of eukaryotic cells and the - ganisms they constitute, in their normal physiological environment. As a consequence of this focus, the structure and content of the book differ from those of traditional transport texts. We do not start with the engineering principles of mass transport (which are well presented elsewhere) and then seek biological applications of these principles; rather, we begin with the biological processes themselves, and then - velop the models and analytical tools that are needed to describe them. This approach has several consequences. First of all, it drives the content of the text in a direction distinctively different from conventional transport texts. This is - cause the tools and models needed to describe complex biological processes are often different from those employed to describe more well-characterized inanimate systems. Many biological processes must still be described phenomenologically, using me- odologies like nonequilibrium thermodynamics. Simple electrical analogs employing a paucity of parameters can be more useful for characterization and prediction than complex theories based on the behavior of more well-defined systems on a laboratory bench. By allowing the biology to drive the choice of analysis tools and models, the latter are consistently presented in the context of real biological systems, and analysis and biology are interwoven throughout.
In this book, skilled experts provide the most up-to-date, step-by-step laboratory protocols for examining molecular machinery and biological functions of exocytosis and endocytosis in vitro and in vivo. The book is insightful to both newcomers and seasoned professionals. It offers a unique and highly practical guide to versatile laboratory tools developed to study various aspects of intracellular vesicle trafficking in simple model systems and living organisms.
Intracellular Transport is a collection of papers that examines the processes of and the mechanisms underlying intracellular transport. One paper describes that all active transport processes in the amoeba are intracellular and depend on dynamic transformations of membrane into cytoplasm, and of cytoplasm into membrane. Another paper discusses the kinetics of membrane transport, of which the phenomena of counterflow can become a "mobile carrier" system. The paper notes that the specific transport properties of membranes are conferred by the proteins of the surfaces that are grouped as macromolecular complexes, probably similar to those of enzymes. One paper describes the concept of parametric pumping, an oscillation-driven separation process, as a possible model for active transport in biological cells. Another paper compares the fine-scale diffusion effects that happen in a mixture without large-scale concentration gradients and where the effect are on a large scale. The homogenous kinetic law can be used in the large-scale situation; the law already can account for any of the fine-scale diffusion effects. The paper notes that without large-scale concentration gradients, the transport event is from a local region to a nearby reaction site only. Where the effects are on a large scale, the diffusion results in a gross transport of over distances larger than molecular dimensions. This collection can prove useful for mathematicians, cellular biologists, physical chemists, physiologists, electron microscopicists, geneticists, and engineers.