Research Paper on The Role of Ethylene, Hydrogen Sulfide, and Sulfur in the Functional Interaction of Plant Heat Stress Tolerance

Description

Title: The Role of Ethylene, Hydrogen Sulfide, and Sulfur in the Functional Interaction of Plant Heat Stress Tolerance

Abstract: Abiotic stresses that affect plants include heat stress, which is receiving the most attention due to the changing climatic conditions. Crop productivity is noticeably decreased by severe heat stress due to changes in growth and development, metabolism, and other physiological processes. Through modulation of biomolecule synthesis, the antioxidant system, and post-translational modifications, ethylene and hydrogen sulfide (H2S) are signaling molecules involved in heat stress defense. Sulfur (S), an essential mineral nutrient, is present in a number of other compounds that are crucial to these defense mechanisms. It makes sense to think about the possibility of a functional interaction between ethylene, H2S, and S in relation to the ability to withstand heat stress because the biosynthesis of ethylene and H2S is linked to the S-assimilation pathway. In order to emphasize how ethylene, H2S, and S interact with one another in order to withstand heat, this review concentrates on this interaction.

Keywords: antioxidants; heat stress; mineral nutrients; post-translational changes; tolerance

Paper Quality: SCOPUS / Web of Science Level Research Paper

Subject: Biology

Writer Experience: 20+ Years

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