This title includes a number of Open Access chapters. This book covers a wide scope of biological approaches to such biological phenomena as cell division, motility, collective cell behavior, multicellular structures, morphogenesis, and tumor development. It presents recent advances in biophysical studies of living cells and describes how a combination of quantitative live cell observations, detailed biochemical and biophysical data, and mathematical modeling are capable of answer many important biological questions and to achieve a more complete understanding of such complex phenomena.
This title includes a number of Open Access chapters. This book covers a wide scope of biological approaches to such biological phenomena as cell division, motility, collective cell behavior, multicellular structures, morphogenesis, and tumor development. It presents recent advances in biophysical studies of living cells and describes how a combination of quantitative live cell observations, detailed biochemical and biophysical data, and mathematical modeling are capable of answer many important biological questions and to achieve a more complete understanding of such complex phenomena.
Pavel Kraikiviski, PhD, is a research faculty member in the Department of Biological Sciences at Virginia Polytechnic Institute and State University, Blacksburg, Virginia, USA. He has acted as a reviewer for several journals and has several published articles to his name as well as several presentations at professional meetings. His current research interests include biophysics, system biology, molecular biophysics and structural biology, cell cycles, intracellular systems, and intracellular transport. Dr. Kraikivski has a unique academic background from his education at Russian, German, and American universities and extensive scientific research education. He has conducted research at the Max-Planck Institute for Colloids and Interfaces in Germany, where his research focused on active bio-polymers, and has also worked at the Center for Cell Analysis and Modeling at the University of Connecticut Health Center. He has made significant contributions in computational cell biology and biophysics, particularly in the areas of intracellular transport and cytoskeleton dynamics.
Inhaltsangabe
Mammalian Cell Cycle Regulation. Spindles and Active Vortices. Actomyosin-Dependent Cortical Dynamics. Filament Depolymerization During Bacterial Mitosis. Actin Ring Constriction. Curved Activators and Cell-Membrane Waves. Actin Waves and Phagocytic Cup Structures. Yeast and Scaling. Cellular Shapes from Protrusive and Adhesive Forces. Amoeboid Cells¿ Protrusions. Collective Cell Migration. Differential Adhesion and Cell Sorting.
Mammalian Cell Cycle Regulation. Spindles and Active Vortices. Actomyosin-Dependent Cortical Dynamics. Filament Depolymerization During Bacterial Mitosis. Actin Ring Constriction. Curved Activators and Cell-Membrane Waves. Actin Waves and Phagocytic Cup Structures. Yeast and Scaling. Cellular Shapes from Protrusive and Adhesive Forces. Amoeboid Cells¿ Protrusions. Collective Cell Migration. Differential Adhesion and Cell Sorting.
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