Pierre Capy scite author profile

Our knowledge of the structure and composition of genomes is rapidly progressing in pace with their sequencing. The emerging data show that a significant portion of eukaryotic genomes is composed of transposable elements (TEs). Given the abundance and diversity of TEs and the speed at which large quantities of sequence data are emerging, identification and annotation of TEs presents a significant challenge. Here we propose the first unified hierarchical classification system, designed on the basis of the transposition mechanism, sequence similarities and structural relationships, that can be easily applied by non-experts. The system and nomenclature is kept up to date at the WikiPoson web site.

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Genetic variation of Drosophila melanogaster natural populations

David

1988

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A universal classification of eukaryotic transposable elements implemented in Repbase

et al. 2008

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Stress and transposable elements: co-evolution or useful parasites?

et al. 2000

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The activity of transposable elements can be induced by environmental and population factors and in particular by stresses in various organisms. A consequence of the increase in transposable element mobility is the creation of new genetic variability that can be useful in the face of stressful conditions. In this review, results supporting this hypothesis are presented and discussed. The main question is how stress induces the activity of transposable elements. We discuss hypotheses based upon the existence of promoters or ®xation sites of transcription activators in the untranslated regions of transposable elements, similar to those found in regulatory regions of host defence genes.

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Pierre Capy

A unified classification system for eukaryotic transposable elements

Genetic variation of Drosophila melanogaster natural populations

A universal classification of eukaryotic transposable elements implemented in Repbase

Stress and transposable elements: co-evolution or useful parasites?

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