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The Dynamics of RNA Synthesis Depending on the Degree of Resistance of Plants to Drought

*Corresponding Author:

Copyright: © 2020  . This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

 
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Abstract

In an unfavorable situation, the rapid response of plants is gene expression. It is known that the expression of potential defense reaction genes in a stress-resistant cotton variety occurs faster than in a sensitive one. In this regard, it seemed important to us to study the nature of changes in RNA synthesis under drought conditions in cotton varieties, characterized by varying degrees of resistance.The degree of resistance of varieties to drought was studied by the method of seed germination in a sucrose solution that mimics physiological drought. According to the results of the study, under stress, the activity of RNA synthesis in experimental plants of drought tolerant varieties of cotton 9732I, 5010-V, S-6022 exceeds the control plants by 10.0%, 12.3% and 35.6%, respectively. Stress-sensitive cotton samples under stress show a decrease in RNA synthesis. So, for example, in the cotton variety Senare, the decrease in RNA synthesis in comparison with control plants was 12.2%, in the variety 5904-1 – 14.1%. Moreover, the higher the depression of the physiological parameter under stress, the greater the decrease in RNA synthesis. So, the smallest depression of the physiological parameter was noted for the variety S-6040-1 – 14.8%, in which the depression of RNA synthesis was 10.7%. In variety 741, characterized by the highest degree of suppression of seed germination under the influence of drought stress (75%), there is a significant decrease in RNA synthesis (35%). The data obtained indicate that stress factors affect the functional activity of the plant genome.

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