© 2009

Transposons and the Dynamic Genome

  • Editors
  • Dirk-Henner Lankenau
  • Jean-Nicolas Volff

Part of the Genome Dynamics and Stability book series (GENOME, volume 4)

Table of contents

  1. Front Matter
    Pages I-XVI
  2. Cristina Vieira, Marie Fablet, Emmanuelle Lerat
    Pages 21-43
  3. Christophe Terzian, Alain Pelisson, Alain Bucheton
    Pages 95-107
  4. Oliver Walisko, Tobias Jursch, Zsuzsanna Izsvák, Zoltán Ivics
    Pages 109-132
  5. Zsuzsanna Izsvák, Yongming Wang, Zoltán Ivics
    Pages 133-176
  6. Back Matter
    Pages 177-184

About this book


There are only few major key functions that lie beneath the fundamental architecture of metabolism and life. These are multiplication, variation and heredity. Only if these factors interact synergistically can Darwinian selection power the evolution of biodiversity. Transposable elements have always played a major role in this process. The genomes of all organisms consist of chromosomes that are built up of double-stranded nucleic acid chains on whose stability and integrity the existence of cells depend. While DNA repair warrants the chemical integrity of DNA and protects it from metabolic and environmental mutagens, meiotic recombination and transposable element activity appear to counteract the molecular guardians of genome stability. Transposable elements and their kind often make up the bulk of genomic DNA, often approaching 50% of the genome. By contrast, the classic genes represent as little as 1.8% of genomic DNA, in case of the human genome.

This volume gives an overview on mobile DNA and how such contradiction to the obligatory stability of genomes can be understood. Obviously, an understanding can only be achieved by cutting deeply into the evolutionary history of life along with the evolution of transposable elements and dynamic genomes.

This book therefore also celebrates Charles Darwin’s 200th birthday. The reader is challenged to view the role of movable DNA along historical roots from the levels of cells to populations to biological species integrating the accompanying molecular evolution of host, cell and genome interaction. One will witness even the reactivation of a long since dead, fossil transposable element and the infection of germline cells by the first established, mobile and endogenous insect retrovirus.


Activation Chromosom DNA RNA chromosome evolution genes metabolism recombination regulation

Bibliographic information

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