Overview

Aneuploidy - the greatest genetic affliction of man - has its origin in many cellular processes. Its forerunner, chromosome non-disjunction, can result from malfunction of one of many processes involved in the faithful segregation of chromosomes during mitosis or meiosis. Experts on chromosome biology, centromeres, kinetochores, microtubules, spindle apparatus, the biochemistry of mitosis and meiosis, developmental biology and environmental mutagenesis discuss basic and applied aspects of how chromosomes malsegregate and how aneuplody originates. The most recent techniques employed to study chromosome segregation and to determine aneugenic chemicals are described.

Full Product Details

Author:   B. K. Vig
Publisher:   Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
Imprint:   Springer-Verlag Berlin and Heidelberg GmbH & Co. K
Volume:   v. 72
Weight:   0.805kg
ISBN:  

9783540565550

ISBN 10:   3540565558
Pages:   442
Publication Date:   29 June 1993
Audience:   College/higher education ,  Professional and scholarly ,  Postgraduate, Research & Scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of stock  
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Table of Contents

Chromosome Segregation and Aneuploidy.- Structure of the Mammalian Centromere.- Properties of CENP-B and Its Target Sequence in Satellite DNA.- The Minor Satellite of Mouse and the Centromere.- Centromere Organization in Man and Mouse.- New Tools for the Study of Chromosome Segregation and Aneuploidy at the Molecular Level.- Premature Centromere Division and Other Centromeric Misbehaviour.- Genetic Approaches for Identifying Kinetochore Components in Saccharomyces Cerevisiae.- Cell Cycle Regulation of Centromere Function in Saccharomyces Cerevisiae.- Sensing DNA Damage: a Role for Chromosome Communication in Aneuploidy Induction.- The Acquisition and Association of TG1-3 Single-Strand Tails During Replication of Saccharomyces Telomeres.- Transposition as a Mechanism for Maintaining Telomere Length in Drosophila.- Molecular Features of Heterochromatin Condensation.- RCC1-Ran-RanGAP Signal for Initiation of Mitosis.- Implications of Cell Cycle Disturbances for Meiotic Aneuploidy: Studies on a Mouse Model System.- Morphogenesis of the Mitotic and Meiotic Spindle: Conclusions Obtained from One System Are Not Necessarily Applicable to the Other.- A Genetic Analysis of Microtubule Assembly and Function in Yeast.- The Events and Regulation of Anaphase Onset.- Microtubule Converging Centers - Implications for Microtubule Dynamics in Higher Plants.- Development of Kinetochores During Early Mitosis in HeLa Cells and the Stability of a Trilaminar Kinetochore Structure.- Are Topoisomerases Required for Mammalian Chromosome Segregation?.- Possible Targets for the Aneugenic Activity of Alkylating Agents.- The Relationship Between Chemically-Induced Meiotic Delay and Aneuploidy in Mouse Oocytes and Zygotes.- Correlation Between Induction of Meiotic Delay and Aneuploidy in Male Mouse Germ Cells.- Analysis of Micronuclei and Microtubule Arrangement to Identify Aneuploidy-Inducing Agents in Cultured Mammalian Cells.- Effects of Antitopoisomerase Drugs on Chromosome Recombination and Segregation in Grasshopper.- Disruption of Centromere Function by 2-Aminopurine.- Induction of Mitotic Aneuploidy in Lower Eukaryotes.- In Vivo Assay for Detection and Evaluation of Aneugens.- Multicolor Fluorescence in situ Hybridization with Centromeric DNA Probes as a New Approach to Distinguish Chromosome Breakage from Aneuploidy in Interphase Cells and Micronuclei.- The Detection, Definition and Regulation of Aneugenic Chemicals.

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