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Principles of Cell Adhesion (1995)
Intended for cell biologists, biophysicists, biochemists, molecular biologists, physiologists, researchers in hemostatsis and thrombosis and pathologists, this book provides an insight into cell adhesion from three interdisciplinary perspectives: fundamental facts of adhesion; molecular biochemistry of adhesion and physiological aspects. It summarizes the basic aspects of surfaces in general and describes the theoretical and experimental tools necessary to investigate cell adhesion, including the basic biochemistry and molecular biology of adhesion. The book offers concise treatment of individual topics, features current material, and provides key references as a guide to further study.
Cell Adhesion and Migration in the Development of Multicellular Organisms
During development, cells are generated at specific locations within the embryo and then migrate into their destinations. At their destinations, they assemble together through cell adhesions, eventually leading to the formation of tissues and organs. In some cases, orchestration of cell adhesion and migration produces the global movement of cell groups, called collective cell migration, which is also required for the development of basic tissue structures such as spheres, clusters, and vesicles in the morphogenetic processes of development. Therefore, individual regulation and orchestration of cell adhesion and migration are quite important for appropriate tissue/organ formation during development. However, how cell adhesion and migration are regulated, and orchestrated during development? How cell adhesion and migration affects tissue formation during development? To answer these questions, we assembled several review and research articles in this eBook. By assembling these articles, we could explore the presence of core regulatory mechanisms and deepen the current understanding of cell adhesion and migration during the development of multicellular organisms.
Physical Basis of Cell-Cell Adhesion
The Present book is aimed at providing a readable account of physical methods and results required to measure cell adhesion and interpret experimental data. Since on the one hand readability seemed a major quality for a book, and on the other hand, the problems posed referred to a wide range of domains of physics, chemistry, and biology, completeness had to sacrificed. Indeed, a whole book would not suffice to quote the relevant literature (and many more authors would be required to have read it). Hence, only a limited number of topics were selected for reliability of methods, availability of enough experimental results to illustrate basic conception or potential use in the future. These were discussed in three sections.
Metastasis: From Cell Adhesion and Beyond
This eBook consists of a collection of articles focused on fundamental processes of cancer cell metastasis, such as cell-Extracellular matrix adhesions, epithelial-to-mesenchymal transition (EMT) and lymph node metastasis as well as on upcoming research fields including the effects of biomechanical factors, the use of analytical and statistical tools and experimental techniques to further understand and characterize the invasive and metastatic potential of tumors.
Cellular Adhesion in Development and Disease
Cell adhesion is a fundamental determinant of embryonic development and organogenesis. Cellular Adhesion in Development and Disease, volume 112 in Current Topics in Developmental Biology, comprehensively surveys current developments in understanding how adhesion systems affect organismal development. Topics covered include nectins, nectin-like molecules, and afadin in development; cadherin adhesion, signaling, and morphogenesis; endothelial cell junctions; epidermal development and barrier formation; and more. - This book surveys current understanding of how adhesion systems affect organismal development
Cell Adhesion
One prerequisite for the evolution of multicellular organisms was the invention of mechanisms by which cells could adhere to one another. At some point in our history, dividing cells no longer went their separate protozoic ways in the primordial oceans, but instead found that by maintaining an association, by sticking together but not fusing, numerous evolutionary advantages became possible. The subsequent development of specialized tissues and organs depended on the elaboration of incredibly sophisticated, regulatable cell-to-cell adhesion mechanisms which are known to operate in biological processes as diverse as the growth of the embryo, the immune response, the establishment of connectio...
Cell Adhesion Molecules in Cancer and Inflammation
Begins a series for clinicians, graduate students, and researchers in academia, regulatory agencies, or industry, offering monographs both on classes of adhesion molecules and on the function of such molecules in particular systems. Here the emphasis is on the clinical evaluation of these molecules, particularly as novel biochemical and genetic markers to define tumor differentiation based on functional and morphological assessment, and also their potential use as targets for biological therapy. Includes ten pages of color plates. Annotation copyright by Book News, Inc., Portland, OR
Cell Adhesion Molecules
The Fourth Annual Pezcoller Symposium entitled Adhesion Molecules: Cellular Recognition Mechanisms was held in Rovereto, Italy, June 24-26, 1992 and was focussed on the detailed mechanisms whereby cells utilize certain integral membrane proteins to perceive their surrounding environment and interact with it. With timely presentations and stimulating discussions this Symposium addressed the genetics and biochemistry of adhesion molecules, the regulation of their functions and their role in cancer and the immune system. Emphasis was given to adhesion proteins in the integrin family because of the widespread distribution of this group of molecules and its important role in essentially all eukar...
Surface and Interfacial Aspects of Cell Adhesion
Cell adhesion comes into play in almost all domains of life. The range of situations in which it occurs, involving organisms, living tissues, microorganisms or single cells, is endless. Cell adhesion is involved in the binding of a cell to a surface, extracellular matrix, or another cell using cell adhesion molecules. It is crucial in the formation
Cell Adhesion in Bioprocessing and Biotechnology
Offers a detailed introduction to the fundamental phenomena that govern cell adhesion and describes bioengineering processes that employ cell adhesion, focusing on both biochemical and biomedical applications. All industrially relevant issues of cell adhesion - from basic concepts, quantitative experiments, and mathematical models to applications in bioreactors and other process equipment - are examined.
