Improved methyl supply for 5-methyltetrahydrofolate production in E. coli through a novel C1 transfer pathway
文献类型: 外文期刊
第一作者: Liu, Wen
作者: Liu, Wen;Guo, Jing;Lu, Wei;Cheng, Tao;Xian, Mo;Zhang, Rubing;Li, Yiting;Guo, Jing;Cheng, Tao;Xian, Mo;Zhang, Rubing;Liu, Wen;Lu, Wei
作者机构:
关键词:
Methyl supply; Metabolic engineering; 5-MTHF;
期刊名称:MICROBIAL CELL FACTORIES ( 影响因子:4.9; 五年影响因子:6.1 )
ISSN:
年卷期: 2025 年 24 卷 1 期
页码:
收录情况: SCI
摘要: BackgroundL-5-Methyltetrahydrofolate (5-MTHF) is the sole biologically active form of folate present in human blood and serves as an essential nutritional supplement. While microbial biosynthesis of 5-MTHF offers a sustainable alternative to chemical synthesis, its low yield limits industrial potential.ResultsIn this study, strategies for improving the methyl supply combined with engineering the tetrahydrofolate (THF) synthetic pathway were employed in E. coli to increase 5-MTHF production. First, a new exogenous C1 pathway was introduced to improve the intracellular methyl supply through acetyl-CoA breakdown. High expression of key rate-limiting genes folE, folP and purU enhanced metabolic flux of THF pathway, resulting in a 5-MTHF titer of 1.075 mg/L during shake-flask fermentation. A subsequent increase in 5-MTHF production was achieved by knocking out the metE gene, which is involved in the consumption of 5-MTHF. The best engineered strain, M3012, produced 8.2 mg/L 5-MTHF in a 5 L bioreactor via fed-batch fermentation, which presented the highest 5-MTHF titer to date.ConclusionWe successfully engineered E. coli by introducing a novel exogenous C1 metabolic pathway to augment the methyl donor pool essential for the biosynthesis of 5-MTHF. Further metabolic optimizations, including the enhancement of the THF precursor flux and the elimination of competing degradation pathways, developed a recombinant strain with significantly increased yield, which paves the way for industrial production of 5-MTHF.
分类号:
- 相关文献
作者其他论文 更多>>
-
Genome-wide analysis of autophagy-related genes (ATGs) in banana highlights MaATG8s in cell death and autophagy in immune response to Fusarium wilt (vol 36, pg 1237, 2017)
作者:Wei, Yunxie;Liu, Guoyin;Wu, Chunjie;Liu, Wei;Zeng, Hongqiu;He, Chaozu;Shi, Haitao;Wei, Yunxie;Liu, Guoyin;Wu, Chunjie;Liu, Wei;Zeng, Hongqiu;He, Chaozu;Shi, Haitao;Liu, Wen;Hu, Wei
关键词:
-
High-throughput phenotyping techniques for forage: Status, bottleneck, and challenges
作者:Cheng, Tao;Zhang, Dongyan;Cheng, Tao;Wang, Zhaoming;Zhang, Dongyan;Zhang, Gan;Yuan, Feng;Liu, Yaling;Wang, Tianyi;Ren, Weibo;Zhao, Chunjiang
关键词:Forage; High-throughput phenotyping; Precision identification; Sensors; Artificial intelligence; Efficient breeding
-
Overexpression of the cassava (Manihot esculenta) PP2C26 gene decreases drought tolerance and abscisic acid responses in transgenic Arabidopsis thaliana
作者:Zeng, Jian;Lin, Jiamiao;Lin, Suyan;Pan, Zimo;Lei, Xinfang;Zheng, Jie;Guo, Jing;Zhang, Ning;Wu, Chunlai;Hu, Wei;Wu, Chunlai;Hu, Wei
关键词:Cassava; Abiotic stress; Drought; Abscisic acid; PP2C
-
The pattern of soil microbe metabolic limitation and carbon use efficiency was altered by light grazing in typical steppe
作者:Zhao, Yiyang;Zhao, Yiyang;Liu, Li;Ding, Yong;Guo, Lizhu;Guo, Jing
关键词:Microbe metabolic limitation; Microbial carbon use efficiency; Typical Steppe; Grazing intensity
-
Study on photo pyrolysis coupling and performance of columnar phase change energy storage system based on composite phase change materials for Chinese solar greenhouse
作者:Qu, Xiaosong;Wu, Gang;Qu, Xiaosong;Feng, Chaoqing;Yuan, Guanghao;Liang, Hao;Feng, Chaoqing;Lu, Wei;Liu, Ruiguang;Zhang, Wanjiang
关键词:Solar energy; Chinese solar greenhouse; Composite phase change materials; Photothermal environment; Energy storage
-
Guava root exudate-driven rhizosphere microorganisms changes transmitted to foliar-feeding insects influence their feeding behaviour
作者:Zhang, Peiwen;Shao, Xuehua;Zhang, Peiwen;Zhang, Zhixiang;Lu, Wei;Yue, Lei
关键词:guava; root exudates; rhizosphere microorganisms;
Spodoptera litura ; gut microorganisms -
Using XGBoost-SHAP for understanding the ecosystem services trade-off effects and driving mechanisms in ecologically fragile areas
作者:Du, Peiyu;Huai, Heju;Wang, Hongjia;Liu, Wen;Tang, Xiumei;Du, Peiyu;Huai, Heju;Wang, Hongjia;Liu, Wen;Tang, Xiumei;Du, Peiyu;Wu, Xiaoyang;Wang, Hongjia;Liu, Wen
关键词:ecosystem services; trade-offs and synergies; XGBoost-SHAP; driving mechanism; ecologically fragile areas
