TY - JOUR
T1 - Cell diameter doesn't affect lipid productivity of Chlorococcum littorale
AU - Dominguez Teles, I.
AU - Gomes Sanches Fernandes, Carolina
AU - Kleinegris, Dorinde M.M.
AU - Wijffels, René H.
AU - Barbosa, Maria J.
PY - 2016
Y1 - 2016
N2 - We hypothesized that cells with different diameter have different division rates, which could affect lipid productivity (lipid content. ×. biomass productivity). In the present work we assessed the influence of cell diameter, as a sorting parameter, on both biomass and lipid productivity of Chlorococcum littorale. Prior to sorting, cells were grown in a batch-wise nitrogen run-out including a long nitrogen depleted phase (N. -) to stop cell division, thus only having vegetative cells (Pre-sorting). Cell sorting was done at the end of this N. - phase using FACS (fluorescence assisted cell sorting) based on forward scatter as a proxy for diameter (size ranges (μm): 5-6 (small), 8-9 (medium), 11-14 (large) and 5-14 (control)). The sorting was done in 2 pools: multiple-cell (100 cells) and single-cell. After sorting, cells were recovered under low-light for 2. weeks, and used to start the Post-sorting experiment (analogous to Pre-sorting). The populations derived from different sorted pools, single-cell and multiple-cell, showed similar size distributions after re-growth. No difference was observed in biomass and lipid productivities among Post-sorting cells and when compared to Pre-sorting cells under nitrogen depletion. We concluded that cellular size had no effect on both biomass and lipid productivity of C. littorale.
AB - We hypothesized that cells with different diameter have different division rates, which could affect lipid productivity (lipid content. ×. biomass productivity). In the present work we assessed the influence of cell diameter, as a sorting parameter, on both biomass and lipid productivity of Chlorococcum littorale. Prior to sorting, cells were grown in a batch-wise nitrogen run-out including a long nitrogen depleted phase (N. -) to stop cell division, thus only having vegetative cells (Pre-sorting). Cell sorting was done at the end of this N. - phase using FACS (fluorescence assisted cell sorting) based on forward scatter as a proxy for diameter (size ranges (μm): 5-6 (small), 8-9 (medium), 11-14 (large) and 5-14 (control)). The sorting was done in 2 pools: multiple-cell (100 cells) and single-cell. After sorting, cells were recovered under low-light for 2. weeks, and used to start the Post-sorting experiment (analogous to Pre-sorting). The populations derived from different sorted pools, single-cell and multiple-cell, showed similar size distributions after re-growth. No difference was observed in biomass and lipid productivities among Post-sorting cells and when compared to Pre-sorting cells under nitrogen depletion. We concluded that cellular size had no effect on both biomass and lipid productivity of C. littorale.
KW - Biomass productivity
KW - Cell diameter
KW - Cell sorting (FACS)
KW - Chlorococcum littorale
KW - Lipid productivity
KW - Microalgae
U2 - 10.1016/j.algal.2016.02.002
DO - 10.1016/j.algal.2016.02.002
M3 - Article
AN - SCOPUS:84964510030
SN - 2211-9264
VL - 19
SP - 333
EP - 341
JO - Algal Research
JF - Algal Research
ER -