Jianhua Fan

TL;DR: This study provided not only a comprehensive picture of adaptive mechanisms from physiological perspective, but also a number of targeted genes that can be used for a systematic metabolic engineering.

TL;DR: The first genetic transformation in industrial oleaginous C. pyrenoidosa is established, and overexpression of an NAD(H) kinase from Arabidopsis (Arabidopsis thaliana) increased cellular lipid content by 110.4%, yet without reducing growth rate, providing a foundation for exploiting the metabolic switch in microalgae for improved photosynthetic production of food and fuels.

TL;DR: Correlation analysis of algal growth rate with the characteristics of mixing and light regime shows the key factors affecting algal photoautotrophic growth are liquid velocity along the light gradient and L/D cycles rather than the macro-mixing degree.

TL;DR: The proposed strategy provided an effective approach for microalgal biomass production to meet the urgent need for both health food and biodiesel.

TL;DR: This study indicated that, raising the daytime or night temperature could stimulate night accumulation of astaxanthin until temperature up to 28°C; the night biomass loss increased firstly and then decreased along with the daytime temperature reducing; decreasing the night temperature can lessen day biomass loss and the outdoor culture strategy has been improved.