High-density genotyping of pea and faba bean diversity panels using exome capture

International audience; Genome-wide association studies (GWAS) represent a powerful tool to decipher the geneticdeterminism of complex traits in crop plants and to identify responsible genes. As GWAS require large diversitypanels segregating for the traits of interest, one faba bean and three pea collections were constituted toaddress different questions in the PeaMUST project. The faba bean panel comprises 248 accessions comingfrom five continents and displaying the phenotypic diversity of the species. The first pea collection includes239 accessions that represent the species diversity for aerial and root architecture and for biotic and abioticstress responses. The second and third pea pan…

Beyond the sequencing of the pea genome: opportunities for genomics-based breeding and translational approaches

International audience; The tribe Fabeae comprises more than 300 legume species, including some of the most ancient and important crops like Pisum sativum (pea), Lens culinaris (lentil), and Vicia faba (faba bean) used for food and feed. The genome sequence of pea, released in 2019, is an important milestone for the community working on legumes and especially on Fabeae. It brings into light evidences related to the genome expansion that occurred after the divergence of Fabeae from their sister tribes and highlights different chromosomal rearrangement events specific or not to the Pisum lineage. The pea genome sequence also represents a valuable resource to accelerate our understanding of th…

The Pea genome and after...

The Pea genome and after …

Having a genome sequence available is a critical step towards unravelling functional diversity andestablishing genome-enabled breeding. The recently generated pea genome sequence represents a great toolfor genomicists, geneticists and breeders not only for the pea community but also for legume research. In thegenome project, re-sequencing data revealed the considerable diversity present in the Pisum genus. In thePeaMUST project, an unprecedented effort was made to genotype large pea collections using the exomecapture technology. This high-density SNP data was exploited in genome-wide association studies (GWAS) ona large number of traits related to yield, as well as response to biotic and ab…

Taking cool-season grain legume breeding to the next level: the key role of the pea genome sequence

International audience; The transition from a standalone phenotypic selection to a marker-assisted selection has been seen as a great step forward to improve the breeding process and reach the expected goals. More recently, the genomic revolution has also had its great impact on breeding. -omics are now part of the required toolkit for a successful, cost and time-efficient breeding. The genome sequence of pea (Pisum sativum) has been made available in 2019 through a collaborative international effort. This is a great tool for the pea community in general and the Fabeae community in particular. Current challenges facing pea and other Fabeae production are numerous. A large number of traits h…

Genetic diversity and trait genomic prediction in a pea diversity panel

Background Pea (Pisum sativum L.), a major pulse crop grown for its protein-rich seeds, is an important component of agroecological cropping systems in diverse regions of the world. New breeding challenges imposed by global climate change and new regulations urge pea breeders to undertake more efficient methods of selection and better take advantage of the large genetic diversity present in the Pisum sativum genepool. Diversity studies conducted so far in pea used Simple Sequence Repeat (SSR) and Retrotransposon Based Insertion Polymorphism (RBIP) markers. Recently, SNP marker panels have been developed that will be useful for genetic diversity assessment and marker-assisted selection. Resu…

The pea genome and beyond

International audience; The recently generated pea genome sequence is a significant step for the pea research community towards unravelling functional diversity and establishing genome-enabled breeding. Re-sequencing data reveal the considerable diversity present in the Pisum genus. High-throughput genotyping is now available to explore large collections using the exome capture technology in genome-wide association studies (GWAS) or tackle map-based QTL cloning. Furthermore, genomic selection strategies have been developed in order to tackle complex traits such as yield regularity and improve selection efficiency. We will present snapshots of these results and discuss potential transfer of …