Insights into the Novel FAD2 Gene Regulating Oleic Acid Accumulation in Peanut Seeds with Different Maturity
文献类型: 外文期刊
第一作者: Zhao, Shuzhen
作者: Zhao, Shuzhen;Sun, Jie;Sun, Jinbo;Zhang, Xiaoqian;Zhao, Chuanzhi;Pan, Jiaowen;Hou, Lei;Tian, Ruizheng;Wang, Xingjun;Zhao, Shuzhen;Sun, Jie;Zhang, Xiaoqian;Hou, Lei;Wang, Xingjun
作者机构:
关键词: peanut; FAD2; seed maturity; oleic acid
期刊名称:GENES ( 影响因子:4.141; 五年影响因子:4.474 )
ISSN:
年卷期: 2022 年 13 卷 11 期
页码:
收录情况: SCI
摘要: AhFAD2 is a key enzyme catalyzing the conversion of oleic acid into linoleic acid. The high oleic acid characteristic of peanut mainly comes from the homozygous recessive mutation of AhFAD2A and AhFAD2B genes (aabb). However, even in high-oleic-acid varieties with the aabb genotype, the oleic acid content of seeds with different maturity varies significantly. Therefore, in addition to AhFAD2A and AhFAD2B, other FAD2 members or regulators may be involved in this process. Which FAD2 genes are involved in the regulatory processes associated with seed maturity is still unclear. In this study, four stable lines with different genotypes (AABB, aaBB, AAbb, and aabb) were used to analyze the contents of oleic acid and linoleic acid at different stages of seed development in peanut. Three new AhFAD2 genes (AhFAD2-7, AhFAD2-8, and AhFAD2-9) were cloned based on the whole-genome sequencing results of cultivated peanuts. All peanut FAD2 genes showed tissue preference in expression; however, only the expression level of AhFAD2-7 was positively correlated with the linoleic acid concentration in peanut seeds. These findings provide new insights into the regulation of oleic acid accumulation by maturity, and AhFAD2-7 plays an important role in the maturity dependent accumulation of oleic acid and linoleic acid in peanut.
分类号:
- 相关文献
作者其他论文 更多>>
-
Analysis of the Brucella melitensis epidemic in Xinjiang: genotyping, polymorphism, antibiotic resistance and tracing
作者:Yang, Xiaowen;Liang, Lin;Jiang, Hui;Ding, Jiabo;Liu, Yan;Li, Na;Peng, Xiaowei;Zhang, Yinghui;Zhang, Xiaoqian;Bian, Zengjie
关键词:Brucella; MLVA; Polymorphism; Minimal inhibitory concentration; SNP
-
Effect of mixed meal replacement of soybean meal on growth performance, nutrient apparent digestibility, and gut microbiota of finishing pigs
作者:He, Zhentao;Liu, Shuai;Wen, Xiaolu;Cao, Shuting;Zhan, Xianliang;Hou, Lei;Li, Yaojie;Chen, Shaozhen;Zheng, Huayu;Deng, Dongyan;Gao, Kaiguo;Yang, Xuefen;Jiang, Zongyong;Wang, Li
关键词:rapeseed meal; cotton meal; sunflower meal; finishing pigs; short-chain fatty acid
-
Volatile organic compounds released from entomopathogenic nematode-infected insect cadavers for the biocontrol of Meloidogyne incognita
作者:Li, Jingjing;Wei, Xianqin;Pei, Zixuan;Sun, Jie;Xi, Jiale;Ruan, Weibin;Li, Jingjing;Li, Xingyue;Shapiro-IIan, David
关键词:root-knot nematodes; biological control; pest management; insect-parasitic nematode
-
Genome-Wide Identification of Peanut B-Boxs and Functional Characterization of AhBBX6 in Salt and Drought Stresses
作者:Tang, Haohong;Shi, Haonan;Liu, Feng;Sun, Jie;Yuan, Cuiling;Shan, Shihua;Sun, Quanxi;Wang, Zhijun
关键词:peanut; BBX gene family; abiotic stress; VIGS
-
The uS10c-BPG2 module mediates ribosomal RNA processing in chloroplast nucleoids
作者:Sun, Xueping;Wang, Jingwen;Zhao, Chuanzhi;Wang, Xingjun;Li, Pengcheng;Sun, Xueping;Wang, Jingwen;Zhao, Chuanzhi;Wang, Xingjun;Li, Pengcheng;Sun, Xueping;Wang, Jingwen;Singla-Rastogi, Meenu;Li, Pengcheng
关键词:
-
Seneca valley virus 3C protease blocks EphA2-Mediated mTOR activation to facilitate viral replication
作者:Shi, Yongyan;Wu, Zhi;Zeng, Penghui;Guo, Jinshuo;Yang, Xiaoyu;Zhou, Jianwei;Liu, Jue;Hou, Lei;Shi, Yongyan;Wu, Zhi;Zeng, Penghui;Guo, Jinshuo;Yang, Xiaoyu;Zhou, Jianwei;Liu, Jue;Hou, Lei;Song, Jiangwei;Hou, Lei
关键词:Seneca valley virus (SVV); Eph receptor A2 (EphA2); 3C protease(3C(pro)); Proteolysis; mTOR pathway
-
Efficacy and mechanisms of Pseudomonas aeruginosa PAO1 biofilm inactivation using high-power pulsed microwave
作者:Wang, Fan;Zhang, Yaxin;Bassey, Anthony Pius;Zhu, Yongsheng;Cui, Xiaozhen;Zhang, Xiaoqian;Liu, Xiaoli;Zhang, Yaxin;Liu, Xiaoli;Singh, Maleeka;Corradini, Maria G.;Singh, Maleeka;Corradini, Maria G.
关键词:High-power pulse microwave (HPPM); Pseudomonas aeruginosa; Biofilm inactivation; Mechanism; Microscopy
