7 edition of Cell Cycle Control found in the catalog.
December 1, 2004
by Humana Press
Written in English
|Contributions||Tim Humphrey (Editor), Gavin Brooks (Editor)|
|The Physical Object|
|Number of Pages||416|
Cell cycle, the ordered sequence of events that occur in a cell in preparation for cell division. The cell cycle is a four-stage process in which the cell increases in size, copies its DNA, prepares to divide, and divides. Learn more about the cell cycle and the proteins that regulate its progression. As cell division is a fundamental part of a plant’s existence and the basis for tissue repair, development and growth, a full understanding of all aspects of this process is of pivotal importance. Cell Cycle Control and Plant Development commences with an introductory chapter and is broadly divided into two parts.
The cell cycle is an ordered series of events involving cell growth and cell division that produces two new daughter cells. Cells on the path to cell division proceed through a series of precisely timed and carefully regulated stages of growth, DNA replication, and division that produces two identical (clone) cells. The length of the cell cycle is highly variable, even within the cells of a single organism. In humans, the frequency of cell turnover ranges from a few hours in early embryonic development, to an average of two to five days for epithelial cells, and to an entire human lifetime spent in G 0 by specialized cells, such as cortical neurons or cardiac muscle cells.
The cell cycle is controlled mainly by regulatory proteins. These proteins control the cycle by signaling the cell to either start or delay the next phase of the cycle. They ensure that the cell completes the previous phase before moving on. Regulatory proteins control the cell cycle at key checkpoints, which are shown in Figure below. There. Pages 51 and 55 are well done presentations of the dynamics of these cycles including the key elements of cell cycle control. Chapters 4 through 9 detail each of the steps in the cell cycle. Then in Chapter 10 the authors provide an exceptionally lucid explanation of cell proliferation/5(7).
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The Cell Cycle: Principles of Control Currently unavailable. The Cell Cycle is an account of the mechanisms that control cell division, beginning with a description of the phases and main events of the cell cycle and the main model organisms in cell-cycle analysis, including Xenopus, Drosophila, and by: The Cell-Cycle Control System Triggers the Major Processes of the Cell Cycle.
The cell-cycle control system operates much like the control system of an automatic clothes-washing machine. The washing machine functions in a series of stages: it takes in water, mixes it with detergent, washes the clothes, rinses them, and spins them essential processes of the wash Cited by: 2.
The Cell Cycle is an account of the mechanisms that control cell division, beginning with a description of the phases and main events of the cell cycle and the main model organisms in cell-cycle analysis, including Xenopus, Drosophila, and yeasts. Later chapters focus on the molecules and mechanisms of the cell-cycle control system, including the cyclin-dependent kinase family.
The Cell-Cycle Control System Can Be Dissected Genetically in Yeasts. Yeasts are tiny, single-celled fungi whose mechanisms of cell-cycle control are remarkably similar to our own.
Two species are generally used in studies of the cell cycle. The fission yeast Schizosaccharomyces pombe is named after the African beer it is used to produce. It is Cited by: 6.
The Cell Cycle, Principles of Control. David O. Morgan. Article (PDF Available) in Integrative and Comparative Biology 47(5) June with 4, ReadsAuthor: Jane Lubischer.
The Cell Cycle Control System Luckily, cells have the cell cycle control system. This is a set of molecules that sets the cell cycle in motion and coordinates its steps.
The only book to comprehensively cover both the foundations and cutting-edge advances in understanding cell cycle and growth control, this text also contains an expert perspective on innovative strategies for cancer treatment, making it a vital companion for researcher and clinician alike.
The Cell Cycle: Principles of Control provides an engaging insight into the process of cell division, bringing to the student a much-needed synthesis of a subject entering a period of unprecedented growth as an understanding of the molecular mechanisms underlying cell division are revealed.
The book gives the student a complete overview of the 5/5(2). In Cell Cycle Control: Mechanisms and Protocols, internationally recognized researchers not only provide overviews of cell cycle regulatory mechanisms, but also set forth their best techniques for studying the eukaryotic cell cycle and its key regulatory molecules in.
A collection of new reviews and protocols from leading experts in cell cycle regulation, Cell Cycle Control: Mechanisms and Protocols, Second Edition presents a comprehensive guide to recent technical and theoretical advancements in the field.
Beginning with the overviews of various cell cycle regulations, this title presents the most current protocols and state-of-the-art techniques. Get this from a library. The cell cycle: principles of control. [David Morgan] -- Cell division is a central biological process: it yields the cells required for development and growth, and supplies the replacement cells to repair and maintain old or damaged tissue.
This book. Cell cycle dysregulation is a central hallmark of oncogenesis and the activity of cellular proteins implicated in cell cycle control is frequently altered in tumor cells. Therefore, cell cycle regulators are expected to be promising targets for cancer treatment. cell-cycle machinery to affect cell-cycle entry and exit.
Insights into the basic regulators of cell-cycle progression in C. elegans form the foundation for such studies and are the focus of this chapter. The paradigm of cell-cycle control The collective results from studies in various eukaryotes have demonstrated that progression through the.
The crucial role of CDKs is that control of cell cycle, in spite of that only several of them have been shown to have direct role in the cell cycle progression. Cell cycle regulators in mammalian systems --Section III.
Cell cycle control in yeast and fungal systems --Section IV. Analysis of cell cycle regulators in oocyte, egg and embryonic systems. Series Title: Methods in enzymology, v.
Responsibility: edited by William G. Dunphy. The cell cycle, or cell-division cycle, is the series of events that take place in a cell that cause it to divide into two daughter cells. These events include the duplication of its DNA (DNA replication) and some of its organelles, and subsequently the partitioning of its cytoplasm and other components into two daughter cells in a process called cell division.
The Cell Cycle: Gene Enzyme Interactions presents the primary regulatory mechanisms of the cell cycle. This book provides theoretical and methodological discussions concerning cell cycles. Organized into 17 chapters, this book begins with an overview of cell evolution and thermodynamics.
This book provides a valuable current resource on cell division, with a focus on the molecular mechanisms controlling the eukaryotic cell cycle. The author does a good job throughout the book of drawing from different model systems, highlighting differences, emphasizing common mechanisms, and clarifying species-specific by: 4.
Abstract. Cell-division control affects many aspects of development. Caenorhabditis elegans cell-cycle genes have been identified over the past decade, including at least two distinct Cyclin-Dependent Kinases (CDKs), their cyclin partners, positive and negative regulators, and downstream targets.
The balance between CDK activation and inactivation determines. The cell cycle is the recurring sequence of events that includes the duplication of a cell's contents and its subsequent division. This SparkNote will focus on following the major events of the cell cycle as well as the processes that regulate its action.
In this and the following SparkNotes. Despite the redundancy and overlapping levels of cell-cycle control, errors do occur. One of the critical processes monitored by the cell-cycle checkpoint surveillance mechanism is the proper replication of DNA during the S phase.The length of the cell cycle is highly variable, even within the cells of a single organism.
In humans, the frequency of cell turnover ranges from a few hours in early embryonic development, to an average of two to five days for epithelial cells, and to an entire human lifetime spent in G 0 by specialized cells, such as cortical neurons or cardiac muscle cells.The life span of a cell can be described by what's called the cell cycle.
The cell cycle can be thought of as seasons in a year. Just as we have seasons such as the spring or the summer where things grow, versus fall and winter where they don't, the cell has times when it grows and divides and other times when it doesn't divide.