Leibniz Institute of Plant Genetics and Crop Plant Research OT Gatersleben, D-06466 Seeland, Germany.
Biology Department, Brookhaven National Laboratory, Upton, New York 11973.
Plant Cell. 2020 Jul;32(7):2383-2401. doi: 10.1105/tpc.19.00879. Epub 2020 Apr 30.
The tradeoff between protein and oil storage in oilseed crops has been tested here in oilseed rape () by analyzing the effect of suppressing key genes encoding protein storage products (napin and cruciferin). The phenotypic outcomes were assessed using NMR and mass spectrometry imaging, microscopy, transcriptomics, proteomics, metabolomics, lipidomics, immunological assays, and flux balance analysis. Surprisingly, the profile of storage products was only moderately changed in RNA interference transgenics. However, embryonic cells had undergone remarkable architectural rearrangements. The suppression of storage proteins led to the elaboration of membrane stacks enriched with oleosin (sixfold higher protein abundance) and novel endoplasmic reticulum morphology. Protein rebalancing and amino acid metabolism were focal points of the metabolic adjustments to maintain embryonic carbon/nitrogen homeostasis. Flux balance analysis indicated a rather minor additional demand for cofactors (ATP and NADPH). Thus, cellular plasticity in seeds protects against perturbations to its storage capabilities and, hence, contributes materially to homeostasis. This study provides mechanistic insights into the intriguing link between lipid and protein storage, which have implications for biotechnological strategies directed at improving oilseed crops.
通过分析抑制编码蛋白质储存产物(napin 和 cruciferin)的关键基因对油菜籽中蛋白质和油脂储存之间的权衡进行了研究。利用 NMR 和质谱成像、显微镜、转录组学、蛋白质组学、代谢组学、脂质组学、免疫测定和通量平衡分析来评估表型结果。令人惊讶的是,RNAi 转基因中的储存产物的特征仅发生了适度改变。然而,胚细胞经历了显著的结构重排。储存蛋白的抑制导致富含油蛋白(蛋白丰度增加六倍)的膜堆叠和新型内质网形态的形成。蛋白质再平衡和氨基酸代谢是维持胚胎碳/氮平衡的代谢调整的焦点。通量平衡分析表明对辅助因子(ATP 和 NADPH)的额外需求相当小。因此,种子的细胞可塑性可以防止对其储存能力的干扰,从而对维持体内平衡做出重要贡献。本研究为脂质和蛋白质储存之间的有趣联系提供了机制上的见解,这对旨在改善油料作物的生物技术策略具有重要意义。
