Molecular evidence for blocking erucic acid synthesis in rapeseed (Brassica napus L.) by a two-base-pair deletion in FAE1 (fatty acid elongase 1)

文献类型: 外文期刊

第一作者: Wu Lei

作者: Wu Lei;Jia Yan-li;Wu Gang;Lu Chang-ming

作者机构: Chinese Acad Agr Sci, Oil Crops Res Inst, Key Lab Biol & Genet Improvement Oil Crops, Minist Agr, Wuhan 430062, Peoples R China

关键词: erucic acid;fatty acid elongase 1;natural mutation;Brassica napus L.

期刊名称:JOURNAL OF INTEGRATIVE AGRICULTURE ( 2020影响因子:2.848; 五年影响因子:2.979 )

ISSN: 2095-3119

年卷期: 2015 年 14 卷 7 期

页码:

收录情况: SCI

摘要: DNA sequences of fatty acid elongase 1 genes FAE1.1 (E-A) and FAE1.2 (E-C) were isolated and characterized for 30 commercialized low erucic acid rapeseed (LEAR) cultivars in China. Four types of independent mutation leading to low erucic acid trait were found, i.e., a single-base transition (e(A1)), a two-base deletion (e(C2)) and four-base deletion (e(C4)) as well as single-base transition with a four-base deletion (e(A*)). Three genotypes, i.e., e(A1)e(A1)e(C2)e(C2), e(A1)e(A1)e(C4)e(C4) and e(A*)e(A*)e(C4)e(C4) were responsible for LEA content in storage lipids of different rapeseed cultivars. Most of the LEAR cultivars had a genotype of e(A1)e(A1)e(C2)e(C2), which were descended from the first LEAR cultivar, Oro. Yeast expression analysis revealed that two-base-pair (AA) deletion (e(C2)) at the base sites of 1 422-1 423 in the C genome FAE1 gene resulted in the absence of the condensing enzyme and led to the failure to produce erucic acid. Coexpression of FAE1 and ketoacyl-CoA reductase (KCR) or enoyl-CoA reductase (ECR) was found in high erucic acid rapeseed (HEAR) but not in LEAR (e(A1)e(A1)e(C2)e(C2) or e(A1)e(A1)e(C4)e(C4)). Moreover, KCR and ECR were still coordinately regulated in e(A1)e(A1)e(C2)e(C2) or e(A1)e(A1)e(C4)e(C4) genotypes, suggesting that the expression of two genes was tightly linked. In addition, specific detection methods were developed by high-resolution melting curve analysis in order to detect e(A1) and e(C4).

分类号:

  • 相关文献

[1]Depressed expression of FAE1 and FAD2 genes modifies fatty acid profiles and storage compounds accumulation in Brassica napus seeds. Shi, Jianghua,Lang, Chunxiu,Wang, Fulin,Wu, Xuelong,Liu, Renhu,Zheng, Tao,Chen, Jinqing,Wu, Guanting,Zhang, Dongqing.

[2]Identification and pharmacological analyses of eight naturally occurring caprine melanocortin-1 receptor mutations in three different goat breeds. Xiong, Qi,Chen, Mingxin,Xiong, Qi,Chai, Jin,Tao, Ya-Xiong,Chai, Jin,Chai, Jin.

[3]Genetic and gene expression analysis of dm1, a dwarf mutant from Cucurbita maxima Duch. ex Lam, based on the AFLP method. Wang, Rui,Huang, Hexun,Lin, Yu'e,Liang, Zhaojun,Wu, Tingquan,Wang, Rui,Wu, Tingquan,Chen, Qinghua. 2014

[4]Cloning of fatty acid elongase 1 gene and molecular identification of A and C genome in Brassica species. Wu Yuhua,Xiao Ling,Wu Gang,Lu ChangMing. 2007

[5]RNAi knockdown of fatty acid elongase1 alters fatty acid composition in Brassica napus. Shi, Jianghua,Lang, Chunxiu,Wu, Xuelong,Liu, Renhu,Zheng, Tao,Chen, Jinqing,Wu, Guanting,Zhang, Dongqing.

[6]Discrimination of rapeseeds (Brassica napus L.) based on the content of erucic acid by H-1 NMR. Han, Jiao,Li, Yinping,Lu, Changming,Deng, Zhiwei,Geng, Zhufeng,Fu, Boqiang.

