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拟南芥中由甲磺酸乙酯诱导的突变影响二酰甘油酰基转移酶活性导致种子脂肪酸组成的改变。

Alteration of seed fatty acid composition by an ethyl methanesulfonate-induced mutation in Arabidopsis thaliana affecting diacylglycerol acyltransferase activity.

作者信息

Katavic V, Reed D W, Taylor D C, Giblin E M, Barton D L, Zou J, Mackenzie S L, Covello P S, Kunst L

机构信息

National Research Council of Canada, Plant Biotechnology Institute, Saskatoon, Saskatchewan.

出版信息

Plant Physiol. 1995 May;108(1):399-409. doi: 10.1104/pp.108.1.399.

DOI:10.1104/pp.108.1.399
PMID:7784510
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC157347/
Abstract

In characterizing the enzymes involved in the formation of very long-chain fatty acids (VLCFAs) in the Brassicaceae, we have generated a series of mutants of Arabidopsis thaliana that have reduced VLCFA content. Here we report the characterization of a seed lipid mutant, AS11, which, in comparison to wild type (WT), has reduced levels of 20:1 and 18:1 and accumulates 18:3 as the major fatty acid in triacylglycerols. Proportions of 18:2 remain similar to WT. Genetic analyses indicate that the fatty acid phenotype is caused by a semidominant mutation in a single nuclear gene, designated TAG1, located on chromosome 2. Biochemical analyses have shown that the AS11 phenotype is not due to a deficiency in the capacity to elongate 18:1 or to an increase in the relative delta 15 or delta 12 desaturase activities. Indeed, the ratio of desaturase/elongase activities measured in vitro is virtually identical in developing WT and AS11 seed homogenates. Rather, the fatty acid phenotype of AS11 is the result of reduced diacylglycerol acyltransferase activity throughout development, such that triacylglycerol biosynthesis is reduced. This leads to a reduction in 20:1 biosynthesis during seed development, leaving more 18:1 available for desaturation. Thus, we have demonstrated that changes to triacylglycerol biosynthesis can result in dramatic changes in fatty acid composition and, in particular, in the accumulation of VLCFAs in seed storage lipids.

摘要

在对十字花科植物中参与超长链脂肪酸(VLCFA)形成的酶进行表征时,我们构建了一系列拟南芥突变体,这些突变体的VLCFA含量降低。在此,我们报告了一个种子脂质突变体AS11的表征,与野生型(WT)相比,该突变体中20:1和18:1的水平降低,并且在三酰甘油中积累18:3作为主要脂肪酸。18:2的比例与WT保持相似。遗传分析表明,脂肪酸表型是由位于2号染色体上的一个单细胞核基因中的半显性突变引起的,该基因命名为TAG1。生化分析表明,AS11的表型不是由于18:1延长能力的缺陷,也不是由于δ15或δ12去饱和酶相对活性的增加。实际上,在发育中的WT和AS11种子匀浆中,体外测得的去饱和酶/延长酶活性比率几乎相同。相反,AS11的脂肪酸表型是整个发育过程中二酰甘油酰基转移酶活性降低的结果,从而导致三酰甘油生物合成减少。这导致种子发育过程中20:1生物合成减少,使更多的18:1可用于去饱和。因此,我们证明了三酰甘油生物合成的变化可导致脂肪酸组成发生显著变化,特别是种子储存脂质中VLCFA的积累。

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