Author
Listed:
- Zhihui Shi
(Chinese Academy of Sciences
University of Chinese Academy of Sciences
State Key Laboratory of Engineering Biology for Low-Carbon Manufacturing
National Center of Technology Innovation for Synthetic Biology)
- Zhaoyu Xu
(Chinese Academy of Sciences
National Center of Technology Innovation for Synthetic Biology)
- Weihe Rong
(Chinese Academy of Sciences
State Key Laboratory of Engineering Biology for Low-Carbon Manufacturing
National Center of Technology Innovation for Synthetic Biology
TIB-UM Joint Laboratory of Synthetic Biology for Traditional Chinese Medicine)
- Hongbing Sun
(Chinese Academy of Sciences
State Key Laboratory of Engineering Biology for Low-Carbon Manufacturing
National Center of Technology Innovation for Synthetic Biology)
- Hongyi Zhou
(Chinese Academy of Sciences
University of Chinese Academy of Sciences
State Key Laboratory of Engineering Biology for Low-Carbon Manufacturing
National Center of Technology Innovation for Synthetic Biology)
- Qianqian Yuan
(Chinese Academy of Sciences
State Key Laboratory of Engineering Biology for Low-Carbon Manufacturing
National Center of Technology Innovation for Synthetic Biology)
- Aixuan Xiao
(Chinese Academy of Sciences
State Key Laboratory of Engineering Biology for Low-Carbon Manufacturing
National Center of Technology Innovation for Synthetic Biology
TIB-UM Joint Laboratory of Synthetic Biology for Traditional Chinese Medicine)
- Hongfei Ma
(Chinese Academy of Sciences
State Key Laboratory of Engineering Biology for Low-Carbon Manufacturing
National Center of Technology Innovation for Synthetic Biology
TIB-UM Joint Laboratory of Synthetic Biology for Traditional Chinese Medicine)
- Tao Cai
(Chinese Academy of Sciences
State Key Laboratory of Engineering Biology for Low-Carbon Manufacturing
National Center of Technology Innovation for Synthetic Biology)
- Guokun Wang
(Chinese Academy of Sciences
State Key Laboratory of Engineering Biology for Low-Carbon Manufacturing
National Center of Technology Innovation for Synthetic Biology
TIB-UM Joint Laboratory of Synthetic Biology for Traditional Chinese Medicine)
- Yanhe Ma
(Chinese Academy of Sciences
National Center of Technology Innovation for Synthetic Biology)
Abstract
Starch is a primary food ingredient and industrial feedstock. Low-carbon microbial manufacturing offers a carbon-neutral/negative arable land-independent strategy for starch production. Here, we reconfigure the oleaginous yeast as a starch-rich micro-grain producer by rewiring the starch biosynthesis and gluconeogenesis pathways and regulating cell morphology. With the CO2 electro-synthesized acetate as the substrate, the strain accumulates starch 47.18% of dry cell weight. The optimized system renders spatial-temporal starch productivity (243.7 g/m2/d) approximately 50-fold higher than crop cultivation and volumetric productivity (160.83 mg/L/h) over other microbial systems by an order of magnitude. We demonstrate tunable starch composition and starch-protein ratios via strain and process engineering. The engineered artificial strains adopt a cellular resources reallocation strategy to ensure high-level starch production in micro-grain and could facilitate a highly efficient straw/cellulose-to-starch conversion. This work elucidates starch biosynthesis machinery and establishes a superior-to-nature platform for customizable starch synthesis, advancing low-carbon nutritional manufacturing.
Suggested Citation
Zhihui Shi & Zhaoyu Xu & Weihe Rong & Hongbing Sun & Hongyi Zhou & Qianqian Yuan & Aixuan Xiao & Hongfei Ma & Tao Cai & Guokun Wang & Yanhe Ma, 2025.
"Reprogramming yeast metabolism for customized starch-rich micro-grain through low-carbon microbial manufacturing,"
Nature Communications, Nature, vol. 16(1), pages 1-13, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58067-z
DOI: 10.1038/s41467-025-58067-z
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