Microbial Synthesis of Health Sweetener Erythritol Using Dual-Substrate Systems

Project Abstract

Erythritol, a natural sweetener, combines the advantages of low caloric value and high stability. Currently, chemical production methods for erythritol are economically challenging, driving increased research focus toward microbial synthesis. Our primary objectives are to enhance erythritol yield and production efficiency.To achieve this, we first optimized and integrated the erythritol biosynthetic pathway in bacteria using molecular biology techniques. Furthermore, we introduced a glycerol metabolic pathway. This dual approach reduces byproduct formation while expanding utilization of cost-effective substrates, directing metabolic flux toward erythritol production.Glycerol represents an abundant, low-value renewable resource. Its application as a substrate for fermentative erythritol production has garnered significant research interest in recent years.

Project Goals

Innovative production

Through bioengineering, we enhanced and integrated the erythritol biosynthetic pathway in bacteria while incorporating a glycerol metabolic pathway. This represents an innovative and eco-friendly production method for erythritol.

Double substrate design

Glycerol, an abundant low-cost renewable resource, serves as a co-substrate with glucose in our engineered strain for erythritol production. Expanding substrate utilization range not only minimizes byproduct formation but also enhances the exploitation of low-value renewable resources.

Maximize Production

Optimizing the glycerol and glucose ratio in fermentation media was studied to maximize erythritol titer and process productivity by improving yield and conversion efficiency.

Who are we?

HDKWA

We are the SuSu team, from Beijing HDKWA High School. Our group consists of eight students, and we all have a strong passion for biology.

Connect with us

Email: Trisha.Liu@hd.kaiwenacademy.cn
Mobile number:16609294371