<p>Gene downregulation in plants is a vital mechanism through which plants adapt to various environmental stresses and optimize their growth and survival. The regulation of gene expression is influenced by a complex array of internal and external factors, including environmental conditions, hormonal signals, and microbial interactions. Natural mechanisms such as modulation of environmental stress, hormonal regulation, soil-microbe interactions, and selective breeding can play a crucial role in controlling gene downregulation without the need for artificial interventions. This review explores the natural strategies available for controlling gene downregulation, focusing on how environmental stress factors like drought, salinity, and temperature affect gene expression. Additionally, it examines the role of phytohormones in regulating gene silencing, the influence of beneficial soil microbes, and the potential of selective breeding and natural selection in optimizing gene expression. By understanding and harnessing these natural processes, plants can be better managed for improved resilience, growth, and productivity, thus offering an ecologically sustainable approach to agricultural challenges.</p>

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Gene regulation of structural support in plants: impacts of downregulation on growth and resilience

  • Misbah Naz,
  • Muhammad Rahil Afzal,
  • Zhuo Chen

摘要

Gene downregulation in plants is a vital mechanism through which plants adapt to various environmental stresses and optimize their growth and survival. The regulation of gene expression is influenced by a complex array of internal and external factors, including environmental conditions, hormonal signals, and microbial interactions. Natural mechanisms such as modulation of environmental stress, hormonal regulation, soil-microbe interactions, and selective breeding can play a crucial role in controlling gene downregulation without the need for artificial interventions. This review explores the natural strategies available for controlling gene downregulation, focusing on how environmental stress factors like drought, salinity, and temperature affect gene expression. Additionally, it examines the role of phytohormones in regulating gene silencing, the influence of beneficial soil microbes, and the potential of selective breeding and natural selection in optimizing gene expression. By understanding and harnessing these natural processes, plants can be better managed for improved resilience, growth, and productivity, thus offering an ecologically sustainable approach to agricultural challenges.