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Engineering Bacillus coagulans with high osmotic tolerance for enhancing L-lactic acid production using sweet sorghum juice coupled with acid-pretreated soybean meal under unsterile conditions

Yongli Yan, Wen-Wen Shan, Yufan Wu, Chong Zhang, Gaosen Zhang, Guangxiu Liu, Jihong Chen, Wei Hu

2024Industrial Crops and Products8 citationsDOIOpen Access PDF

Abstract

Bacillus coagulans provides the economic potential for fermenting non-food sweet sorghum into lactic acid with high titer/productivity, but its production capacity is limited by osmotic pressure tolerance. Herein, a B. coagulans with significantly elevated osmotic pressure tolerance was screened after heavy ion beam mutagenesis combined with automation and high-throughput microdroplet enrichment, showing improved L-lactic acid production and tolerance performance compared to the parental strain. Moreover, combining vitamin B supplementation and acid-pretreated soybean meal increased the conversion yield and productivity. Finally, the engineered strain produced 113.5 g/L of L-lactic acid from sweet sorghum juice after 23-hour fermentation with the high optical purity of 99.8 % in a single batch fermentation under open unsterile conditions, highlighting the potential for more efficient polymer-grade L-lactic acid biomanufacturing from sweet sorghum. • An automated microdroplet enrichment platform was established. • A robust L-lactic acid producing Bacillus coagulans strain was obtained. • The VB supplementation improved production performance. • Batch fermentation produced superior lactic acid titer and productivity.

Topics & Concepts

Bacillus coagulansFood scienceLactic acidSorghumSweet sorghumChemistrySoybean mealFermentationBiologyAgronomyRaw materialBacteriaOrganic chemistryGeneticsBiofuel production and bioconversionEnzyme Production and CharacterizationMicrobial Metabolic Engineering and Bioproduction
Engineering Bacillus coagulans with high osmotic tolerance for enhancing L-lactic acid production using sweet sorghum juice coupled with acid-pretreated soybean meal under unsterile conditions | Litcius