Jamil Samsatly
McGill University
5 Papers
11 Citations
Jamil Samsatly is an academic researcher from McGill University. The author has contributed to research in topics: Rhizoctonia solani & Rhizoctonia. The author has an hindex of 4, co-authored 5 publications.
Chat about Author
Papers
Antioxidant genes of plants and fungal pathogens are distinctly regulated during disease development in different Rhizoctonia solani pathosystems.
TL;DR: This study is the first coexpression analysis of genes encoding vitamin B6, CAT and GST in plant and fungal tissues of three pathosystems during interaction of different AG groups of R. solani with their respective hosts, indicating that distinct expression patterns of fungal and host antioxidant genes were correlated in necrotic tissues and their surrounding areas.
Vitamin B6 Is Under a Tight Balance During Disease Development by Rhizoctonia solani on Different Cultivars of Potato and on Arabidopsis thaliana Mutants.
TL;DR: Overall, it is demonstrated that the production of vitamin VB6 is under tight control and is an essential determinant of disease development during the interaction of R. solani with potato cultivars.
Suppression subtractive hybridization and comparative expression of a pore-forming toxin and glycosyl hydrolase genes in Rhizoctonia solani during potato sprout infection
TL;DR: The identification of 33 unique genes with functions related to carbohydrate binding, vitamin synthesis, pathogenicity, translation, ATP and nucleic acid binding and other categories are reported, advancing understanding of R. solani–potato interaction in subterranean parts of the plant.
11
Endophytes of industrial hemp (Cannabis sativa L.) cultivars: identification of culturable bacteria and fungi in leaves, petioles, and seeds
TL;DR: It is demonstrated that industrial hemp harbours a diversity of microbial endophytes, some of which could be used in growth promotion and (or) in biological control designed experiments.
Genes of the de novo and Salvage Biosynthesis Pathways of Vitamin B6 are Regulated under Oxidative Stress in the Plant Pathogen Rhizoctonia solani
TL;DR: The results suggest that accumulation of ROS in R. solani mycelia is linked to transcriptional regulation of the three genes and implicate the vitamin B6 biosynthesis machinery in R., solani, similar to catalases and GST, as an antioxidant stress protector against oxidative stress.