Mechanism Analysis of Increased Erucic Acid Content in Brassica napus L. Seeds Resulting Low Nighttime Temperature
文献类型: 外文期刊
第一作者: Mi, Chao
作者: Mi, Chao;Wang, Jinxiong;Zhao, Yanning;Mi, Chao;Lin, Liangbin
作者机构:
关键词: Brassica napus L.; LOC106368911 promoter; Erucic acid; Low nighttime temperature; cis-acting element involved in low-temperature; responsiveness (LTR)
期刊名称:GENE ( 影响因子:2.4; 五年影响因子:2.8 )
ISSN: 0378-1119
年卷期: 2025 年 936 卷
页码:
收录情况: SCI
摘要: Brassica napus L. (B. napus L.), a crop of Brassica in the family Cruciferae, is a major sources of edible vegetable oil and one of the four most widely grown. Oil accumulation is determined by genetic and environmental factors, including temperature, light, humidity, edatope, latitude, and altitude. Temperature also plays a crucial part in the maturation stage. A highly temperature-sensitive line (STSL, DH0729DH0815) and weakly temperaturesensitive line (WTSL, DH0729) were used to express LOC106368911 and its effect on the erucic acid content of seeds under low nighttime temperatures. Condition of 20/18 degrees C (+0.5 degrees C, daytime/nighttime temperature, CK) and 20/13 degrees C (low nighttime temperature, LNT) were used in tests. Under LNT, the erucic acid content in STSL seeds increased significantly, whereas the WTSL change was not significant. The relative expression of LOC106368911 was significantly increased in STSL at 27, 35 and 43 days after flowering (DAF), whereas the change in WTSL was not significant. The CDS sequence of the LOC106368911 was cloned. Compared to the protein sequence encoded by the reference gene, STSL changed the 96th amino acid sequence from I (leucine) to L (isoleucine). However, there was no difference in the secondary and tertiary structures. Based on this, we cloned the LOC106368911 promoter sequence and found that the mutation of C to T at position -790 in WTSL caused the loss of LTR (cis-acting element involved in low-temperature responsiveness, -791 to -786) element function in response to low temperature and increased erucic acid content. The LOC106368911 promoter had 2 LTR elements in STSL (-791 to -786 and -588 to -583). A GUS reporter vector was constructed to study the transient expression in tobacco leaf transformations. GUS gene expression at 13 degrees C after 2 h was significantly higher than that at 18 degrees C. Base and number differences in the LTR element were found in the LOC106368911 promoter sequence of STSL and WTSL. Base mutations occurred in the LTR element in WTSL, which resulted in decrease or loss of erucic acid content in response to low nighttime temperatures.
分类号:
- 相关文献
作者其他论文 更多>>
-
Genetic Analyses, BSA-Seq, and Transcriptome Analyses Reveal Candidate Genes Controlling Leaf Plastochron in Rapeseed (Brassica napus L.)
作者:Qin, Mengfan;Liu, Xiang;Song, Jia;Zhao, Feixue;Shi, Yiji;Xu, Yu;Guo, Zhiting;Zhang, Tianye;Wu, Jiapeng;Li, Keqi;Huang, Zhen;Xu, Aixia;Qin, Mengfan;Li, Wu;Wang, Jinxiong;Li, Shimeng
关键词:Brassica napus L.; leaf plastochron; genetic analysis; BSA-seq; gene expression; candidate gene
-
BnaEFR1 and BnaEFR2 genes play key roles in elf18-triggered immunity in Brassica napus L.
作者:Cui, Junmei;Qin, Jiangyuan;Wei, Jiaping;Zhu, Shujun;Sa, Ermei;Wei, Hongyan;Zheng, Guoqiang;Fang, Yan;Wu, Zefeng;Yao, Panfeng;Liu, Zigang;Wang, Jinxiong
关键词:Elf18; Efr; Immune responses; Phosphorylation; B. napus
-
Effect of Low Nighttime Temperature on Oil Accumulation of Rapeseed Seeds (Brassica napus L.) Based on RNA-Seq of Silique Wall Tissue
作者:Mi, Chao;Wang, Jinxiong;Mi, Chao;Lin, Liangbin;Zhao, Yanning;Yang, Xuetao
关键词:
Brassica napus L.; low nighttime temperature; substrate; sugar transport; transcription factors; silique wall; oil biosynthesis -
Integrative Analysis of the Methylome, Transcriptome, and Proteome Reveals a New Mechanism of Rapeseed Under Freezing Stress
作者:Zheng, Guoqiang;Liu, Zigang;Wei, Jiaping;Dong, Xiaoyun;Li, Hui;Wang, Ying;Tian, Haiyang;Wu, Zefeng;Cui, Junmei;Zheng, Guoqiang;Liu, Zigang;Dong, Xiaoyun;Li, Hui;Wang, Ying;Tian, Haiyang;Wang, Jinxiong
关键词:winter rapeseed; freezing stress; DNA methylation; transcriptome; proteome
-
Effect of membrane rigidification on the BrAFP1 expression and cold-tolerance in Brassica rapa
作者:Dong, Xiaoyun;Wei, Jiaping;Zheng, Guoqiang;Wu, Zefeng;Cui, Junmei;Li, Baojin;Zhu, Shujun;Sa, Ermei;Liu, Zigang;Wang, Jinxiong;Yang, Xuezhen;Yang, Fengpeng
关键词:membrane fluidity; cold tolerance; dimethyl sulfoxide; benzyl alcohol; proBrAFP1 activity
-
Low temperature regulation and characterization of an antifreeze protein gene from winter turnip rape (Brassica rapa L.)
作者:Dong, Xiaoyun;Wei, Jiaping;Cui, Junmei;Zheng, Guoqiang;Fang, Yan;Wu, Zefeng;Sa, Ermei;Zhu, Shujun;Li, Baojing;Wei, Hongyan;Liu, Zigang;Wang, Jinxiong
关键词:BrAFP2; Promoter activity; Interaction protein; Brassica rapa; Cold-tolerance
-
Mechanisms of low nighttime temperature promote oil accumulation in Brassica napus L. based on in-depth transcriptome analysis
作者:Mi, Chao;Mi, Chao;Lin, Liangbin;Zhang, Yusong;Zhao, Yanning
关键词:BnLPP; BnMYB86; Brassica napus L.; low nighttime temperature; oil accumulation; transcriptome
