Litcius/Paper detail

Manipulation of an α-glucosidase in the industrial glucoamylase-producing Aspergillus niger strain O1 to decrease non-fermentable sugars production and increase glucoamylase activity

Wenzhu Guo, Dandan Liu, Jingen Li, Wenliang Sun, Tao Sun, Xingji Wang, Kefen Wang, Qian Liu, Chaoguang Tian

2022Frontiers in Microbiology10 citationsDOIOpen Access PDF

Abstract

Dextrose equivalent of glucose from starch hydrolysis is a critical index for starch-hydrolysis industry. Improving glucose yield and decreasing the non]-fermentable sugars which caused by transglycosylation activity of the enzymes during the starch saccharification is an important direction. In this study, we identified two key α-glucosidases responsible for producing non-fermentable sugars in an industrial glucoamylase-producing strain Aspergillus niger O1. The results showed the transglycosylation product panose was decreased by more than 88.0% in agdA / agdB double knock-out strains than strain O1. Additionally, the B-P1 domain of agdB was found accountable as starch hydrolysis activity only, and B-P1 overexpression in Δ A Δ B -21 significantly increased glucoamylase activity whereas keeping the glucoamylase cocktail low transglycosylation activity. The total amounts of the transglycosylation products isomaltose and panose were significantly decreased in final strain B-P1-3 by 40.7% and 44.5%, respectively. The application of engineered strains will decrease the cost and add the value of product for starch biorefinery.

Topics & Concepts

Aspergillus nigerStrain (injury)Food scienceChemistryAspergillusBiochemistryMicrobiologyBiotechnologyBiologyAnatomyEnzyme Production and CharacterizationBiofuel production and bioconversionMicrobial Metabolites in Food Biotechnology