Project description:Seeds of the desert shrub, jojoba (Simmondsia chinensis) are an abundant, renewable source of liquid wax-esters, which are valued additives in cosmetic products and industrial lubricants. Jojoba is relegated to its own taxonomic family, and there is little genetic information available to elucidate its phylogeny. Here we report the high-quality, 887 Mb, genome of jojoba assembled into 26 chromosomes with 23,490 protein-coding genes. The jojoba genome has only the whole-genome triplication (γ) shared among eudicots, and no recent duplications. These genomic resources coupled with extensive transcriptome, proteome and lipidome data helped to define heterogeneous pathways and machinery for lipid synthesis and storage, provided missing evolutionary history information for this taxonomically-segregated dioecious plant species, and will support efforts to improve the agronomic properties of jojoba
Project description:Jojoba (Simmondsia chinensis) is a new semi- arid, oil- producing industrial crop that has attracted much attention in recent years. Low temperature is one of the major environmental stress that impairs plant growth and development. To better understand the molecular mechanisms of cold stress adaptation and acclimation of jojoba plants, a quantitative proteomic analysis using iTRAQ technology was conducted to detect the effects of cold stress on protein expression profiles in jojoba seedlings. Our work provided useful infomation for understanding the cold stress response and cold acclimation in jojoba.
