AI Article Synopsis
- Advancements in synthetic biology enable microbes to produce valuable plant metabolites, but integrating complete biosynthetic pathways in a single organism is difficult.
- Researchers developed a modular co-culture system using Escherichia coli and Pichia pastoris to overcome this challenge, aiming to produce compounds like reticuline and stylopine.
- By optimizing pre-culture time and cell concentrations, they improved the co-culture system, increasing productivity by 80 times, which could expedite large-scale production of important plant metabolites.
Article Abstract
Advancements in synthetic biology have facilitated the microbial production of valuable plant metabolites. However, constructing complete biosynthetic pathways within a single host organism remains challenging. To solve this problem, modular co-culture systems involving host organisms with partial pathways have been developed. We focused on Escherichia coli, a general host for metabolite production, and Pichia pastoris (Komagataella phaffii), a novel synthetic biology host due to its high expression of biosynthetic enzymes. Previously, we reported the co-culture of E. coli cells, which produce reticuline (an important intermediate for various alkaloids) from glycerol, with P. pastoris cells, which produce the valuable alkaloid stylopine from reticuline. However, Pichia cells inhibited E. coli growth and reticuline production. Therefore, we aimed to improve this co-culture system. We investigated the pre-culture time before co-culture to enhance E. coli growth and reticuline production. Additionally, we examined the optimal concentration of Pichia cells inoculated for co-culture and methanol addition during co-culture for the continuous expression of biosynthetic enzymes in Pichia cells. We successfully established an improved co-culture system that exhibited an 80-fold increase in productivity compared to previous methods. This enhanced system holds great potential for the rapid and large-scale production of various valuable plant metabolites.
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| http://dx.doi.org/10.1248/bpb.b23-00473 | DOI Listing |
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