棕榈油酸（Δ11--十六碳烯酸）由丛枝菌根真菌中的 OLE1 样去饱和酶合成。

Palmitvaccenic Acid (Δ11--hexadecenoic acid) Is Synthesized by an OLE1-like Desaturase in the Arbuscular Mycorrhiza Fungus .

机构信息

Institute of Molecular Physiology and Biotechnology of Plants (IMBIO), University of Bonn, Karlrobert-Kreiten-Straße 13, 53115 Bonn, Germany.

Center for Plant Science Information, University of Nebraska, E318 Beadle Center, 1901 Vine Street, Lincoln, Nebraska 68588, United States.

出版信息

Biochemistry. 2020 Mar 24;59(11):1163-1172. doi: 10.1021/acs.biochem.0c00051. Epub 2020 Mar 12.

DOI:10.1021/acs.biochem.0c00051

PMID:32135062

Abstract

Arbuscular mycorrhiza (AM) fungi deliver mineral nutrients to the plant host in exchange for reduced carbon in the form of sugars and lipids. Colonization with AM fungi upregulates a specific host lipid synthesis pathway resulting in the production of fatty acids. Predominantly palmitic acid (16:0) and the unusual palmitvaccenic acid (16:1) accumulate in the fungus . Here, we present the isolation and characterization of OLE1-LIKE, the desaturase involved in palmitvaccenic acid synthesis, by heterologous expression in yeast and plants. Results are in line with the scenario in which encodes an acyl-CoA desaturase with substrate specificity for C15-C18 acyl groups, in particular C16. Phylogenetic analysis of -related sequences revealed that this gene is conserved in AM fungi from the Glomales and Diversisporales but is absent from nonsymbiotic Mortierellaceae and Mucoromycotina fungi, suggesting that 16:1 provides a specific function during AM colonization.

摘要

丛枝菌根（AM）真菌以糖和脂质形式为植物宿主提供矿质养分，作为交换。AM 真菌的定殖会上调特定的宿主脂质合成途径，导致脂肪酸的产生。主要是棕榈酸（16:0）和不寻常的棕榈烯酸（16:1）在真菌中积累。在这里，我们通过在酵母和植物中的异源表达，分离并鉴定了参与棕榈烯酸合成的 OLE1-LIKE 脱饱和酶。结果与 scenario 一致，即编码一种酰基辅酶 A 脱饱和酶，其底物特异性为 C15-C18 酰基，特别是 C16。与相关序列的系统发育分析表明，该基因在 Glomales 和 Diversisporales 的 AM 真菌中保守，但在非共生的 Mortierellaceae 和 Mucoromycotina 真菌中缺失，这表明 16:1 在 AM 定殖过程中提供了特定的功能。

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棕榈油酸（Δ11--十六碳烯酸）由丛枝菌根真菌中的 OLE1 样去饱和酶合成。

Palmitvaccenic Acid (Δ11--hexadecenoic acid) Is Synthesized by an OLE1-like Desaturase in the Arbuscular Mycorrhiza Fungus .

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