Frontiers in Microbiology (Jul 2024)

Analysis of the improved mechanism of Rhodobacter sphaeroides VK-2-3 coenzyme Q10 by reverse metabolic engineering

  • Long Zhang,
  • Long Zhang,
  • Long Zhang,
  • Le-yi Wang,
  • Yi-jun Han,
  • Yan-xin Liu,
  • Yong-li Li,
  • Yong-li Li,
  • Yong-li Li,
  • Jian-hua Hu,
  • Jian-hua Hu,
  • Jian-hua Hu,
  • Zhi-jie Tian,
  • Zhan-ying Liu,
  • Zhan-ying Liu,
  • Zhan-ying Liu

DOI
https://doi.org/10.3389/fmicb.2024.1410505
Journal volume & issue
Vol. 15

Abstract

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Coenzyme Q10 (CoQ10) is an essential medicinal ingredient. In this study, we obtained a high-yielding mutant strain of CoQ10, VK-2-3, by subjecting R. sphaeroides V-0 (V-0) to a 12C6+ heavy ion beam and high-voltage prick electric field treatment. To investigate the mutation mechanism, the complete genomes of VK-2-3 and V-0 were sequenced. Collinearity analysis revealed that the nicotinamide adenine dinucleotide-dependent dehydrogenase (NAD) gene underwent rearrangement in the VK-2-3 genome. The NAD gene was overexpressed and silenced in V-0, and this construct was named RS.NAD and RS.ΔNAD. The results showed that the titers of CoQ10 in the RS.NAD and RS.ΔNAD increased and decreased by 16.00 and 33.92%, respectively, compared to those in V-0, and these differences were significant. Our results revealed the mechanism by which the VK-2-3 CoQ10 yield increases through reverse metabolic engineering, providing insights for genetic breeding and mechanistic analysis.

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