Project description:Microorganisms in culture system

Project description:Cultivating microorganisms in an anaerobic continuous-flow culture system to simulate TEP degradation in aquatic environments.

Project description:Study of ammonia oxidizing microorganisms in vegetable-eel co-culture system

Project description:Enrichment culture of fermentation microorganisms

Project description:Populations of engineered metabolite-producing microorganisms are prone to evolutionary production declines during industrial-scale cultivations. In this study, we develop a synthetic product addiction system in E coli that addicts mevalonic acid production cells to mevalonic acid. Through experimentally simuluated long-term fermentation, we investigate how product-addicted organisms remain stable and avoid formation of genetic subpopulations of fit, non-producing cells.

Project description:transcriptomics co-culture system

Project description:Transcriptome of microorganisms in co-culture

Project description:Microorganisms in the SBR-UMSR system

Project description:Microorganisms in the anaerobic digestion system.

Project description:Human microbiome contains billions of microorganisms that play important roles in the biological system and different diseases. Due to its complexity, conventional culture-independent technology may underestimate the value of low-abundance bacteria, which calls for a highly efficient method for its enrichment and comprehensive analysis. In this study, we developed a recycling free-flow isoelectric focusing (RFFIEF) method-based electrophoresis method to separate salivary microbiome.