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Strengthening the (R)-pantoate pathway to produce D-pantothenic acid based on systematic metabolic analysis

Authors :
Shu-Ping Zou
Li Chen
Zhiqiang Liu
Xue Cai
Yu-Guo Zheng
Jie-Yi Jin
Hai-Yan Zhou
Bo Zhang
Na Zhong
Source :
Food Bioscience. 43:101283
Publication Year :
2021
Publisher :
Elsevier BV, 2021.

Abstract

As the key precursor of coenzyme A synthesis in vivo, D-pantothenic acid plays an important role in maintaining biological function, which is widely applied in the food, pharmaceutical, and cosmetic industries. At present, it was mainly produced by chemical methods, with serious environmental pollution, therefore, it is urgent to develop an economical, practical, and environmentally friendly biological fermentation method based on microbial chassis cells. Herein, based on our previously developed D-pantothenic acid producing strains, we obtained higher yielding D-pantothenic acid producing strains by systematic metabolic engineering. First, according to the results of CRISPRi experiments, lpd were overexpressed, disrupted the non-PTS (non-phosphoenolpyruvate-pyruvate transport system) as well as enhanced the PTS (phosphoenolpyruvate-pyruvate transport system) allowing precursor accumulation. Subsequently, based on the analysis of metabolic intermediates, the pyruvate bypass pathway was blocked as well as the (R)-pantothenic acid pathway was further enhanced, increasing the titer of D-pantothenic acid to 4.60 g/L. Finally, the organic acid and branched-chain amino acid synthesis pathways were blocked, and in order to accelerate the synthesis of acetolactate and the output of D-pantothenic acid, heterologous acetolactate synthase and pantothenate transfer protein were introduced, which significantly increased the yield of D-pantothenic acid, reach to 6.33 g/L. The final strain in a 5 L bioreactor produced 32.32 g/L D-pantothenic acid with a productivity of 2.33 g/L/h and the high-yielding strain provides an effective platform for biological fermentation to produce D-pantothenic acid.

Details

ISSN :
22124292
Volume :
43
Database :
OpenAIRE
Journal :
Food Bioscience
Accession number :
edsair.doi...........898bd91f37c833bb3a334abb1670e540
Full Text :
https://doi.org/10.1016/j.fbio.2021.101283