Project description:The worsening of soil salinization has become an important factor limiting crop yield and quality. Pyropia haitanensis grows in the intertidal zone, and has extremely high salt tolerance. The response mechanism of organisms exposed to stress is linked to energy metabolism and protein processing. The worsening of soil salinization has become an important factor limiting crop yield and quality. Pyropia haitanensis grows in the intertidal zone, and has extremely high salt tolerance. The response mechanism of organisms exposed to stress is linked to energy metabolism and protein processing. Therefore, the aim of this study was to analyze the response mechanism of Pyropia haitanensis to high and low salt stress using dia technique.
Project description:Protein modification process through ubiquitination system is a potential goal for developing genetic improvement strategies of plants under different stress conditions. To identify the ubiquitinated proteins and related pathway involved the thermotolerance of an importantly economic and ecological seaweed, Pyropia haitanensis, the present study performed quantitative ubiquitylome crosstalk with proteome analysis of a thermotolerance strain (WO72-4) exposed to high temperature stress.
