A symbiotic yeast to enhance heterotrophic and mixotrophic cultivation of Chlorella pyrenoidosa using sucrose as the carbon source
Autor: | Shi-Kai Wang, Yue-Hua Cui, Yong-Ting Tian, Xu Wang |
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Rok vydání: | 2020 |
Předmět: |
0106 biological sciences
Sucrose Heterotroph Carbohydrates Biomass Bioengineering Chlorella Saccharomyces cerevisiae Disaccharides 01 natural sciences chemistry.chemical_compound Industrial Microbiology Algae 010608 biotechnology Microalgae Chlorella pyrenoidosa Autotroph Food science Phylogeny Autotrophic Processes biology 010405 organic chemistry Chemistry Fatty Acids Monosaccharides Temperature Heterotrophic Processes General Medicine biology.organism_classification Lipids Yeast Carbon Coculture Techniques 0104 chemical sciences Biofuels Mixotroph Biotechnology |
Zdroj: | Bioprocess and biosystems engineering. 43(12) |
ISSN: | 1615-7605 |
Popis: | Heterotrophic or mixotrophic culture of microalgae is feasible alternative approach to avoid light limitation in autotrophic culture. However, only a few kinds of organic carbon sources are available for algal culture. Disaccharides, such as sucrose, are difficult to be utilized by microalgae under both heterotrophic and mixotrophic conditions. In this study, a symbiotic yeast was accidentally found in a contaminated algal suspension. The symbiotic yeast was isolated and identified as Cryptococcus sp. This yeast was able to extracellularly hydrolyze sucrose and accumulated monosaccharides in the medium. It can enhance algal growth using sucrose as the carbon source at both heterotrophic and mixotrophic modes when mix-cultured with Chlorella pyrenoidosa. The highest algal cell density of 118.8 × 106 and 151.2 × 106 cells/mL was achieved with a final algal percentage of 83.5 and 93.2% at heterotrophic and mixotrophic culture, respectively. Furthermore, the protein and lipid content was significantly enhanced by mix-culture C. pyrenoidosa with Cryptococcus YZU-1. The fatty acid accumulated in this co-culture system was suitable for the production of biodiesel. This symbiotic yeast solved the problem that C. pyrenoidosa cannot heterotrophically or mixotrophically utilize sucrose. A high algae density was obtained and the protein and lipid accumulation were also significantly enhanced. This study provided a novel approach for production of protein or lipid-rich biomass using sucrose or sucrose-rich wastes as the carbon source. |
Databáze: | OpenAIRE |
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