Project description:Effect of virus infection on Globisporangium ultimum.

Project description:Globisporangium ultimum RNA-seq data

Project description: Not available

Project description:Pythium ultimum DAOM BR748 genome sequencing

Project description:Pythium ultimum DAOM BR144 genome sequencing project

Project description:Transcriptome analysis was performed on the rhizome tissues of Atractylodes macrocephala under different treatments. The four treatments were: sterile water irrigation alone, FS root irrigation, FS and AM201 root irrigation, and FS combined with methyltobuzin (TM) root irrigation. And the differential genes between AM201 and FO groups were identified and compared, which helps to reveal the resistance mechanism of AM201 to Atractylodes macrocephala root rot disease

Project description:Globisporangium ultimum var. sporangiiferum BR650 Genome sequencing and assembly

Project description:This experiment aims to ascertain a profile of secondary metabolites produced by Ilyonectria species capable of causing disappearing root rot in ginseng. Ilyonectria isolates were grown on potato dextrose agar for 20 days, then plugs were taken from the cultures and extracted with ethyl acetate. Extracts were analyzed by LC-HRMS and tandem HRMS. Data were analyzed by Principal component analysis and molecular networking with GNPS.

Project description:Rice (Oryza sativa L.) is one of the most important staple foods in the world, feeding more than 50% of the human population. One of its most damaging pathogens, with major impact on rice yield, is the migratory root rot nematode Hirschmanniella oryzae. In comparison with the existing knowledge on the infection process of dicots by sedentary nematodes, far less is known about the interaction between monocot plants and nematodes or plant interactions with migratory nematode species. Therefore, to gain deeper insight into the systemic transcriptional changes in rice after migratory root rot nematode infection we have performed mRNA-Seq on the shoots of root rot nematode infected rice plants. The observations were independently validated using qRT-PCR and biochemical analyses. This research reveals significant modifications in the metabolism of the plant, with a general suppression of chlorophyll biosynthesis, and primary metabolic processes involved in plant growth . Differential expression analysis between controls rice shoots and shoots from root rot nematode (H. oryzae) infected rice at two time points.

Project description:The water mold endoparasite