1. Analysis of population structures of the microalga Acutodesmus obliquus during lipid production using multi-dimensional single-cell analysis
- Author
-
Michael Sandmann, Michaela Schafberg, Sascha Rohn, and Martin Lippold
- Subjects
Chlorophyll ,0301 basic medicine ,Population ,lcsh:Medicine ,Article ,Cell size ,03 medical and health sciences ,chemistry.chemical_compound ,Single-cell analysis ,Algae ,Microalgae ,Acutodesmus ,Food science ,lcsh:Science ,education ,Cell Size ,education.field_of_study ,Biodiesel ,Multidisciplinary ,biology ,Chemistry ,lcsh:R ,Lipid Metabolism ,biology.organism_classification ,Lipids ,030104 developmental biology ,Microscopy, Fluorescence ,Multi dimensional ,lcsh:Q ,Single-Cell Analysis ,Biotechnology - Abstract
Microalgae bear a great potential to produce lipids for biodiesel, feed, or even food applications. To understand the still not well-known single-cell dynamics during lipid production in microalgae, a novel single-cell analytical technology was applied to study a well-established model experiment. Multidimensional single-cell dynamics were investigated with a non-supervised image analysis technique that utilizes data from epi-fluorescence microscopy. Reliability of this technique was successfully proven via reference analysis. The technique developed was used to determine cell size, chlorophyll amount, neutral lipid amount, and deriving properties on a single-cellular level in cultures of the biotechnologically promising alga Acutodesmus obliquus. The results illustrated a high correlation between cell size and chlorophyll amount, but a very low and dynamic correlation between cell size, lipid amount, and lipid density. During growth conditions under nitrogen starvation, cells with low chlorophyll content tend to start the lipid production first and the cell suspension differentiated in two subpopulations with significantly different lipid contents. Such quantitative characterization of single-cell dynamics of lipid synthesizing algae was done for the first time and the potential of such simple technology is highly relevant to other biotechnological applications and to deeper investigate the process of microalgal lipid accumulation.
- Published
- 2018