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在生物燃料绿藻集胞藻 UTEX29 氮饥饿时,膜脂酰基向三酰甘油的转化和脂滴的形成。

Conversion of membrane lipid acyl groups to triacylglycerol and formation of lipid bodies upon nitrogen starvation in biofuel green algae Chlorella UTEX29.

机构信息

Plant Molecular and Cellular Biology Program, Horticultural Sciences Department, University of Florida, Gainesville, FL, 32611-0690, USA.

出版信息

Planta. 2013 Nov;238(5):895-906. doi: 10.1007/s00425-013-1946-5. Epub 2013 Aug 9.

DOI:10.1007/s00425-013-1946-5
PMID:23928654
Abstract

Algal lipids are ideal biofuel sources. Our objective was to determine the contributors to triacylglycerol (TAG) accumulation and lipid body formation in Chlorella UTEX29 under nitrogen (N) deprivation. A fivefold increase in intracellular lipids following N starvation for 24 h confirmed the oleaginous characteristics of UTEX29. Ultrastructural studies revealed increased number of lipid bodies and decreased starch granules in N-starved cells compared to N-replete cells. Lipid bodies were observed as early as 3 h after N removal and plastids collapsed after 48 h of stress. Moreover, the identification of intracellular pyrenoids and differences in the expected nutritional requirements for Chlorella protothecoides (as UTEX29 is currently classified) led us to conduct a phylogenetic study using 18S and actin cDNA sequences. This indicated UTEX29 to be more phylogenetically related to Chlorella vulgaris. To investigate the fate of different lipids after N starvation, radiolabeling using ¹⁴C-acetate was used. A significant decrease in ¹⁴C-galactolipids and phospholipids matched the increase in ¹⁴C-TAG starting at 3 h of N starvation, consistent with acyl groups from structural lipids as sources for TAG under N starvation. These results have important implications for the identification of key steps controlling oil accumulation in N-starved biofuel algae and demonstrate membrane recycling during lipid body formation.

摘要

藻类油脂是理想的生物燃料来源。我们的目的是确定在氮(N)饥饿条件下小球藻 UTEX29 中三酰基甘油(TAG)积累和脂滴形成的贡献因素。N 饥饿 24 小时后细胞内脂质增加了五倍,证实了 UTEX29 的油脂特性。超微结构研究表明,与 N 充足的细胞相比,N 饥饿的细胞中脂滴数量增加,淀粉粒减少。N 去除后 3 小时即可观察到脂滴,应激 48 小时后质体崩溃。此外,鉴定细胞内的蛋白核和小球藻原质体(如 UTEX29 目前分类)对营养的预期需求的差异,促使我们使用 18S 和肌动蛋白 cDNA 序列进行系统发育研究。这表明 UTEX29 在系统发育上与普通小球藻更为相关。为了研究 N 饥饿后不同脂质的命运,使用 ¹⁴C-乙酸进行放射性标记。N 饥饿 3 小时开始,¹⁴C-半乳糖脂和磷脂的显著减少与 ¹⁴C-TAG 的增加相匹配,这与 N 饥饿条件下结构脂质的酰基作为 TAG 的来源一致。这些结果对鉴定控制 N 饥饿生物燃料藻类中油脂积累的关键步骤具有重要意义,并证明了在脂滴形成过程中膜的回收。

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