AI Article Synopsis
- Hermaphroditic flowers in domesticated grapevines allow for self-pollination, greatly increasing yield compared to wild grape species, which are dioecious (either male or female).
- The study identified male and female haplotypes in wild grapevines and confirmed the conserved boundaries of the sex-determining region (SDR) across various grapevine species using genetic analysis of 556 accessions.
- Differences in recombination patterns were found between wild and cultivated grapevines, revealing two main hermaphroditic haplotypes (H1 and H2), with evidence suggesting multiple events of recombination led to the evolution of hermaphroditism.
Article Abstract
Hermaphroditic (perfect) flowers were a key trait in grapevine domestication, enabling a drastic increase in yields due to the efficiency of self-pollination in the domesticated grapevine ( L. ssp. ). In contrast, all extant wild species are dioecious, each plant having only male or female flowers. In this study, we identified the male (M) and female (f) haplotypes of the sex-determining region (SDR) in the wild grapevine species and confirmed the boundaries of the SDR. We also demonstrated that the SDR and its boundaries are precisely conserved across the genus using shotgun resequencing data of 556 wild and domesticated accessions from North America, East Asia, and Europe. A high linkage disequilibrium was found at the SDR in all wild grape species, while different recombination signatures were observed along the hermaphrodite (H) haplotype of 363 cultivated accessions, revealing two distinct H haplotypes, named H1 and H2. To further examine the H2 haplotype, we sequenced the genome of two grapevine cultivars, 'Riesling' and 'Chardonnay'. By reconstructing the first two H2 haplotypes, we estimated the divergence time between H1 and H2 haplotypes at ∼6 million years ago, which predates the domestication of grapevine (∼8,000 y ago). Our findings emphasize the important role of recombination suppression in maintaining dioecy in wild grape species and lend additional support to the hypothesis that at least two independent recombination events led to the reversion to hermaphroditism in grapevine.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8053984 | PMC |
| http://dx.doi.org/10.1073/pnas.2023548118 | DOI Listing |
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