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Telomeres and Telomerase

Telomeres and Telomerase

Derek J. Chadwick (Editor), Gail Cardew (Editor)

ISBN: 978-0-470-51544-0

Apr 2008

250 pages

Select type: E-Book

$132.99

Description

Telomeres and Telomerase
Chairman: Sydney Brenner, 1997

Telomeres are the protective genetic elements located at the ends of chromosomes and are essential for correct chromosomal structure and function. They are not fully replicated by the conventional DNA polymerase system because DNA synthesis occurs only in the 5' to 3' direction and requires an RNA primer for initiation. Consequently, cells require a special enzyme to maintain the telomeric ends of chromosomes during each round of replication. This enzyme, telomerase, is a ribonucleoprotein that extends chromosome ends by adding short stretches of nucleotide repeats using a portion of its integral RNA component as the template. Recently, much excitement has been generated by the suggestion that telomerase, or rather the absence of telomerase and the resultant loss of terminal DNA, is a cause of human ageing. The evidence for this is twofold: the telomeres of certain cells in culture shorten during their lifespan; and immortalization of cells is associated, at least in some cases, with the maintenance of telomeres and telomerase activity. The latter observation prompted the analysis of clinical samples from patients with cancer and the demonstration that, in contrast to normal somatic cells, malignant cells possess telomerase activity. This is a unique book. Not only does it contain the latest experimental results from an international group of experts, but it also includes critical examinations of the current evidence, and discussions that attempt to identify the central and underlying concepts of this rapidly expanding field.

The Telomere and Telomerase: How Do They Interact?

(E. Blackburn, et al.).

Telomerase and the Chromosome End Replication Problem (T. Cech & J. Lingner).

GENERAL DISCUSSION I. The Role of the EST Genes in Yeast Telomere Replication (T. Hughes, et al.).

Drosophila Telomere Elongation (H. Biessmann, et al.).

GENERAL DISCUSSION II: RECOMBINATION MECHANISMS OF TELOMERE MAINTENANCE.

Rap1p and Telomere Length Regulation in Yeast (S. Marcand, et al.).

Chromatin and Ageing in Yeast and in Mammals (L. Guarente).

The Limited Reproductive Life Span of Normal Human Cells in Culture (S. Shall).

Human Ageing and Telomeres (C. Harley).

GENERAL DISCUSSION III: ARE TELOMERES CORRELATIVE OR CAUSATIVE IN CELLULAR SENESCENCE?

Telomerase Assays in the Diagnosis and Prognosis of Cancer (J. Shay, et al.).

Mouse Models for the Study of Telomerase (M. Blasco, et al.).

Genetic Control of Telomerase and Replicative Senescence in Human and Rodent Cells (R. Newbold).

Repair and Processing Events at DNA Ends (T. Lindahl, et al.).

Telomeres in the Haemopoietic System (P. Lansdorp, et al.).

Final General Discussion: Telomeres and Telomerase in Other Organisms.

Summary (S. Brenner).

Indexes.
"....serves as a rich source of useful new information related to the telomere....highly recommended for every research library and teaching institution...", , , FEBS Letters, Number 455#