Project description:Ditylenchus destructor overview

Project description:Ditylenchus destructor Raw sequence reads

Project description:Ditylenchus destructor Raw sequence reads

Project description:Comparative genomic analysis of Ditylenchus destructor

Project description:Ditylenchus destructor Genome sequencing and assembly

Project description:To dissect the gene regulatory networks operating during Scarlet Runner Bean seed development, we identified the binding sites genome-wide for transcription factor in Scarlet Runner Bean seeds during seed development using ChIP-seq

Project description:Virome of Ditylenchus destructor isolated from diseased sweet potatoes

Project description:Germination offers advantages to improve legume protein digestibility as it disintegrates seed structure and hydrolyzes proteins and anti-nutrients. Seed permeability (related to polyphenol content of seed coats) is an important factor affecting the duration of seed germination and its impact in protein digestibility and bioactivity. The objective was to compare the effect of seed germination on protease activity, structure and proteolysis of four selected legumes with contrasting seed coat polyphenol profiles (gray zero tannin [GZL], beluga [BL] and dehulled red [DL] lentils; and zero tannin/low vicine-convicine fava bean [ZF]). Protein hydrolysis was characterized during germination and digestion with respect to proteins, peptides and free amino acids (FAA). In vitro antihypertensive and antioxidant activities of digests were investigated, and peptidomic characterization (HPLC-MS/MS) and identification of bioactive fragments in intestinal digests were performed. Regardless of seed type, germination increased protease activity and reduced levels of phytic acid, trypsin inhibitors and tannins (only in BL). Significant proteolysis of the 7S and 11S globulins and concomitant increase peptides and FAA was observed in all sprouted legumes. Digestion kinetics in sprouts revealed a faster generation of FAA and peptides than in dry seeds, with changes more evident for DL associated to faster imbibition, germination and sprout growth. In contrast, BL sprouts showed the lowest protein digestibility, likely due to lower protease activity levels, seed structure disintegration and higher anti-nutrient levels in comparison to GZL, DL and ZF. Moreover, digestion of sprouts resulted in a higher number of resistant peptides in DL and ZF that matched with previously reported bioactive sequences, suggesting a promising health potential of legume sprouts that was confirmed in vitro. Results suggested that the germination process improved protein digestibility and health promoting potential of lentil and fava bean proteins although these changes were more evident in DL due to its rapid imbibition, faster germination and sprout development. This study will provide important information for either plant breeders to develop legume varieties with permeable seed coats or food producers that could use dehulled seeds for efficient production of sprouts as sustainable food sources of plant proteins with improved nutritional and healthy properties.

Project description:Ditylenchus destructor isolate:A1 Genome sequencing

Project description:Many genes involve in pathogenicity and virulence are induced only in plant or in the presence of host components. Bean leaf extract was obtained from healthy bean leaves. In this work we investigated the effect of bean leaf extract on the transcriptomic profile of the bacterium, when grown at low temperature in minimal medium with or without extract from healthy bean leaves.