Wei, Li Hajjami, Mohamed El Shen, Chen You, Wuxin Lu, Yandu Li, Jing Jing, Xiaoyan Hu, Qiang Zhou, Wenxu Poetsch, Ansgar Xu, Jian MOESM2 of Transcriptomic and proteomic responses to very low CO2 suggest multiple carbon concentrating mechanisms in Nannochloropsis oceanica Additional file 2: Figure S2. Growth curves and photosynthetic efficiency of N. oceanica IMET1 cells under VLC and HC conditions. (A) Growth curve of Nannochloropsis under two CO2 concentrations. The y-axis presents the average optical densities of triplicate algal cultures at 750 nm at each time point. Data are averages of at least three independent experiments (error bars represent standard deviations). (B) Maximum quantum efficiency (Fv/Fm) and active activity (Fv’/Fm’) of Photosystem II under VLC and HC conditions. The sharp decrease in Fv/Fm observed at 3h might be caused by short-term acclimation of the microalga to low carbon. (C) Change in concentration of total dissolved inorganic carbon (DIC) in the medium under VLC and HC conditions. The rapid increase in DIC for cells cultivated under HC was due to the start of aeration with 5% CO2. Carbon fixation;Carbon concentrating mechanism (CCM);C4-like cycle;Industrial oleaginous microalgae;Nannochloropsis oceanica 2019-06-28
    https://springernature.figshare.com/articles/presentation/MOESM2_of_Transcriptomic_and_proteomic_responses_to_very_low_CO2_suggest_multiple_carbon_concentrating_mechanisms_in_Nannochloropsis_oceanica/8357444
10.6084/m9.figshare.8357444.v1