Integrated rational and evolutionary engineering of genome-reduced Pseudomonas putida strains promotes synthetic formate assimilation

恶臭假单胞菌 代谢工程 格式化 合成生物学 生物 甲酸脱氢酶 同化(音韵学) 模块化设计 生物化学 代谢途径 计算生物学 新陈代谢 基因 计算机科学 操作系统 催化作用 哲学 语言学
作者
Justine Turlin,Beau Dronsella,Alberto De Maria,Steffen N. Lindner,Pablo I. Nikel
出处
期刊:Metabolic Engineering [Elsevier BV]
卷期号:74: 191-205 被引量:37
标识
DOI:10.1016/j.ymben.2022.10.008
摘要

Formate is a promising, water-soluble C1 feedstock for biotechnology that can be efficiently produced from CO2—but formatotrophy has been engineered in only a few industrially-relevant microbial hosts. We addressed the challenge of expanding the feedstock range of bacterial hosts by adopting Pseudomonas putida as a robust platform for synthetic formate assimilation. Here, the metabolism of a genome-reduced variant of P. putida was radically rewired to establish synthetic auxotrophies that could be functionally complemented by expressing components of the reductive glycine (rGly) pathway. We adopted a modular engineering approach, dividing C1 assimilation in segments composed of both heterologous activities (sourced from Methylobacterium extorquens) and native biochemical reactions. Modular expression of rGly pathway elements enabled growth on formate as carbon source and acetate (predominantly for energy supply), and adaptive laboratory evolution of two lineages of engineered P. putida formatotrophs lead to doubling times of ca. 15 h. We likewise identified emergent metabolic features for assimilation of C1 units in these evolved P. putida populations. Taken together, our results consolidate the landscape of useful microbial platforms that can be implemented for C1-based biotechnological production towards a formate bioeconomy.

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