Engineering Pseudomonas Putida for Efficient Aromatic Conversion to Bioproduct Using High Throughput Screening in a Bioreactor

Overview

Journal Metab Eng

Specialties Biomedical Engineering
Endocrinology

Date 2021 May 8

PMID 33964456

Citations 15

Authors

Thomas Eng

Deepanwita Banerjee

Andrew K Lau

Emily Bowden

Robin A Herbert

Jessica Trinh

Jan-Philip Prahl

Adam Deutschbauer

Deepti Tanjore

Aindrila Mukhopadhyay

Affiliations

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Abstract

Pseudomonas putida KT2440 is an emerging biomanufacturing host amenable for use with renewable carbon streams including aromatics such as para-coumarate. We used a pooled transposon library disrupting nearly all (4,778) non-essential genes to characterize this microbe under common stirred-tank bioreactor parameters with quantitative fitness assays. Assessing differential fitness values by monitoring changes in mutant strain abundance identified 33 gene mutants with improved fitness across multiple stirred-tank bioreactor formats. Twenty-one deletion strains from this subset were reconstructed, including GacA, a regulator, TtgB, an ABC transporter, and PP_0063, a lipid A acyltransferase. Thirteen deletion strains with roles in varying cellular functions were evaluated for conversion of para-coumarate, to a heterologous bioproduct, indigoidine. Several mutants, such as the ΔgacA strain improved fitness in a bioreactor by 35 fold and showed an 8-fold improvement in indigoidine production (4.5 g/L, 0.29 g/g, 23% of maximum theoretical yield) from para-coumarate as the carbon source.

Citing Articles

Microbial Pathways for Cost-Effective Low-Carbon Renewable Indigoidine.

Baral N, Banerjee D, Eng T, Simmons B, Mukhopadhyay A, Scown C ACS Sustain Chem Eng. 2025; 13(8):3300-3310.

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Advances in engineering microbial biosynthesis of aromatic compounds and related compounds.

Dickey R, Forti A, Kunjapur A Bioresour Bioprocess. 2024; 8(1):91.

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Machine learning analysis of RB-TnSeq fitness data predicts functional gene modules in KT2440.

Borchert A, Bleem A, Lim H, Rychel K, Dooley K, Kellermyer Z mSystems. 2024; 9(3):e0094223.

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Simultaneous carbon catabolite repression governs sugar and aromatic co-utilization in M2.

Shrestha S, Awasthi D, Chen Y, Gin J, Petzold C, Adams P Appl Environ Microbiol. 2023; 89(10):e0085223.

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Lignin conversion to β-ketoadipic acid by via metabolic engineering and bioprocess development.

Werner A, Cordell W, Lahive C, Klein B, Singer C, Tan E Sci Adv. 2023; 9(36):eadj0053.

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