Litcius/Paper detail

Identification and iterative combinatorial mutagenesis of a new naringinase‐producing strain,<i>Aspergillus tubingensis</i>MN589840

Xilong Xia, Yuan-E. Zhang, Sheng-Jiao Lei, Biao Hu, Chunmei Fu

2020Letters in Applied Microbiology19 citationsDOI

Abstract

Naringinase was mainly obtained by microbial fermentation, and mutagenesis was a major way for obtaining excellent mutants. The aim of this study was to screen out a high naringinase yielding mutant to enhance the potential application value of its industrialization and compare the effects of different mutagenic methods on the enzyme activity of the strain. A novel producing naringinase strain, Aspergillus tubingensis MN589840, was isolated from mildewed pomelo peel, later subjected to mutagenesis including UV, ARTP and UV-ARTP. After five rounds iterative mutagenesis, the mutants U1, A6 and UA13 were screened out with 1448·49, 1848·71, 2475·16 U mg−1 enzyme activity, the naringinase productivity raised by 79·08, 123·56 and 206%, respectively. In addition, the naringinase activity of three mutants rose after each round of iterative mutagenesis. These results indicated that the mutagenesis efficiency of UV-ARTP was higher than that of single ARTP, and both are better than UV. In summary, the iterative UV-ARTP mutagenesis is an effective strategy for screening high naringinase-producing strains.

Topics & Concepts

MutagenesisMutantStrain (injury)FermentationBiologyChemistryBiochemistryGeneAnatomyPhytochemical compounds biological activitiesStudies on Chitinases and ChitosanasesPlant tissue culture and regeneration