High Throughput Fitness Profiling Reveals Loss Of GacS-GacA Regulation Improves Indigoidine Production In Pseudomonas putida

bioRxiv : the preprint server for biology Pub Date : 2021-02-03 DOI:10.1101/2021.02.02.429437

Thomas Eng, Deepanwita Banerjee, A. Lau, E. Bowden, R. Herbert, Jessica Trinh, Jan-Philip Prahl, A. Deutschbauer, Deepti Tanjore, A. Mukhopadhyay

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引用次数: 2

Abstract

Pseudomonas putida KT2440 is an emerging industrial microbe amenable for use with renewable carbon streams including aromatics such as para-coumarate (pCA). We examined this microbe under common stirred-tank bioreactor parameters with quantitative fitness assays using a pooled transposon library containing nearly all (4,778) non-essential genes. Assessing differential fitness values by monitoring changes in mutant strain abundance over time identified 31 genes with improved fitness in multiple bioreactor-relevant parameters. Twenty-one genes from this subset were reconstructed, including GacA, a signaling protein, TtgB, an ABC transporter, and PP_0063, a lipid A acyltransferase. Twelve deletion strains with roles in varying cellular functions were evaluated for conversion of pCA, to a heterologous bioproduct, indigoidine. Several mutants, such as the ΔgacA strain improved both fitness in a bioreactor and showed an 8-fold improvement in indigoidine production (4.5 g/L, 0.29 g/g pCA, 23% MTY) from pCA as the carbon source.

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高通量适应度分析揭示GacS-GacA调控缺失改善恶臭假单胞菌靛蓝苷生产

恶臭假单胞菌KT2440是一种新兴的工业微生物，适用于可再生碳流，包括芳烃，如对香酸酯(pCA)。我们使用包含几乎所有(4,778)个非必需基因的汇集转座子文库，在普通搅拌槽生物反应器参数下对这种微生物进行了定量适应度测定。通过监测突变菌株丰度随时间的变化来评估差异适应度值，鉴定出31个基因在多个生物反应器相关参数中具有更高的适应度。该亚群中的21个基因被重建，包括信号蛋白GacA、ABC转运蛋白TtgB和脂质a酰基转移酶PP_0063。12株在不同细胞功能中起作用的缺失菌株被评估为将pCA转化为异源生物产物靛蓝素。一些突变体，如ΔgacA菌株提高了在生物反应器中的适应性，并且以pCA作为碳源，其靛蓝素产量(4.5 g/L, 0.29 g/g pCA, 23% MTY)提高了8倍。

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