Physiological metabolic analysis and process optimization of hypoxia in promoting coenzyme Q10 biosynthesis and accumulation in Rhodobacter sphaeroides HY01
Bo Li, Yan Ge, Li Fu, Huanan Guo, Ali Mohsin, Junming Li, Jiequn Wu, Biqin Chen, Yingping Zhuang, Zejian Wang

TL;DR
This study explores how hypoxia promotes Coenzyme Q10 production in Rhodobacter sphaeroides by analyzing metabolic changes and cell morphology.
Contribution
The study reveals that Coenzyme Q10 accumulation is linked to cell volume expansion rather than biosynthetic pathway upregulation.
Findings
Metabolic pathways for Coenzyme Q10 biosynthesis are downregulated under hypoxia.
Cell morphology and Coenzyme Q10 yield are strongly correlated, with larger cells producing more Coenzyme Q10.
Adding unsaturated fatty acids increased Coenzyme Q10 yield by 18.9%.
Abstract
Coenzyme Q10 fermentation by Rhodobacter sphaeroides (R. sphaeroides) is highly aerobic. However, its biosynthesis and accumulation are paradoxically induced under hypoxic conditions. While oxygen serves as both an induction signal and a key precursor, the mechanisms underlying Coenzyme Q10 accumulation under hypoxia remain elusive, posing a significant bottleneck for yield improvement. This study systematically elucidated these mechanisms through transcriptomic analysis. Results revealed that metabolic pathways for precursor and Coenzyme Q10 biosynthesis were, surprisingly, downregulated under hypoxia. Conversely, genes inhibiting morphological remodeling were downregulated, while those involved in cell membrane biosynthesis were upregulated. Furthermore, a significant positive correlation was observed between cellular morphology and Coenzyme Q10 yield. Specifically, under varying…
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Taxonomy
TopicsCoenzyme Q10 studies and effects · Microbial metabolism and enzyme function · Neurological diseases and metabolism
