Yeast species resource exploration and application in cell factories.
- 2026-09
- Synthetic and systems biotechnology 13
- Meiling Zhang
- Lin Xiang
- Lei Qin
- Haitao Yue
- Chun Li
- PubMed: 41859725
- DOI: 10.1016/j.synbio.2025.12.007
Study Design
- Type
- Review
Yeasts serve as important industrial hosts, contributing significantly to sustainable and green biomanufacturing efforts in the pursuit of global carbon neutrality, alongside other vital microorganisms. This review systematically summarizes recent advances in yeast cell factories, focusing on the exploration of yeast species resources, innovation in enabling technologies, and efficient biosynthesis strategies. The characteristics and industrial applications of commonly used industrial yeast chassis were reviewed. The advent of synthetic and systems biology tools has resulted in a significant enhancement of the efficiency of yeast manipulation and regulation. Key strategies for enhancing the titter, yield, and productivity (TRY) of yeast cell factories are elaborated, including dynamic regulation of metabolic pathways, transcription factor engineering for global metabolic regulation, GEM-driven optimization, dynamic trade-off between growth and production, and cofactor engineering for redox and energy balance. In the future, yeast cell factories will advance green biomanufacturing by leveraging AI-guided design and dynamic metabolic control to utilize C1 and recalcitrant carbon sources with high efficiency.