Foods (Nov 2022)

Influence of Low-Intensity Ultrasound on <i>ε</i>-Polylysine Production: Intracellular ATP and Key Biosynthesis Enzymes during <i>Streptomyces albulus</i> Fermentation

  • Jiahui Xiang,
  • Mokhtar Dabbour,
  • Xianli Gao,
  • Benjamin Kumah Mintah,
  • Yao Yang,
  • Wenbin Ren,
  • Ronghai He,
  • Chunhua Dai,
  • Haile Ma

DOI
https://doi.org/10.3390/foods11213525
Journal volume & issue
Vol. 11, no. 21
p. 3525

Abstract

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The effect of low-intensity sonication treatment on cell growth, ε-polylysine (ε-PL) yield and its biological mechanism were investigated, using a 3-L-jar fermenter coupled with an in situ ultrasonic slot with a Streptomyces albulus strain SAR 14-116. Under ultrasonic conditions (28 kHz, 0.37 W cm−2, 60 min), a high biomass of SAR 14-116 and concentration of ε-PL were realized (i.e., they increased by 14.92% and 28.45%, respectively) when compared with a control. Besides this, ultrasonication increased the mycelia viability and intracellular ATP as well as activities of key enzymes involved in the ε-PL biosynthesis pathway, resulting in an improvement in the production of ε-PL. Data on qRT-PCR revealed that ultrasonication also affected the gene expression of key enzymes in the ε-PL biosynthesis pathway, including ε-PL synthetase (PLS). These outcomes provided the basis for understanding the effects of ultrasound-assisted fermentation on the stimulation of metabolite production and fermentation procedure in a fermenter.

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