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This monograph explores the relationships between cell signaling and the cytoplasmic cytoskeleton in fundamental cell processes, thus bridging the gap between two very active aspects of molecular cell biology. It covers the two main - and reciprocal - questions of these relationships: How are structure and function of the cytoskeleton affected by external signals which impinge on the cell? How does the cytoskeleton influence the cellular signaling processes which determine cell behavior?
Biology of Fertilization, Volume 1: Model Systems and Oogenesis is the first in a three-volume series that gathers various lines of research about reproduction in general and fertilization in particular. Knowledge about cell biology, immunobiology, biochemistry, biophysics, and molecular genetics has progressed significantly beyond our understanding of some aspects of fertilization. Components of these constitute ""model systems."" The present volume includes reviews of such systems, some relatively simple model systems in lower organisms, sex-determining mechanisms, and oogenesis. The book contains 12 chapters organized into two sections. Section I includes studies on evolution, reproductive success, and immortality of the germ line; the structures and mechanisms involved in fertilization problems; and fertilization in Paramecium. Section II on oogenesis includes studies on gamete differentiation; sex-determining role of the H-Y antigen in mammals and non-mammals; the mechanism of starfish oocyte maturation; meiotic arrest in animal oocytes; and the mitotic and meiotic aspects of the mammalian germ cell life cycle.
This book provides descriptions of experimental methods in research on the cytoskeleton and its relationships to signaling and cell regulation. Thus, it bridges two active and fertile areas of research. The focus is directed particularly towards methods which take advantage of recent advances in molecular biology, microscopy and immunological assays. A second emphasis is on methods for understanding dynamic changes in cells. A third emphasis is on the formation and turnover of macromolecular and supramolecular complexes, which are so important in driving cell regulation and the behaviour of cytoskeletal elements. A combination of practical advice and detailed protocols should make this book valuable for both novice and experienced workers in these burgeoning fields.