Department of Biochemistry and Molecular Biophysics, Kansas State University, Manhattan, Kansas, 65506, USA.
Plant J. 2024 Jul;119(2):916-926. doi: 10.1111/tpj.16805. Epub 2024 May 19.
Diacylglycerol acyltransferase1 (DGAT1) is the major enzyme that synthesizes triacylglycerols (TAG) during Arabidopsis seed development. Mutant dgat1 seeds possess low oil content in addition to a high polyunsaturated fatty acid (PUFA) composition. Two genes encoding endoplasmic reticulum localized desaturase enzymes, fatty acid desaturase2 (FAD2) and fatty acid desaturase3 (FAD3), were upregulated in both dgat1-1 and dgat1-2 developing seeds. Crosses between both dgat1 mutant alleles and fad2-1 failed to generate plants homozygous for both dgat1 and fad2. Reciprocal crosses with wild-type plants demonstrated that both male and female dgat1 fad2 gametophytes were viable. Siliques from DGAT1/dgat1-1 fad2-1/fad2-1 and dgat1-1/dgat1-1 FAD2/fad2-1 possessed abnormal looking seeds that were arrested in the torpedo growth stage. Approximately 25% of the seeds exhibited this arrested phenotype, genetically consistent with them possessing the double homozygous dgat1 fad2 genotype. In contrast, double homozygous dgat1-1 fad3-2 mutant plants were viable. Seeds from these plants possessed higher levels of 18:2 while their fatty acid content was lower than dgat1 mutant controls. The results are consistent with a model where in the absence of DGAT1 activity, desaturation of fatty acids by FAD2 becomes essential to provide PUFA substrates for phospholipid:diacylglycerol acyltransferase (PDAT) to synthesize TAG. In a dgat1 fad2 mutant, seed development is aborted because TAG is unable to be synthesized by either DGAT1 or PDAT.
二酰甘油酰基转移酶 1(DGAT1)是植物种子发育过程中合成三酰基甘油(TAG)的主要酶。突变体 dgat1 种子除了具有高多不饱和脂肪酸(PUFA)组成外,还具有低油含量。两种编码内质网定位去饱和酶的基因,脂肪酸去饱和酶 2(FAD2)和脂肪酸去饱和酶 3(FAD3),在 dgat1-1 和 dgat1-2 发育种子中均上调。dgat1 突变等位基因与 fad2-1 的杂交未能产生同时纯合 dgat1 和 fad2 的植物。与野生型植物的正反交表明,雄性和雌性 dgat1 fad2 配子体都是有活力的。来自 DGAT1/dgat1-1 fad2-1/fad2-1 和 dgat1-1/dgat1-1 FAD2/fad2-1 的雌蕊果荚具有看起来异常的种子,这些种子处于鱼雷生长阶段停滞。大约 25%的种子表现出这种停滞表型,遗传上与它们具有双重纯合 dgat1 fad2 基因型一致。相比之下,双重纯合 dgat1-1 fad3-2 突变体植物是有活力的。这些植物的种子具有更高水平的 18:2,而它们的脂肪酸含量低于 dgat1 突变体对照。结果与这样一种模型一致,即在缺乏 DGAT1 活性的情况下,FAD2 对脂肪酸的去饱和作用对于提供用于磷脂:二酰基甘油酰基转移酶(PDAT)合成 TAG 的 PUFA 底物变得至关重要。在 dgat1 fad2 突变体中,种子发育被中止,因为 TAG 既不能由 DGAT1 也不能由 PDAT 合成。
