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Metabolomics of astaxanthin biosynthesis and corresponding regulation strategies in <i>Phaffia rhodozyma</i>

Haoyi Yang, Liang Yang, Xiping Du, Ning He, Zedong Jiang, Yanbing Zhu, Lijun Li, Hui Ni, Qingbiao Li, Zhipeng Li

2023Yeast14 citationsDOI

Abstract

Astaxanthin is a valuable carotenoid and is used as antioxidant and health care. Phaffia rhodozyma is a potential strain for the biosynthesis of astaxanthin. The unclear metabolic characteristics of P. rhodozyma at different metabolic stages hinder astaxanthin's promotion. This study is conducted to investigate metabolite changes based on quadrupole time-of-flight mass spectrometry metabolomics method. The results showed that the downregulation of purine, pyrimidine, amino acid synthesis, and glycolytic pathways contributed to astaxanthin biosynthesis. Meanwhile, the upregulation of lipid metabolites contributed to astaxanthin accumulation. Therefore, the regulation strategies were proposed based on this. The addition of sodium orthovanadate inhibited the amino acid pathway to increase astaxanthin concentration by 19.2%. And the addition of melatonin promoted lipid metabolism to increase the astaxanthin concentration by 30.3%. It further confirmed that inhibition of amino acid metabolism and promotion of lipid metabolism were beneficial for astaxanthin biosynthesis of P. rhodozyma. It is helpful in understanding metabolic pathways affecting astaxanthin of P. rhodozyma and provides regulatory strategies for metabolism.

Topics & Concepts

AstaxanthinBiochemistryBiosynthesisPyrimidine metabolismBiologyMetabolomeMetabolomicsMetabolic pathwayCarotenoidAmino acidMetabolismMetaboliteLipid metabolismPurineEnzymeBioinformaticsAntioxidant Activity and Oxidative StressPhotosynthetic Processes and MechanismsAlgal biology and biofuel production
Metabolomics of astaxanthin biosynthesis and corresponding regulation strategies in <i>Phaffia rhodozyma</i> | Litcius