High-level prodigiosin production in Pseudomonas putida enabled by combinatorial metabolic engineering
Yuxin Zhang, Meiyan Wang, Kaijie Dou, Ruizhi Zhang, Chunfang Wang, Xiaoying Bian, Jun Si, Guoqing Niu

TL;DR
Scientists improved prodigiosin production in Pseudomonas putida using metabolic engineering, achieving high yields that could benefit pharmaceutical and industrial applications.
Contribution
A novel metabolic engineering platform in Pseudomonas putida enables high-level prodigiosin production, surpassing native producers.
Findings
Engineered Pseudomonas putida achieved 665 mg/L prodigiosin in shake-flask cultures.
Prodigiosin yield increased to 1161 mg/L in a small-scale bioreactor.
The platform can be adapted for other prodiginine family compounds.
Abstract
Prodigiosin, a bioactive tripyrrole pigment, exhibits a broad spectrum of biological activities-including antimicrobial, anticancer, and antimalarial properties-thereby holding significant promise for use in pharmaceutical applications and industrial biotechnology. In this study, three isolates of Serratia marcescens were recovered from the cabbage rhizosphere. Genomic analysis revealed a highly conserved prodigiosin biosynthetic gene cluster embedded within the chromosomes of all three isolates. Though prodigiosin production was detected in these three S. marcescens isolates, the relatively low yield severely limits the feasibility of its large-scale production. To address this issue, we employed a stepwise strategy involving heterologous expression, promoter engineering, genome-wide transposon mutagenesis, and optimization of fermentation media with the aim to achieve high-level…
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Taxonomy
TopicsMicrobial Metabolism and Applications · Microbial Metabolic Engineering and Bioproduction · Biochemical and biochemical processes
