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p53

  • Book
  • © 2010

Overview

Authors:
  1. Ayeda Ayed

    1. Ontario Cancer Institute, University of Toronto, Toronto, Canada

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  2. Theodore Hupp

    1. Institute of Genetics and Molecular Medicine CRUK p53 Signal Transduction Laboratories, University of Edinburgh, Edinburgh, Scotland, UK

    View author publications

    You can also search for this author in PubMed   Google Scholar

  • Discusses TP53 Mutations in Human Cancers Chapter on Regulation and Function of the Original p53-Inducible p21 Gene Presents key ideas in the field

Part of the book series: Molecular Biology Intelligence Unit (MBIU, volume 1)

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Table of contents (12 chapters)

  1. Front Matter

    Pages i-xv
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  2. TP53 Mutations in Human Cancers: Selection versus Mutagenesis

    • Magali Olivier, Audrey Petitjean, Claude de Caron Fromentel, Pierre Hainaut
    Pages 1-18

  3. Lessons on p53 from Mouse Models

    • Dadi Jiang, Laura D. Attardi
    Pages 19-35

  4. TP63, TP73: The Guardian’s Elder Brothers

    • Stéphanie Courtois, Pierre Hainaut, Claude de Caron Fromentel
    Pages 36-52

  5. The Regulation of p53 Protein Function by Phosphorylation

    • Nicola J. Maclaine, Theodore Hupp
    Pages 53-64

  6. The p53-Mdm2 Loop: A Critical Juncture of Stress Response

    • Yaara Levav-Cohen, Zehavit Goldberg, Osnat Alsheich-Bartok, Valentina Zuckerman, Sue Haupt, Ygal Haupt
    Pages 65-84

  7. Cooperation between MDM2 and MDMX in the Regulation of p53

    • Jeremy Blaydes
    Pages 85-99

  8. Regulation and Function of the Original p53- Inducible p21 Gene

    • Jennifer A. Fraser
    Pages 100-116

  9. p53 Localization

    • Carl G. Maki
    Pages 117-126

  10. Modes of p53 Interactions with DNA in the Chromatin Context

    • Vladana Vukojevic, Tatiana Yakovleva, Georgy Bakalkin
    Pages 127-141

  11. p53’s Dilemma in Transcription: Analysis by Microarrays

    • Karuppiah Kannan, Gideon Rechavi, David Givol
    Pages 142-159

  12. Tumor Viruses and p53

    • Nobuo Horikoshi
    Pages 160-177

  13. p53 and Immunity

    • Vikram Narayan, Sarah E. Meek, Kathryn L. Ball
    Pages 178-186

  14. Back Matter

    Pages 187-189
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Keywords

About this book

Our understanding of human cancer in the past 40 years has been driven by linking innovative concepts and cutting edge technologies to key problems identified by clinical research. Some of the successes in cancer genetics identified from clinical work have been the identification of specific gene deletions in human chromosomes, the use of PCR-based cloning methodologies to identify and clone human cancer genes, the validation of the human cancer genes using transgenetic technologies in the mouse, and the ability to sequence whole genomes that has recently allowed a collation of all somatic and germline mutations in a human genome. In the same generation, entirely different disciplines involved in basic life science research have used model organisms like yeast, flies, worms, and cancer causing animal viruses as tools to develop windows to see into the machinery of the cell life cycle. The discoveries of pro-apoptotic genes, oncogenes, and covalent control mechanisms like phosphorylation and ubiquitination using the tools of science and technology have all been awarded Nobel prizes for their contribution to our understanding of how cells work. The discovery of p53 using the tumor causing animal virus SV40 falls into this pioneering period of biological and medical research.

Authors and Affiliations

  • Ontario Cancer Institute, University of Toronto, Toronto, Canada

    Ayeda Ayed

  • Institute of Genetics and Molecular Medicine CRUK p53 Signal Transduction Laboratories, University of Edinburgh, Edinburgh, Scotland, UK

    Theodore Hupp

About the authors

AYEDA AYED is on leave from the Ontario Cancer Institute at the University of Toronto where she worked as a Postdoctoral Fellow and Associate Scientist on structural aspects of p53 using nuclear Magnetic Resonance Spectroscopy. She was the recipient of the Governor General’s Award in Leukemia Research and a National Cancer Institute Fellowship. She obtained her PhD in Chemistry at the University of Manitoba in Winnipeg and currently resides in Toronto, Canada.

THEODORE HUPP was trained in Chemistry as an undergraduate at Bowling Green State University in Ohio working with Bill Scovell and applied developing interests in life sciences towards a PhD degree at Michigan State University under the mentorship of Jon Kaguni. Interests in enzymology was applied to the cancer field working with Sir David Lane during the time when the p53 field was discovering key p53-inducible genes like

p21, transgenic technologies showed  the key role of p53 as a tumor suppressor, and the p53 protein was found to amenable to activation by post-translational modifications such as phosphorylation, ubiquitination, peptide ligands, or small molecules. The Hupp lab is now based at the University of Edinburgh (UK) funded by the Cancer Research UK charity, where enthusiastic students and colleagues continue to study fundamental enzymological aspects of p53 control by ubiquitination, acetylation, and phosphorylation with the hope of developing novel therapeutics for activating the p53 pathway in humancancers.

Bibliographic Information

  • Book Title: p53

  • Authors: Ayeda Ayed, Theodore Hupp

  • Series Title: Molecular Biology Intelligence Unit

  • DOI: https://doi.org/10.1007/978-1-4419-8231-5

  • Publisher: Springer New York, NY

  • eBook Packages: Biomedical and Life Sciences, Biomedical and Life Sciences (R0)

  • Copyright Information: Landes Bioscience and Springer Science+Business Media, LLC 2010

  • Hardcover ISBN: 978-1-4419-8230-8Published: 16 December 2010

  • eBook ISBN: 978-1-4419-8231-5Published: 16 December 2010

  • Series ISSN: 1431-0414

  • Edition Number: 1

  • Number of Pages: XVI, 200

  • Number of Illustrations: 56 b/w illustrations, 3 illustrations in colour

  • Topics: Cancer Research

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