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Evolution and Impact of Transposable Elements, 1997 Contemporary Issues in Genetics and Evolution Series, Vol. 6

Langue : Anglais

Coordonnateur : Capy Pierre

Couverture de l’ouvrage Evolution and Impact of Transposable Elements
During the last 50 years, the perception oftransposable elements (TEs) has changed considerably from selfish DNA to sequences that may contribute significantly to genome function and evolution. The recent increased interest in TEs is based on the realization that they are a major genetic component (at least 10--20%) of all organisms and a major contributor to the mutation process. It is currently estimated that 70--80% of spontaneous mutations are the result of TE-mediated insertions, deletions, or chromosomal rearrangements. Thus, it seems at least plausible that TEs may playa significant role in the adaptation and evolution of natural populations and species. The ubiquity of TEs suggests that they are an old component of genomes which have been vertically transmitted through generations over evolutionary time. However, detailed analyses carried out over the last 20 years have revealed several unusual features of TE evolution: (i) TEs can be horizontally transferred between species; (ii) TE evolutionary rates can be dramatically increased by specific inactivation processes, such as the RIP (Repeat Induced Point mutation) mechanism in fungi; (iii) TEs can influence the regulation of other TEs by insertion or deletion; (iv) different classes of TEs in even distantly related species can be remarkably similar in both structure and function.
I: Structure of Transposable Element. LTR retrotransposons and the evolution of eukaryotic enhancers; J.F. McDonald, et al. What makes Grande 1 retrotransposon different? J.-A. Martinez-Izquerdo, et al. About the origin of retroviruses and the co-evolution of the gypsy retrovirus with the Drosophila flamenco hose gene; A. Pélisson, et al. Structural analysis of Drosophila subobscura gypsy elements (gypsyDs); T.M. Alberola, et al. Evolution of R1 and R2 in the rDNA units of the genus Drosophila; T.H. Eickbush, et al. Do the integrases of LTR-retrotransposons and class II element transposases have a common ancestor? P. Capy, et al. II: Transposable Elements and Heterochromatin. Evolutionary links between telomeres and transposable elements; M.L. Pardue, et al. Constitutive heterochromatin and transposable elements in Drosophila melanogaster; P. Dimitri. P element regulation and X-chromosome subtelomeric heterochromatin in Drosophila melanogaster; S. Ronsseray, et al. III: Transposable Elements and Host Phylogenies. Quasispecies in retrotransposons: a role for sequence variability in Tnt1 evolution; J.M. Casacuberta, et al. Genetic and molecular investigations on the endogenous mobile elements of non-drosophilid fruitflies; C. Torti, et al. Genomic distribution of the retrovirus-like element ZAM in Drosophila; E. Bladrich, et al. CM-gag, a transposable-like element reiterated in the genome of Culex pipiens mosquitoes contains only a gag gene; N. Benssadi-Merchermek, et al. IV: Dynamics and Regulation of Transposable Elements.A. Transposable Elements in Natural Populations and Laboratory Strains. Evidence for a role of the host in regulating the activity of transposable elements in Drosophila melanogaster: the case of the persistent instability of Bari1 elements in Charolles stock; C. Di Franco, et al. Plant S1 SINEs as model to study retroposition; N. Gilbert, et al. Maintenance of transposable element copy number in natural populations of Drosophila melanogaster and D. simulans; C. Biémont, et al. Accumulation of transposable elements in laboratory lines of Drosophila melanogaster; S.V. Nuzhdin, et al. B. Relationships Between TEs and Host Genomes. Regulation of the transposable element mariner; D.L. Hartl, et al. The evolution of Ty1-copia group retrotransposons in eukaryote genomes; A.J. Flavell, et al. The chromosomal distribution of retrotransposons-like elements in higher plants and its implications for genome evolution; J.S.(P.) Heslop-Harrison, et al. The Ty1-copia retrotransposons in plants: genomic organisation, evolution and use as molecular markers; A. Kumar, et al. BARE-1 insertion site preferences and evolutionary conservation of RNA and cDNA processing sites; A. Suoniemi, et al. Bare-ID, a representative of a family of Bare-like elements of barley genome; A.B. Shcherban, A.V. Vershinin. The expression of the tobacco Tnt1 retrotransposon is linked to the plant defense response; M.A. Grandbastien, et al. Fungal transposable elements and genome evolution; M.J. Daboussi. Molecular domestication of mobile elements; W.J. Miller, et al. Genomic signatures: tracing the origin of retroelements at the nucleotide level; C. Terzian, et al.
The existence of transposable elements was implied by Barbara McClintock in the 1940s, based on genetic experiments, and verified in the 1970s by molecular biology. Today, hundreds of elements have been detected in all living organisms and are believed to represent more than 15% of every organism's genome. Major questions remain to be answered concerning how transposable elements have evolved within the context of interacting host genomes. These questions are of great interest because transposable elements may have had a significant impact on the evolution of host genome structure and the ability of populations and species to successfully adapt to their environments. In this book, complementary aspects of the evolution impact of transposable elements are discussed in papers presented by pa

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