AI Article Synopsis

  • Leaf senescence significantly impacts crop yield and nutritional quality, making it crucial to understand the genes and mechanisms involved in this process, especially in foxtail millet, which is noted for its nutritional value and stress resilience.* -
  • In this study, researchers used a dark-induced senescence system on two varieties of foxtail millet to analyze changes in physiology and gene expression related to leaf senescence, revealing distinct differences between a delayed senescence variety and an accelerated one.* -
  • Gene expression analysis identified key genes associated with various metabolic processes in both varieties, and further examination suggested three specific genes that may negatively regulate dark-induced leaf senescence, paving the way for future research in this area.*

Article Abstract

Leaf senescence, a pivotal process in plants, directly influences both crop yield and nutritional quality. Foxtail millet () is a C model crop renowned for its exceptional nutritional value and stress tolerance characteristics. However, there is a lack of research on the identification of senescence-associated genes (s) and the underlying molecular regulatory mechanisms governing this process. In this study, a dark-induced senescence (DIS) experimental system was applied to investigate the extensive physiological and transcriptomic changes in two foxtail millet varieties with different degrees of leaf senescence. The physiological and biochemical indices revealed that the light senescence (LS) variety exhibited a delayed senescence phenotype, whereas the severe senescence (SS) variety exhibited an accelerated senescence phenotype. The most evident differences in gene expression profiles between these two varieties during DIS included photosynthesis, chlorophyll, and lipid metabolism. Comparative transcriptome analysis further revealed a significant up-regulation of genes related to polysaccharide and calcium ion binding, nitrogen utilization, defense response, and malate metabolism in LS. In contrast, the expression of genes associated with redox homeostasis, carbohydrate metabolism, lipid homeostasis, and hormone signaling was significantly altered in SS. Through WGCNA and RT-qPCR analyses, we identified three s that exhibit potential negative regulation towards dark-induced leaf senescence in foxtail millet. This study establishes the foundation for a further comprehensive examination of the regulatory network governing leaf senescence and provides potential genetic resources for manipulating senescence in foxtail millet.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11011800PMC
http://dx.doi.org/10.3390/ijms25073905DOI Listing

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