Coproduction of lipids and carotenoids by the novel green alga Coelastrella sp. depending on cultivation conditions

•Lipid/carotenoid production by Coelastrella sp. D3-1 was characterised.•Triacylglycerol, echinenone, canthaxanthin, and astaxanthin were found at red stage.•Cells were resistant to pH 211, 4060 °C, UV irradiation, drought, and H2O2.•Cell extracts showed antioxidant and anti-inflammatory properties....

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Published inBiotechnology reports (Amsterdam, Netherlands) Vol. 37; p. e00769
Main Authors Saito, Mizuki, Watanabe, Haruka, Sasaki, Mitsuki, Ookubo, Madoka, Yarita, Takashi, Shiraiwa, Masakazu, Asayama, Munehiko
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.03.2023
Elsevier
Subjects
Biorefinery
Carotenoid
Coelastrella
Dual production
Lipid
Coelastrella
Dual production
Biorefinery
Carotenoid
Lipid
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Abstract •Lipid/carotenoid production by Coelastrella sp. D3-1 was characterised.•Triacylglycerol, echinenone, canthaxanthin, and astaxanthin were found at red stage.•Cells were resistant to pH 211, 4060 °C, UV irradiation, drought, and H2O2.•Cell extracts showed antioxidant and anti-inflammatory properties.•Coelastrella sp. D3-1 and the derivatives are useful biorefinery materials. A novel green alga Coelastrella sp. D3–1 was isolated, and its unique and significant lipid and carotenoid coproduction capability was characterised depending on cultivation conditions. The main component of produced lipids was triacylglycerol under nutrient depletion conditions, in which fatty-methyl-esters made up 20−44% of the dry cell weight (DCW) and consisted of abundant C16:0 and C18:1 fatty acids. The red (orange)-stage cells also produced a large portion of carotenoids (38.5% of the DCW) involving echinenone, canthaxanthin, and astaxanthin as major components accumulated over only 5–6 days under optimal conditions. Stress tests revealed resistance of the cells to pH 2–11, high temperatures (40–60 °C), ultraviolet irradiation, drought, and H2O2 treatment, thereby showing a robust nature. Both green- and red (orange)-stage cell extracts also showed antioxidant and anti-inflammatory abilities, implying that they have significant functions as useful biorefinery materials.
AbstractList A novel green alga Coelastrella sp. D3–1 was isolated, and its unique and significant lipid and carotenoid coproduction capability was characterised depending on cultivation conditions. The main component of produced lipids was triacylglycerol under nutrient depletion conditions, in which fatty-methyl-esters made up 20−44% of the dry cell weight (DCW) and consisted of abundant C16:0 and C18:1 fatty acids. The red (orange)-stage cells also produced a large portion of carotenoids (38.5% of the DCW) involving echinenone, canthaxanthin, and astaxanthin as major components accumulated over only 5–6 days under optimal conditions. Stress tests revealed resistance of the cells to pH 2–11, high temperatures (40–60 °C), ultraviolet irradiation, drought, and H2O2 treatment, thereby showing a robust nature. Both green- and red (orange)-stage cell extracts also showed antioxidant and anti-inflammatory abilities, implying that they have significant functions as useful biorefinery materials.
• Lipid/carotenoid production by Coelastrella sp. D3-1 was characterised. • Triacylglycerol, echinenone, canthaxanthin, and astaxanthin were found at red stage. • Cells were resistant to pH 211, 4060 °C, UV irradiation, drought, and H 2 O 2 . • Cell extracts showed antioxidant and anti-inflammatory properties. • Coelastrella sp. D3-1 and the derivatives are useful biorefinery materials. A novel green alga Coelastrella sp. D3–1 was isolated, and its unique and significant lipid and carotenoid coproduction capability was characterised depending on cultivation conditions. The main component of produced lipids was triacylglycerol under nutrient depletion conditions, in which fatty-methyl-esters made up 20−44% of the dry cell weight (DCW) and consisted of abundant C16:0 and C18:1 fatty acids. The red (orange)-stage cells also produced a large portion of carotenoids (38.5% of the DCW) involving echinenone, canthaxanthin, and astaxanthin as major components accumulated over only 5–6 days under optimal conditions. Stress tests revealed resistance of the cells to pH 2–11, high temperatures (40–60 °C), ultraviolet irradiation, drought, and H 2 O 2 treatment, thereby showing a robust nature. Both green- and red (orange)-stage cell extracts also showed antioxidant and anti-inflammatory abilities, implying that they have significant functions as useful biorefinery materials.
