Selenium (Se) orchestrates a multilevel endogenous defense network in crops against cadmium (Cd) toxicity. This network operates from rhizosphere immobilization (e.g., Cd-Se complexes, microbiome interactions, iron plaque, and root exudates) and subcellular sequestration via transporter regulation (e.g., OsNramp5, OsHMA3) to antioxidant enhancement and selenoprotein activation. Critically, Se acts as a signaling initiator, engaging pathways (e.g., GATA3-COMT1-melatonin) to systemically reprogram stress responses. This review highlights that Se's antagonistic efficacy is form-, dose-, and genotype-dependent, providing a mechanistic basis for precision agronomic strategies. Future efforts must bridge laboratory findings to field applications by elucidating molecular switches and developing integrated predictive technologies.
Liu et al. (Tue,) studied this question.