PHYTHORMONES AND ABIOTIC STRESS (REVIEW)

Plants experience a variety of biotic and abiotic stresses that cause crop losses worldwide. Preventing crop losses due to these factors is of particular importance. For this, it is important to understand the mechanisms of both suppressing and stimulating seed germination and to develop technologies for controlling seed dormancy and development in order to avoid unwanted germination in the ears. Gene switching technologies can be used to address this and similar problems in seed development. Recent studies have shown that classical phytohormones - auxins, cytokinins, abscisic acid, ethylene, gibberellins - control all stages of plant ontogenesis. In addition to the classic phytohormones, there are relatively new ones - brassinosteroids, jasmonates, strigolactones, salicylates, which deserve consideration in a separate review. Together, these compounds are important metabolic engineering targets for the production of stress-resistant crops. In this review, we have summarized the role of phytohormones in plant development and resistance to abiotic stresses. Experimental data were presented on the transport of phytohormones, the interaction between them, as a result of which the activity of a certain hormone can be either enhanced or suppressed. We have identified the main links of phytohormones with an emphasis on the response of plants to abiotic stresses and have shown that the effect of an individual hormone depends on the ratio with other phytohormones and metabolites. Additional research along these lines will help explain different stress responses and provide tools to improve plant stress tolerance.