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Physiological and Transcriptomic Responses of Bok Choy to Heat Stress.

Cuina DongXixuan PengXiaona YangChenggang WangLingyun YuanGuohu ChenXiaoyan TangWenjie WangJianqiang WuShidong ZhuXingxue HuangJinlong ZhangJinfeng Hou
Published in: Plants (Basel, Switzerland) (2024)
High temperatures have adverse effects on the yield and quality of vegetables. Bok choy, a popular vegetable, shows varying resistance to heat. However, the mechanism underlying the thermotolerance of bok choy remains unclear. In this study, 26 bok choy varieties were identified in screening as being heat-resistant at the seedling stage; at 43 °C, it was possible to observe obvious heat damage in different bok choy varieties. The physiological and biochemical reactions of a heat-tolerant cultivar, Jinmei (J7), and a heat-sensitive cultivar, Sanyueman (S16), were analyzed in terms of the growth index, peroxide, and photosynthetic parameters. The results show that Jinmei has lower relative conductivity, lower peroxide content, and higher total antioxidant capacity after heat stress. We performed transcriptome analysis of the two bok choy varieties under heat stress and normal temperatures. Under heat stress, some key genes involved in sulfur metabolism, glutathione metabolism, and the ribosome pathway were found to be significantly upregulated in the heat-tolerant cultivar. The key genes of each pathway were screened according to their fold-change values. In terms of sulfur metabolism, genes related to protease activity were significantly upregulated. Glutathione synthetase ( GSH2 ) in the glutathione metabolism pathway and the L3e , L23 , and S19 genes in the ribosomal pathway were significantly upregulated in heat-stressed cultivars. These results suggest that the total antioxidant capacity and heat injury repair capacity are higher in Jinmei than in the heat-sensitive variety, which might be related to the specific upregulation of genes in certain metabolic pathways after heat stress.
Keyphrases
  • heat stress
  • heat shock
  • genome wide
  • gene expression
  • oxidative stress
  • single cell
  • rna seq
  • emergency department
  • dna methylation
  • signaling pathway
  • bioinformatics analysis
  • climate change
  • human health
  • quality control