Monday, April 19, 2010
4-12
Twice CO2 fixation in a novel photosynthesis-fermentation model enhances algal lipid synthesis for fuels
Qingyu Wu and Wei Xiong. School of Life Sciences, Tsinghua University, Tsinghua Yuan, Beijing, 100084, China
Abstract: Microalgae, the light-driven cell factory, represents a biomass and renewable resource for liquid bio-fuel production. In this study, a novel photosynthesis-fermentation model was created to merge the positive aspects of autotrophs and heterotrophs. Microalga Chlorella protothecoides was grown autotrophically for CO2 fixation and then metabolized heterotrophically for oil accumulation. Compared to typical heterotrophic metabolism, 69% higher lipid yield on glucose was achieved at the fermentation stage in the photosynthesis-fermentation model. An elementary flux mode study suggested that the enzyme Rubisco catalyzed CO2 re-fixation, enhancing carbon efficiency from sugar to oil. This result may explain the higher lipid yield. In this new model, 61.5% less CO2 was released compared with typical heterotrophic metabolism. Immunoblotting and activity assay further showed that Rubisco functioned in sugar bleaching cells at the fermentation stage. Overall, the photosynthesis-fermentation model with double CO2 fixation in both photosynthesis and fermentation stages, enhances carbon conversion ratio of sugar to oil and thus provides an efficient approach for the production of algal lipid and liquid bio-fuels.
Keywords: Carbon fixation, Metabolism Engineering, Elementary flux mode, Microalgal lipid and biodiesel, Photosynthesis-fermentation model, Rubisco
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See more of The 32nd Symposium on Biotechnology for Fuels and Chemicals (April 19-22, 2010)
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See more of The 32nd Symposium on Biotechnology for Fuels and Chemicals (April 19-22, 2010)