Recombinant yeast for production of the pain receptor modulator nonivamide from vanillin

IF 2.5 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Frontiers in chemical engineering Pub Date : 2023-01-12 DOI:10.3389/fceng.2022.1097215

Nina Muratovska, M. Carlquist

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Abstract

We report on the development of a method based on recombinant yeast Saccharomyces cerevisiae to produce nonivamide, a capsaicinoid and potent agonist of the pain receptor TRPV1. Nonivamide was produced in a two-step batch process where yeast was i) grown aerobically on glucose and ii) used to produce nonivamide from vanillin and non-anoic acid by bioconversion. The yeast was engineered to express multiple copies of an amine transaminase from Chromobacterium violaceum (CvTA), along with an NADH-dependent alanine dehydrogenase from Bacillus subtilis (BsAlaDH) to enable efficient reductive amination of vanillin. Oxygen-limited conditions and the use of ethanol as a co-substrate to regenerate NADH were identified to favour amination over the formation of the by-products vanillic alcohol and vanillic acid. The native alcohol dehydrogenase ADH6 was deleted to further reduce the formation of vanillic alcohol. A two-enzyme system consisting of an N-acyltransferase from Capsicum annuum (CaAT), and a CoA ligase from Sphingomonas sp. Ibu-2 (IpfF) was co-expressed to produce the amide. This study provides proof of concept for yeast-based production of non-ivamide by combined transamination and amidation of vanillin.

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用香兰素生产疼痛受体调节剂非酰胺的重组酵母

我们报道了一种基于重组酵母酿酒酵母的方法的开发，以生产非酰胺，一种辣椒素和疼痛受体TRPV1的强效激动剂。Nonivamide是在两步分批工艺中生产的，其中酵母i）在葡萄糖上有氧生长，ii）用于通过生物转化从香兰素和壬酸中生产Nonivamid。酵母被改造为表达来自紫色杆菌（CvTA）的胺转氨酶的多个拷贝，以及来自枯草芽孢杆菌（BsAlaDH）的NADH依赖性丙氨酸脱氢酶，以实现香兰素的有效还原胺化。氧限制条件和使用乙醇作为共底物再生NADH被确定为有利于胺化而不是形成副产物香兰醇和香兰酸。天然醇脱氢酶ADH6被删除以进一步减少香草醛醇的形成。由辣椒的N-酰基转移酶（CaAT）和鞘氨醇单胞菌的CoA连接酶组成的双酶系统。Ibu-2（IpfF）被共表达以产生酰胺。本研究为以酵母为基础，通过香兰素的转氨基和酰胺化联合生产非伊凡酰胺提供了概念证明。

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