[7]Influence of Extraction Processing on Rheological Properties of Rapeseed Oils. Liu, Changsheng,Yang, Mei,Huang, Fenghong. 2012

[8]Characterization of FAE1 in the zero erucic acid germplasm of Brassica rapa L.. Yan, Guixin,Li, Dan,Cai, Mengxian,Gao, Guizhen,Chen, Biyun,Xu, Kun,Li, Jun,Li, Feng,Wang, Nian,Qiao, Jiangwei,Li, Hao,Zhang, Tianyao,Wu, Xiaoming.

[9]Evaluation of yield and agronomic traits and their genetic variation in 488 global collections of Brassica napus L.. Chen, Biyun,Xu, Kun,Li, Jun,Li, Feng,Qiao, Jiangwei,Li, Hao,Gao, Guizhen,Yan, Guixin,Wu, Xiaoming.

[10]Comparative analysis of MYB28 homologs and development of a MYB28-specific marker in Brassica napus L.. Long, Yan,Zhang, Jinwen,Wang, Jiao,Pei, Xinwu,Long, Yan,Wang, Jing,Wang, Yanyan.

[11]Identification of QTLs for seed quality traits in rapeseed (Brassica napus L.) using recombinant inbred lines (RILs). Huang, Xian-Qun,Huang, Tuan,Li, Li,Lu, Yun-Hai,Hou, Guo-Zuo,Hou, Yan.

[12]Comparison on the carbohydrate metabolic enzyme activities and their gene expression patterns in canola differing seed oil content. Li, Zhilan,Hua, Shuijin,Zhang, Dongqing,Yu, Huasheng,Zhang, Yaofeng,Lin, Baogang,Jiang, Lixi.

[13]QTL analysis and the development of closely linked markers for days to flowering in spring oilseed rape (Brassica napus L.). Liu, Haidong,Du, Dezhi,Guo, Shaomin,Xiao, Lu,Zhao, Zhigang,Zhao, Zhi,Xing, Xiaorong,Tang, Guoyong,Xu, Liang,Fu, Zhong,Yao, Yanmei,Duncan, Robert W..

[14]Identification of QTLs involved in pod-shatter resistance in Brassica napus L.. Wen, Y. C.,Zhang, S. F.,Wang, J. P.,Zhu, J. C.,He, J. P.,Cao, J. H.,Yi, B.,Wen, J..

[15]QTL identification on two genetic systems for rapeseed glucosinolate and erucic acid contents over two seasons. Xu, J. F.,Xu, H. M.,Wen, J.,Shi, C. H.,Long, Y.,Meng, J. L.,Wu, J. G.,Zhao, Z. G..

[16]Plant development from microspore-derived embryos in oilseed rape as affected by chilling, desiccation and cotyledon excision. Zhang, GQ,Zhang, DQ,Tang, GX,He, Y,Zhou, WJ. 2006

[17]Genome-Wide Association Mapping Reveals the Genetic Control Underlying Branch Angle in Rapeseed (Brassica napus L.). Li, Hongge,Zhang, Liping,Hu, Jihong,Zhang, Fugui,Chen, Biyun,Xu, Kun,Gao, Guizhen,Li, Hao,Zhang, Tianyao,Wu, Xiaoming,Li, Hongge,Li, Zaiyun. 2017

[18]Genetic analysis on oil content in rapeseed (Brassica napus L.). Wang, Xinfa,Liu, Guihua,Yang, Qing,Hua, Wei,Liu, Jing,Wang, Hanzhong. 2010

[19]Consistency of Different Indices in Rapeseed (Brassica napus) may Predict the Waterlogging Tolerance. Chai, Liang,Zhang, Jin-Fang,Pu, Xiao-Bin,Jiang, Jun,Cui, Cheng,Zhang, Xue-Hua,Zheng, Ben-Chuan,Jiang, Liang-Cai. 2016

[20]Genome-Wide SNP Markers Based on SLAF-Seq Uncover Breeding Traces in Rapeseed (Brassica napus L.). Zhou, Qinghong,Zhou, Can,Fan, Shuying,Wu, Caijun,Fu, Donghui,Huang, Yingjin,Zheng, Wei,Mason, Annaliese S.. 2017

作者其他论文 更多>>

微信小程序