Chromosome replacement and deletion lead to clonal polymorphism of berry color in grapevine.

Clonal polymorphism mainly results from somatic mutations that occur naturally during plant growth. In grapevine, arrays of clones have been selected within varieties as a valuable source of diversity, among them clones showing berry color polymorphism. To identify mutations responsible for this color polymorphism, we studied a collection of 33 clones of Pinot noir, Pinot gris, and Pinot blanc.

The Tvv1 retrotransposon family is conserved between plant genomes separated by over 100 million years.

Combining several different approaches, we have examined the structure, variability, and distribution of Tvv1 retrotransposons. Tvv1 is an unusual example of a low-copy retrotransposon metapopulation dispersed unevenly among very distant species and is promising for the development of molecular markers. Retrotransposons are ubiquitous throughout the genomes of the vascular plants, but individual retrotransposon families tend to be confined to the level of plant genus or at most family.

An extensive study of the genetic diversity within seven French wine grape variety collections.

The process of vegetative propagation used to multiply grapevine varieties produces, in most cases, clones genetically identical to the parental plant. Nevertheless, spontaneous somatic mutations can occur in the regenerative cells that give rise to the clones, leading to consider varieties as populations of clones that conform to a panel of phenotypic traits. Using two sets of nuclear microsatellite markers, the present work aimed at evaluating and comparing the intravarietal genetic diversity within seven wine grape varieties: Cabernet franc, Cabernet Sauvignon, Chenin blanc, Grolleau, Pinot noir, Riesling, Savagnin, comprising a total number of 344 accessions of certified clones and introductions preserved in French repositories.

Retention of the virus-derived sequences in the nuclear genome of grapevine as a potential pathway to virus resistance.

Background: Previous studies have revealed a wide-spread occurence of the partial and complete genomes of the reverse-transcribing pararetroviruses in the nuclear genomes of herbaceous plants. Although the absence of the virus-encoded integrases attests to the random and incidental incorporation of the viral sequences, their presence could have functional implications for the virus-host interactions.

Hypothesis: Analyses of two nuclear genomes of grapevine revealed multiple events of horizontal gene transfer from pararetroviruses.

Characterization of ten novel Ty1/copia-like retrotransposon families of the grapevine genome.

Background: Retrotransposons make a significant contribution to the size, organization and genetic diversity of their host genomes. To characterize retrotransposon families in the grapevine genome (the fourth crop plant genome sequenced) we have combined two approaches: a PCR-based method for the isolation of RnaseH-LTR sequences with a computer-based sequence similarity search in the whole-genome sequence of PN40024.

Results: Supported by a phylogenic analysis, ten novel Ty1/copia families were distinguished in this study.

Structural variability of Tvv1 grapevine retrotransposons can be caused by illegitimate recombination.

Structural variability of Tvv1, a grapevine retrotransposon Ty1 copia-like family, was investigated within the grape genome and the canonical sequence of Tvv1 determined. Then, two remarkable elements, Tvv1-Delta3001 and Tvv1-Delta3640, which had suffered large deletions 3,001 bp and 3,460 bp in length of their coding sequences were compared to the canonical copy. In both deleted elements, the deletion breakpoint was characterized by a stretch 13 bp-long in Tvv1-Delta3001 and 11 bp-long in Tvv1-Delta3640 found duplicated in the canonical copy at each bound of the deleted regions.

Untranslated leader region polymorphism of Tvv1, a retrotransposon family, is a novel marker useful for analyzing genetic diversity and relatedness in the genus Vitis.

Grapevine retrotransposons belonging to the Tvv1 family share a single, highly conserved open reading frame but differ by their untranslated leader (UTL) region, which is highly variable in size. Amplification of the UTL region of Tvv1 elements from 94 Vitaceae accessions reveals that each of them shows a unique pattern of UTL-derived bands, which is inherited in progenies but conserved between clones vegetatively propagated. The overall organization of genetic diversity of the Vitaceae at the inter and intraspecific level and relatedness among accessions described by UTL-derived bands was compared to those obtained using 15 microsatellite loci.

Genetic diversity and geographical dispersal in grapevine clones revealed by microsatellite markers.

Intravarietal genetic diversification associated with geographical dispersal of a vegetatively propagated species was studied using grapevine Vitis vinifera L. 'Cabernet Sauvignon' as a model. Fifty-nine clonal samples obtained from 7 countries (France, Chile, Spain, Australia, Hungary, USA, and Italy) were analyzed using 84 microsatellite markers.