Abstract
BackgroundAlkaline amylase has significant potential for applications in the textile, paper and detergent industries, however, low yield of which cannot meet the requirement of industrial application. In this work, a novel ARTP mutagenesis-screening method and fermentation optimization strategies were used to significantly improve the expression level of recombinant alkaline amylase in B. subtilis 168.ResultsThe activity of alkaline amylase in mutant B. subtilis 168 mut-16# strain was 1.34-fold greater than that in the wild-type, and the highest specific production rate was improved from 1.31 U/(mg·h) in the wild-type strain to 1.57 U/(mg·h) in the mutant strain. Meanwhile, the growth of B. subtilis was significantly enhanced by ARTP mutagenesis. When the agitation speed was 550 rpm, the highest activity of recombinant alkaline amylase was 1.16- and 1.25-fold of the activities at 450 and 650 rpm, respectively. When the concentration of soluble starch and soy peptone in the initial fermentation medium was doubled, alkaline amylase activity was increased 1.29-fold. Feeding hydrolyzed starch and soy peptone mixture or glucose significantly improved cell growth, but inhibited the alkaline amylase production in B. subtilis 168 mut-16#. The highest alkaline amylase activity by feeding hydrolyzed starch reached 591.4 U/mL, which was 1.51-fold the activity by feeding hydrolyzed starch and soy peptone mixture. Single pulse feeding-based batch feeding at 10 h favored the production of alkaline amylase in B. subtilis 168 mut-16#.ConclusionThe results indicated that this novel ARTP mutagenesis-screening method could significantly improve the yield of recombinant proteins in B. subtilis. Meanwhile, fermentation optimization strategies efficiently promoted expression of recombinant alkaline amylase in B. subtilis 168 mut-16#. These findings have great potential for facilitating the industrial-scale production of alkaline amylase and other enzymes, using B. subtilis cultures as microbial cell factories.
Highlights
Alkaline amylase has significant potential for applications in the textile, paper and detergent industries, low yield of which cannot meet the requirement of industrial application
ARTP mutagenesis and high throughput screening (HTS) A novel ARTP mutagenesis and screening method was used to mutate B. subtilis 168 to improve the expression of recombinant alkaline amylase (Fig. 1)
This indicated that ARTP mutagenesis strongly promoted extracellular production of recombinant alkaline amylase in B. subtilis 168
Summary
Alkaline amylase has significant potential for applications in the textile, paper and detergent industries, low yield of which cannot meet the requirement of industrial application. A novel ARTP mutagenesis-screening method and fermentation optimization strategies were used to significantly improve the expression level of recombinant alkaline amylase in B. subtilis 168. Alkaline amylase has significant potential for applications in the textile, paper, and detergent industries. Many alkaline amylases have been heterologously expressed in recombinant hosts to improve their yield and optimize their properties [4, 5]. Murakami et al heterologously expressed alkaline amylase from B. halodurans MS-2-5 in recombinant Escherichia coli, and under optimized cultivation conditions, the amylase yield increased 104-fold compared with yield from the wild-type strain [4]. There have been many strategies used to improve the expression of recombinant proteins in B. subtilis, including mutagenesis, screening highly efficient expression systems, strong promoters, peptides with high secretion level, and fermentation optimization [7, 9, 12,13,14]
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