文献类型: 外文期刊
作者: Wang, Ying 1 ; Wan, Cheng 1 ; Li, Leijia 1 ; Xiang, Zhun 1 ; Wang, Jihong 1 ; Li, Yan 2 ; Zhao, Degang 3 ;
作者机构: 1.Guizhou Acad Sci, Guizhou Prov Inst Biol, Guiyang 550009, Peoples R China
2.Guizhou Univ, Key Lab Plant Resources Conservat & Germplasm Inno, Minist Educ, Guiyang 550025, Peoples R China
3.Guizhou Acad Agr Sci, Applicat Ctr Plant Conservat Technol, Guiyang 550006, Peoples R China
关键词: transcriptome; cold stress; metabolic pathways; Camellia sinensis (L; ) Kuntze var; niaowangensis Q; H; Chen
期刊名称:CURRENT ISSUES IN MOLECULAR BIOLOGY ( 影响因子:3.1; 五年影响因子:3.3 )
ISSN: 1467-3037
年卷期: 2023 年 45 卷 1 期
页码:
收录情况: SCI
摘要: Background: Cold stress usually occurs in winter and is one of the most significant environmental factors restricting the growth of the tea plant as well as its geographical distribution. Objective: It is necessary to identify the physiological and molecular mechanisms of plants under cold stress so that cold-tolerant crop varieties can be cultivated to limit production losses. At the same time, this would allow the crop planting area to be expanded, hence improving the economic benefits. Methods: In this study, the transcriptome data of Yunwu Tribute Tea under cold conditions were obtained using the Illumina HiSeq platform. By analyzing changes in transcriptome data associated with the antioxidant enzyme system, plant hormone signal transduction, proline and tyrosine metabolism pathways, and transcription factors, the molecular mechanisms involved in Yunwu Tribute Tea under cold stress were investigated. Results: In this study, Illumina HiSeq technology was applied to investigate the cold-tolerance mechanism. For this purpose, cDNA libraries were obtained from two groups of samples, namely the cold-treated group (DW) and the control group (CK). A total of 185,973 unigenes were produced from 511,987 assembled transcripts; among these, 16,020 differentially expressed genes (DEGs) (corrected p-value < 0.01, |log2(fold change)| >3), including 9606 up-regulated and 6414 down-regulated genes, were obtained. Moreover, the antioxidant enzyme system, plant hormone signal transduction, proline and tyrosine metabolism pathways, and transcription factors were analyzed; based on these results, a series of candidate genes related to cold stress were screened out and discussed. The physiological indexes related to the low-temperature response were tested, along with five DEGs which were validated by quantitative real-time PCR. Conclusions: Differential gene expression analysis has confirmed that substantial cold-responsive genes are related to the antioxidant enzyme system, plant hormone signal transduction, proline metabolism pathway, tyrosine metabolism pathway, and transcription factors.
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