Synchronous enhancement of astaxanthin and lipid accumulation in Haematococcus lacustris through co-mutation of ethanol and atmospheric and room temperature plasma: Exploration of characteristics and underlying mechanisms

[Display omitted] •ARTP-ethanol co-mutation for synchronous enhancement of lipid and astaxanthin.•Improved key enzyme activity, gene expression for lipid and astaxanthin biosynthesis.•Elucidated mechanisms of lipid and astaxanthin accumulation by ARTP and ethanol.•Upregulation of genes nubpl, Abcc2,...

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Bibliographic Details
Published in:Bioresource technology 2024-02, Vol.394, p.130305-130305, Article 130305
Main Authors: Ma, Yihua, Sun, Xin, Sun, Youreng, Li, Haoyang, Li, Hongwei, Jiao, Xiangfei
Format: Article
Language:English
Subjects:
Astaxanthin
Co-mutation
Haematococcus lacustris
Lipid
Mechanisms
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Summary:[Display omitted] •ARTP-ethanol co-mutation for synchronous enhancement of lipid and astaxanthin.•Improved key enzyme activity, gene expression for lipid and astaxanthin biosynthesis.•Elucidated mechanisms of lipid and astaxanthin accumulation by ARTP and ethanol.•Upregulation of genes nubpl, Abcc2, PAO related to lipid and astaxanthin accumulation. Haematococcus lacustris is a precious algal species renowned for its ability to simultaneous production of astaxanthin and lipid. However, its slow growth rate necessitates the development of appropriate mutagenesis methodologies to effectively enhance its synchronous production of both astaxanthin and lipid. This study introduced the co-mutation of Atmospheric and Room Temperature Plasma (ARTP) and ethanol. The performance and preliminary mechanisms underlying the combined accumulation of astaxanthin and lipid in H. lacustris under both mutations by ARTP and ethanol were comparatively analyzed. Combined astaxanthin and lipid contents relative to total cell mass in the 110–2 strain reached 54.4%, surpassing that of strain 0–3 and the control by 17.0% and 47.6% respectively. Transcriptome level analysis revealed how both ethanol and ARTP induction promote the expressions of carotenoid and lipid synthesis genes and related enzymatic activities. Upregulation of genes associated with cell activity contributed to lipid and astaxanthin metabolism in multi pathways.
ISSN:0960-8524
1873-2976
DOI:10.1016/j.biortech.2024.130305