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Evolution and engineering of pathways for aromatic O-demethylation in Pseudomonas putida KT2440

恶臭假单胞菌 去甲基化 分解代谢 异源的 背景(考古学) 代谢工程 木质素 脱甲基酶 化学 异源表达 酶动力学 生物化学 拉伤 单加氧酶 生物 细胞色素P450 活动站点 DNA 重组DNA 有机化学 DNA甲基化 基因 基因表达 古生物学 解剖 组蛋白
作者
Alissa Bleem,Eugene Kuatsjah,Josefin Johnsen,Elsayed T. Mohamed,William G. Alexander,Zoe A. Kellermyer,Austin L. Carroll,Riccardo Rossi,Ian B. Schlander,George Peabody,Adam M. Guss,Adam M. Feist,Gregg T. Beckham
出处
期刊:Metabolic Engineering [Elsevier BV]
卷期号:84: 145-157 被引量:18
标识
DOI:10.1016/j.ymben.2024.06.009
摘要

Biological conversion of lignin from biomass offers a promising strategy for sustainable production of fuels and chemicals. However, aromatic compounds derived from lignin commonly contain methoxy groups, and O-demethylation of these substrates is often a rate-limiting reaction that influences catabolic efficiency. Several enzyme families catalyze aromatic O-demethylation, but they are rarely compared in vivo to determine an optimal biocatalytic strategy. Here, two pathways for aromatic O-demethylation were compared in Pseudomonas putida KT2440. The native Rieske non-heme iron monooxygenase (VanAB) and, separately, a heterologous tetrahydrofolate-dependent demethylase (LigM) were constitutively expressed in P. putida, and the strains were optimized via adaptive laboratory evolution (ALE) with vanillate as a model substrate. All evolved strains displayed improved growth phenotypes, with the evolved strains harboring the native VanAB pathway exhibiting growth rates ∼1.8x faster than those harboring the heterologous LigM pathway. Enzyme kinetics and transcriptomics studies investigated the contribution of selected mutations toward enhanced utilization of vanillate. The VanAB-overexpressing strains contained the most impactful mutations, including those in VanB, the reductase for vanillate O-demethylase, PP_3494, a global regulator of vanillate catabolism, and fghA, involved in formaldehyde detoxification. These three mutations were combined into a single strain, which exhibited approximately 5x faster vanillate consumption than the wild-type strain in the first 8 h of cultivation. Overall, this study illuminates the details of vanillate catabolism in the context of two distinct enzymatic mechanisms, yielding a platform strain for efficient O-demethylation of lignin-related aromatic compounds to value-added products.
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