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  • A multi-omic characterization of temperature stress in a halotolerant Scenedesmus strain for algal biotechnology.

A multi-omic characterization of temperature stress in a halotolerant Scenedesmus strain for algal biotechnology.

Communications biology (2021-03-14)
Sara Calhoun, Tisza Ann Szeremy Bell, Lukas R Dahlin, Yuliya Kunde, Kurt LaButti, Katherine B Louie, Andrea Kuftin, Daniel Treen, David Dilworth, Sirma Mihaltcheva, Christopher Daum, Benjamin P Bowen, Trent R Northen, Michael T Guarnieri, Shawn R Starkenburg, Igor V Grigoriev
ABSTRACT

Microalgae efficiently convert sunlight into lipids and carbohydrates, offering bio-based alternatives for energy and chemical production. Improving algal productivity and robustness against abiotic stress requires a systems level characterization enabled by functional genomics. Here, we characterize a halotolerant microalga Scenedesmus sp. NREL 46B-D3 demonstrating peak growth near 25 °C that reaches 30 g/m2/day and the highest biomass accumulation capacity post cell division reported to date for a halotolerant strain. Functional genomics analysis revealed that genes involved in lipid production, ion channels and antiporters are expanded and expressed. Exposure to temperature stress shifts fatty acid metabolism and increases amino acids synthesis. Co-expression analysis shows that many fatty acid biosynthesis genes are overexpressed with specific transcription factors under cold stress. These and other genes involved in the metabolic and regulatory response to temperature stress can be further explored for strain improvement.

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Millipore
Sea salts, NutriSelect® Basic
Sigma-Aldrich
Methylenediphosphonic acid, ≥99%
Sigma-Aldrich
Cell Free Amino Acid Mixture - 13C,15N, 5-100 mM in water, 98 atom % 15N, 98 atom % 13C
Sigma-Aldrich
2-Amino-3-bromo-5-methylbenzoic acid, 97%