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Construction of L-Asparaginase Stable Mutation for the Application in Food Acrylamide Mitigation

Bing Yuan, Pengfei Ma, Yuxuan Fan, Bo Guan, Youzhen Hu, Yan Zhang, Wenli Yan, Xu Li, Yongqing Ni

2022Fermentation13 citationsDOIOpen Access PDF

Abstract

Acrylamide, a II A carcinogen, widely exists in fried and baked foods. L-asparaginase can inhibit acrylamide formation in foods, and enzymatic stability is the key to its application. In this study, the Escherichia coli L-asparaginase (ECA) stable variant, D60W/L211R/L310R, was obtained with molecular dynamics (MD) simulation, saturation mutation, and combinatorial mutation, the half-life of which increased to 110 min from 60 min at 50 °C. Furthermore, the working temperature (maintaining the activity above 80%) of mutation expanded from 31 °C–43 °C to 35 °C–55 °C, and the relative activity of mutation increased to 82% from 65% at a pH range of 6–10. On treating 60 U/mL and 100 U/g flour L-asparaginase stable mutant (D60W/L211R/L310R) under uncontrolled temperature and pH, the acrylamide content of potato chips and bread was reduced by 66.9% and 51.7%, which was 27% and 49.9% higher than that of the wild type, respectively. These results demonstrated that the mutation could be of great potential to reduce food acrylamide formation in practical applications.

Topics & Concepts

AcrylamideMutationChemistryAsparaginaseFood scienceMutantCarcinogenBiochemistryBiologyPolymerGeneticsOrganic chemistryGeneLeukemiaCopolymerLymphoblastic LeukemiaPotato Plant ResearchPlant Pathogens and ResistancePlant tissue culture and regeneration