Evolutionary Landscape of Tea Circular RNAs and Its Contribution to Chilling Tolerance of Tea Plant
文献类型: 外文期刊
作者: Huang, Jin 1 ; Wang, Yanli 1 ; Yu, Jie 2 ; Li, Fangdong 1 ; Yi, Lianghui 1 ; Li, Yunze 1 ; Xie, Na 1 ; Wu, Qiong 1 ; Samarina, Lidiia 4 ; Tong, Wei 1 ; Xia, Enhua 1 ;
作者机构: 1.Anhui Agr Univ, State Key Lab Tea Plant Biol & Utilizat, Hefei 230036, Peoples R China
2.Anhui Acad Agr Sci, Inst Sericultural Res, Hefei 230031, Peoples R China
3.Anhui Acad Agr Sci, Tea Res Inst, Hefei 230031, Peoples R China
4.Russian Acad Sci, Fed Res Ctr Subtrop Sci Ctr, Soci 354002, Russia
关键词: Camellia sinensis; circular RNA; evolutionary landscape; cold stress; noncoding RNAs
期刊名称:INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES ( 影响因子:5.6; 五年影响因子:6.2 )
ISSN:
年卷期: 2023 年 24 卷 2 期
页码:
收录情况: SCI
摘要: Chilling stress threatens the yield and distribution pattern of global crops, including the tea plant (Camellia sinensis), one of the most important cash crops around the world. Circular RNA (circRNA) plays roles in regulating plant growth and biotic/abiotic stress responses. Understanding the evolutionary characteristics of circRNA and its feedbacks to chilling stress in the tea plant will help to elucidate the vital roles of circRNAs. In the current report, we systematically identified 2702 high-confidence circRNAs under chilling stress in the tea plant, and interestingly found that the generation of tea plant circRNAs was associated with the length of their flanking introns. Repetitive sequences annotation and DNA methylation analysis revealed that the longer flanking introns of circRNAs present more repetitive sequences and higher methylation levels, which suggested that repeat-elements-mediated DNA methylation might promote the circRNAs biogenesis in the tea plant. We further detected 250 differentially expressed circRNAs under chilling stress, which were functionally enriched in GO terms related to cold/stress responses. Constructing a circRNA-miRNA-mRNA interaction network discovered 139 differentially expressed circRNAs harboring potential miRNA binding sites, which further identified 14 circRNAs that might contribute to tea plant chilling responses. We further characterized a key circRNA, CSS-circFAB1, which was significantly induced under chilling stress. FISH and silencing experiments revealed that CSS-circFAB1 was potentially involved in chilling tolerance of the tea plant. Our study emphasizes the importance of circRNA and its preliminary role against low-temperature stress, providing new insights for tea plant cold tolerance breeding.
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