Process monitoring is one of the most important factors affecting production efficiency at industrial scale bioprocesses. In the present work, Flow-cytometric analysis has been employed to monitor and determine neutral lipid cell droplets, granularity and size of the cells of the new oleaginous yeast, Cryptococcus aerius UIMC65. It has been shown that, differences of fluorescent intensity as well as side and forward scatter light properties have close correlations with the differences in lipid production by these yeast cells. The lipid content-related fluorescent intensity versus forward scatter parameter has been used to monitor and compare different subpopulations during growth phases on both glucose and xylose in batch cultures. Flow cytometric results have revealed that the observed differences in the proportion of each subpopulation were related to the specific growth phase and lipid content of the cells. The highest lipid content and lipid productivity were attained at 82.62%, 4.47 g/L (at 72 h) and 78.41%, 6.21 g/L (at 60 h) on glucose and xylose growth cultures, respectively. The highest biomass, lipid yield and biomass yield were found to be 7.92 g/L (on glucose culture, at 60 h), 20.92% (on glucose culture, at 48 h) and 50.71% (on glucose culture, at 24 h), respectively.

• 出版日期2014-6