Project description:Global Oat Genomic Diversity

Project description:Hexaploid Oat genome PacBio Reads

Project description:Energy densification and enrichment of monounsaturated fatty acids increases oat’s nutritional value among small grain cereals. However, optimization of oat oil traits is challenging through conventional breeding. Using the biolistic method for oat’s oil improvement, here we showed that metabolic engineering is a feasible strategy in improving the oil traits of oat. In this study, two constructs containing three genes involved in lipid biosynthesis pathway (AtWRI1, AtDGAT, and SiOLEOSIN) were transformed into oat cultivar ‘Park’ to enhance the oil composition and content in oat grain and leaves. We performed RNA-sequencing in mature seeds and boot leaves of trasngenic lines. Transgene expression contributed to a global transcriptional reprogramming in oat seeds and leaves. Endogenous DGAT, WRI1, and OLEOSIN genes were up regulated while the genes involved in fatty acid biosynthesis expressed in opposite way between oat seeds and leaves. Transcriptomic studies revealed differential gene expression mainly enriched in lipid metabolism.

Project description:Wheat is a cereal grain and one of the world’s major food crops. Recent advances in wheat genome sequencing are by now facilitating genomic and proteomic analyses of this crop. However, little is known about the protein levels of hexaploid versus tetraploid wheat cultivars, and knowledge on phosphorylated proteins still limited. Using our recently established (phospho)proteomic workflow, we performed a parallel analysis of the proteome and phosphoproteome on seedling leaves from two hexaploid wheat cultivars (Pavon 76 and USU-Apogee) and a tetraploid wheat (Senatore Cappelli). This revealed that a large portion of proteins and phosphosites can be quantified in all cultivars. Our shotgun proteomics data revealed a high similarity between hexaploid and tetraploid varieties with respect to protein abundance. However, we could identify a set of proteins that were differentially abundant between hexaploid and tetraploid cultivars. In addition, already at seedling stage, a small set of proteins were differential between the small (USU-Apogee) and larger hexaploid wheat cultivar (Pavon 76), which could potentially act as growth predictors. Finally, the phosphosites identified in this study can be retrieved from the in-house developed plant PTM-Viewer (bioinformatics.psb.ugent.be/webtools/ptm_viewer/), making this the first repository for phosphorylated wheat proteins. This paves the way for further in depth, quantitative (phospho)proteome-wide differential analyses upon a specific trigger or environmental change.

Project description:Forage oat microbial community diversity

Project description:Forage oat microbial community diversity

Project description:Global sequencing resources for oat crown rust

Project description:We present an atlas of global gene expression covering embryo, endosperm and seed coat development in Chinese Spring and CDC commander, providing insights into the evolution of gene expression in embryogenesis and grain development of hexaploid and tetraploid wheat species.

Project description:Speciation via interspecific or intergeneric hybridization and polyploidization triggers genomic responses Examination of small RNA of diploid Parent, Tetraploid parent, F1 hybrid and hexaploid amhiploid. Four pools of plants for each sample

Project description:Understanding the mechanism of low temperature (LT) adaptation is crucial to the development of cold-tolerant crops. To identify the genes involved in the development of LT tolerance in the crown of hexaploid wheat we examined the global changes in genes expression during cold-treatment using the Affymetrix Wheat Genome Chip.