利用基于TALEN的靶向诱变使硅藻中的一个热狗折叠硫酯酶基因失活，从而提高三酰甘油产量。

Enhanced triacylglycerol production in the diatom by inactivation of a Hotdog-fold thioesterase gene using TALEN-based targeted mutagenesis.

作者信息

Hao Xiahui, Luo Ling, Jouhet Juliette, Rébeillé Fabrice, Maréchal Eric, Hu Hanhua, Pan Yufang, Tan Xiaoming, Chen Zhuo, You Lingjie, Chen Hong, Wei Fang, Gong Yangmin

机构信息

1Key Laboratory of Biology and Genetic Improvement of Oil Crops, Ministry of Agriculture, Oil Crops Research Institute of Chinese Academy of Agricultural Sciences, No. 2 Xudong Second Road, Wuhan, 430062 People's Republic of China.

2Hubei Key Laboratory of Lipid Chemistry and Nutrition, Oil Crops Research Institute of Chinese Academy of Agricultural Sciences, Wuhan, 430062 China.

出版信息

Biotechnol Biofuels. 2018 Nov 12;11:312. doi: 10.1186/s13068-018-1309-3. eCollection 2018.

DOI:10.1186/s13068-018-1309-3

PMID:30455741

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6231261/

Abstract

BACKGROUND

In photosynthetic oleaginous microalgae, acyl-CoA molecules are used as substrates for the biosynthesis of membrane glycerolipids, triacylglycerol (TAG) and other acylated molecules. Acyl-CoA can also be directed to beta-oxidative catabolism. They can be utilized by a number of lipid metabolic enzymes including endogenous thioesterases, which catalyze their hydrolysis to release free fatty acids. Acyl-CoA availability thus plays fundamental roles in determining the quantity and composition of membrane lipids and storage lipids.

RESULTS

Here, we have engineered the model diatom to produce significantly increased TAGs by disruption of the gene encoding a Hotdog-fold thioesterase involved in acyl-CoA hydrolysis (ptTES1). This plastidial thioesterase can hydrolyze both medium- and long-chain fatty acyl-CoAs, but has the highest activity toward long-chain saturated and monounsaturated fatty acyl-CoAs. The maximum rate was found with oleoyl-CoA, which is hydrolyzed at 50 nmol/min/mg protein. The stable and targeted interruption of acyl-CoA thioesterase gene was achieved using a genome editing technique, transcription activator-like effector nucleases (TALENs). Disruption of native ptTES1 gene resulted in a 1.7-fold increase in TAG content when algal strains were grown in nitrogen-replete media for 8 days, whereas the content of other lipid classes, including phosphoglycerolipids and galactoglycerolipids, remained almost unchanged. The engineered algal strain also exhibited a marked change in fatty acid profile, including a remarkable increase in 16:0 and 16:1 and a decrease in 20:5. Nitrogen deprivation for 72 h further increased TAG content and titer of the engineered strain, reaching 478 μg/10 cells and 4.8 mg/L, respectively. Quantitative determination of in vivo acyl-CoAs showed that the total acyl-CoA pool size was significantly higher in the engineered algal strain than that in the wild type.

CONCLUSIONS

This study supports the role of ptTES1 in free fatty acid homeostasis in the plastid of and demonstrates the potential of TALEN-based genome editing technique to generate an enhanced lipid-producing algal strain through blocking acyl-CoA catabolism.

摘要

背景

在光合产油微藻中，酰基辅酶A分子用作膜甘油脂、三酰甘油（TAG）和其他酰化分子生物合成的底物。酰基辅酶A也可用于β-氧化分解代谢。它们可被多种脂质代谢酶利用，包括内源性硫酯酶，后者催化其水解以释放游离脂肪酸。因此，酰基辅酶A的可用性在决定膜脂和储存脂的数量和组成方面起着重要作用。

结果

在此，我们通过破坏编码参与酰基辅酶A水解的热狗折叠硫酯酶（ptTES1）的基因，对模式硅藻进行了工程改造，以显著提高TAG的产量。这种质体硫酯酶可水解中链和长链脂肪酰基辅酶A，但对长链饱和和单不饱和脂肪酰基辅酶A的活性最高。发现油酰辅酶A的水解速率最高，为50 nmol/min/mg蛋白质。使用基因组编辑技术转录激活样效应核酸酶（TALENs）实现了酰基辅酶A硫酯酶基因的稳定靶向中断。当藻类菌株在氮充足的培养基中培养8天时，天然ptTES1基因的破坏导致TAG含量增加了1.7倍，而其他脂质类别，包括磷酸甘油脂和半乳糖甘油脂的含量几乎保持不变。工程改造的藻类菌株的脂肪酸谱也出现了显著变化，包括16:0和16:1显著增加，20:5减少。72小时的氮剥夺进一步提高了工程改造菌株的TAG含量和滴度，分别达到478 μg/10个细胞和4.8 mg/L。体内酰基辅酶A的定量测定表明，工程改造的藻类菌株中总酰基辅酶A库大小显著高于野生型。

结论

本研究支持ptTES1在硅藻质体中游离脂肪酸稳态中的作用，并证明了基于TALEN的基因组编辑技术通过阻断酰基辅酶A分解代谢来产生脂质产量更高的藻类菌株的潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ae59/6231261/45341a1db7a8/13068_2018_1309_Fig1_HTML.jpg

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利用基于TALEN的靶向诱变使硅藻中的一个热狗折叠硫酯酶基因失活，从而提高三酰甘油产量。

Enhanced triacylglycerol production in the diatom by inactivation of a Hotdog-fold thioesterase gene using TALEN-based targeted mutagenesis.

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