Jérémy Clotault

TL;DR: This work resequenced and analyzed 994 pearl millet lines, enabling insights into population structure, genetic diversity and domestication, and establishes marker trait associations for genomic selection, to define heterotic pools, and to predict hybrid performance.

TL;DR: Combining genetic and genomic approaches, potential genetic regulators of key ornamental traits, including prickle density and the number of flower petals are identified, and a rose APETALA2/TOE homologue is proposed to be the major regulator of petal number in rose.

TL;DR: Investigation of transcriptional regulation of carotenoid biosynthesis genes in relation to carOTenoid accumulation during early carrot root development and up to 3 months after sowing showed that the accumulation of total carotanoids during development and the collection of major carotnoids in the red and yellow cultivars might partially be explained by the transcriptional level of genes directing theCarotenoids biosynthesis pathway.

TL;DR: The high methylation level and polymorphism reported in this study could be related with the high structural genome plasticity already reported in the Brassica species to explain the phenotypic variability of this species.

TL;DR: This study provides new insights into the domestication process of pearl millet and shows that a category of genes of the flowering pathway were preferentially selected during pear millet domestication.