A novel green alga sp. D3-1 was isolated, and its unique and significant lipid and carotenoid coproduction capability was characterised depending on cultivation conditions. The main component of produced lipids was triacylglycerol under nutrient depletion conditions, in which fatty-methyl-esters made up 20-44% of the dry cell weight (DCW) and consisted of abundant C16:0 and C18:1 fatty acids. The red (orange)-stage cells also produced a large portion of carotenoids (38.5% of the DCW) involving echinenone, canthaxanthin, and astaxanthin as major components accumulated over only 5-6 days under optimal conditions. Stress tests revealed resistance of the cells to pH 2-11, high temperatures (40-60 °C), ultraviolet irradiation, drought, and H O treatment, thereby showing a robust nature. Both green- and red (orange)-stage cell extracts also showed antioxidant and anti-inflammatory abilities, implying that they have significant functions as useful biorefinery materials.
•Lipid/carotenoid production by Coelastrella sp. D3-1 was characterised.•Triacylglycerol, echinenone, canthaxanthin, and astaxanthin were found at red stage.•Cells were resistant to pH 211, 4060 °C, UV irradiation, drought, and H2O2.•Cell extracts showed antioxidant and anti-inflammatory properties.•Coelastrella sp. D3-1 and the derivatives are useful biorefinery materials. A novel green alga Coelastrella sp. D3–1 was isolated, and its unique and significant lipid and carotenoid coproduction capability was characterised depending on cultivation conditions. The main component of produced lipids was triacylglycerol under nutrient depletion conditions, in which fatty-methyl-esters made up 20−44% of the dry cell weight (DCW) and consisted of abundant C16:0 and C18:1 fatty acids. The red (orange)-stage cells also produced a large portion of carotenoids (38.5% of the DCW) involving echinenone, canthaxanthin, and astaxanthin as major components accumulated over only 5–6 days under optimal conditions. Stress tests revealed resistance of the cells to pH 2–11, high temperatures (40–60 °C), ultraviolet irradiation, drought, and H2O2 treatment, thereby showing a robust nature. Both green- and red (orange)-stage cell extracts also showed antioxidant and anti-inflammatory abilities, implying that they have significant functions as useful biorefinery materials.
ArticleNumber e00769
Author Shiraiwa, Masakazu
Saito, Mizuki
Asayama, Munehiko
Sasaki, Mitsuki
Ookubo, Madoka
Yarita, Takashi
Watanabe, Haruka
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Keywords Coelastrella
Dual production
Biorefinery
Carotenoid
Lipid
Language English
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2022 The Author(s).
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Snippet •Lipid/carotenoid production by Coelastrella sp. D3-1 was characterised.•Triacylglycerol, echinenone, canthaxanthin, and astaxanthin were found at red...
A novel green alga sp. D3-1 was isolated, and its unique and significant lipid and carotenoid coproduction capability was characterised depending on...
• Lipid/carotenoid production by Coelastrella sp. D3-1 was characterised. • Triacylglycerol, echinenone, canthaxanthin, and astaxanthin were found at red...
A novel green alga Coelastrella sp. D3–1 was isolated, and its unique and significant lipid and carotenoid coproduction capability was characterised depending...
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StartPage e00769
SubjectTerms Biorefinery
Carotenoid
Coelastrella
Dual production
Lipid
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Title Coproduction of lipids and carotenoids by the novel green alga Coelastrella sp. depending on cultivation conditions
URI https://dx.doi.org/10.1016/j.btre.2022.e00769
https://www.ncbi.nlm.nih.gov/pubmed/36660172
https://search.proquest.com/docview/2768233583
https://pubmed.ncbi.nlm.nih.gov/PMC9843265
https://doaj.org/article/53dbe40aed0a4f448dc6423682069287
Volume 37
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