The Crucial Role of Sulfite in Enhancing Plant Stress Response

Abstract

Sulfite, a sulfur-containing compound, has traditionally been viewed as a toxic byproduct of sulfur metabolism in plants. Recent research, however, highlights its emerging role as a signaling molecule influencing a wide range of physiological processes. This review delves into the dualistic nature of sulfite, examining its involvement in plant stress responses, developmental pathways, and metabolic regulation. Sulfite signaling is intricately linked with reactive oxygen species (ROS) and hormonal networks, particularly abscisic acid (ABA), facilitating plants' adaptive responses to environmental stresses such as drought. Moreover, the regulatory mechanisms of sulfite homeostasis, including sulfite reductase activity and sulfite transporters, underscore its significance in maintaining cellular function and redox balance. The insights into sulfite's role as a signaling molecule open new avenues for enhancing crop resilience and productivity through targeted metabolic engineering. Understanding sulfite dynamics thus represents a promising frontier in plant biology, with potential applications in sustainable agriculture and stress management.