Biotechnology for Biofuels and Bioproducts (Dec 2022)

Improving the productivity of malic acid by alleviating oxidative stress during Aspergillus niger fermentation

  • Na Wu,
  • Mingyan Xing,
  • Yaru Chen,
  • Chi Zhang,
  • Yingfeng Li,
  • Ping Song,
  • Qing Xu,
  • Hao Liu,
  • He Huang

DOI
https://doi.org/10.1186/s13068-022-02250-7
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract Background As an attractive platform chemical, malic acid has been commonly used in the food, feed and pharmaceutical field. Microbial fermentation of biobased sources to produce malic acid has attracted great attention because it is sustainable and environment-friendly. However, most studies mainly focus on improving yield and ignore shortening fermentation time. A long fermentation period means high cost, and hinders the industrial applications of microbial fermentation. Stresses, especially oxidative stress generated during fermentation, inhibit microbial growth and production, and prolong fermentation period. Previous studies have shown that polypeptides could effectively relieve stresses, but the underlying mechanisms were poorly understood. Results In this study, polypeptides (especially elastin peptide) addition improves the productivity of malic acid in A. niger, resulting in shortening of fermentation time from 120 to 108 h. Transcriptome and biochemical analyses demonstrated that both antioxidant enzyme-mediated oxidative stress defense system, such as superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GPX), and nonenzymatic antioxidant system, such as glutathione, were enhanced in the presence of elastin peptide, suggesting elastin peptide relieving oxidative stresses is involved in many pathways. In order to further investigate the relationship between oxidative stress defense and malic acid productivity, we overexpressed three enzymes (Sod1, CAT, Tps1) related to oxidation resistance in A. niger, respectively, and these resulting strains display varying degree of improvement in malic acid productivity. Especially, the strain overexpressing the Sod1 gene achieved a malate titer of 91.85 ± 2.58 g/L in 96 h, corresponding to a productivity of 0.96 g/L/h, which performs better than elastin peptide addition. Conclusions Our investigation provides an excellent reference for alleviating the stress of the fungal fermentation process and improving fermentation efficiency.

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