Grande retrotransposons contain an accessory gene in the unusually long 3'-internal region that encodes a nuclear protein transcribed from its own promoter.

LTR retrotransposons are major components of plant genomes playing important roles in the evolution of their host genomes, for example, generating new genes or providing new promoters to existing genes. The Grande family of retrotransposons is present in Zea species and is characterized by an unusually long internal region due to the presence of a 7-kbp region between the gag-pol coding region and the 3'LTR. We demonstrate here that such unusual sequence is present in the great majority of Grande copies in maize genome.

Reme1, a Copia retrotransposon in melon, is transcriptionally induced by UV light.

For the first time, numerous sequences of Copia and Gypsy retrotransposons from the Cucumis melo genome have been obtained and analyzed. Phylogenetic analyses of sequences of both types of long terminal repeat (LTR) retrotransposons were carried out. The melon genome contains approximately 20,000 Gypsy and 6,800 Copia elements, comprising about 26% of its total size.

CIRE1, a novel transcriptionally active Ty1-copia retrotransposon from Citrus sinensis.

LTR retrotransposons (LTR-RTNs) are widespread constituents of eukaryote genomes, particularly plant genomes. Although LTR-RTNs from plants were thought to be transcriptionally silent in somatic tissues, evidences of activity under certain conditions are available for some of them. In order to investigate LTR-RTNs in the Citrus sinensis genome, we analysed them by PCR using degenerate primers corresponding to highly conserved domains.

Natural selection and climate change: temperature-linked spatial and temporal trends in gene frequency in Fagus sylvatica.

Rapid increases in global temperature are likely to impose strong directional selection on many plant populations, which must therefore adapt if they are to survive. Within populations, microgeographic genetic differentiation of individuals with respect to climate suggests that some populations may adapt to changing temperatures in the short-term through rapid changes in gene frequency. We used a genome scan to identify temperature-related adaptive differentiation of individuals of the tree species Fagus sylvatica.

Integrase diversity and transcription of the maize retrotransposon Grande.

Grande is an abundant gypsy-like retrotransposon present in the genera Zea and Tripsacum. Related retro transposon families can be found in sorghum, rice, and barley, but not in wheat or rye. We have amplified and sequenced several copies of part of the integrase domain derived from the Zea mays, Zea diploperennis, and Tripsacum dactyloides genomes.