|
Author Sáenz de Navarrete Llabrés, Rafael |
Abstract Plants suffer multiple stresses in nature, either abiotic, biotic or both. Throughout this work, studies have been carried out on rice plants during infection by pathogenic fungi (biotic stress) in a situation of nutritional stress (abiotic stress), and how the response to one type of stress can affect the response to the other. On the one hand, the pathogenic fungus Magnaporthe oryzae has been used to study the plant defense mechanisms against this fungus, responsible for rice pyriculariosis, and genetic components potentially involved in such defense, specifically microRNAs (miRNAs). The miRNAs are a class of small non-coding RNAs that regulate the expression of other genes at a post-transcriptional level. By sequencing the small RNA population of rice tissues, sequences of small RNAs that could be novel rice miRNAs (candidate miRNAs) with a role in plant innate immunity were identified in the laboratory. In this project, resistance/susceptibility phenotypes of CRISPR/Cas9 rice lines were studied for the following candidate miRNAs: miRNA-8, miRNA-64, miRNA-96 and miRNA-203. CRISPR/Cas9 lines for miRNA-8, miRNA-96 and miRNA-203 show increased resistance to the foliar pathogen M. oryzae, whereas CRISPR lines for miRNA-64 show increased susceptibility. The expression patterns of the defense markers OsPBZ1, OsPR1a and OsPR1b explain the phenotype observed in each case. On the other hand, this project has also focused on the effect of phosphate in the regulation of rice plant immunity. Phosphate is one of the most important macromolecules in any biological system and although it is present in the soil in its inorganic form (Pi), its availability is very low. |
|
|
Director San Segundo de los Mozos, Blanca |
||
|
Degree IQS SE - Undergraduate Program in Biotechnology |
||
|
Date 2022-09-18
|
