Mechanism of nanomaterial-induced lipid droplet formation in Raphidocelis subcapitata is mediated by charge properties
Emma McKeel, Hye-In Kim, Su-Ji Jeon, Britta McKinnon, Juan Pablo Giraldo, Rebecca Klaper

TL;DR
This study explores how charged nanoparticles affect lipid production in algae, which could help improve biofuel production.
Contribution
The study reveals that the surface charge of carbon dots influences lipid droplet formation in Raphidocelis subcapitata.
Findings
Positively charged carbon dots increase lipid content but reduce growth in R. subcapitata.
Negatively charged carbon dots mimic the effects of nitrogen deprivation, increasing lipid content.
The lipid metabolism of R. subcapitata is influenced by the surface charge of carbon dots.
Abstract
Increasing the production of renewable energy will be critical to achieving global sustainability goals in the coming decades. Biofuels derived from microalgae have great potential to contribute to this production. However, cultivating algae with sufficient neutral lipid content, while maintaining high growth rates, is a continual challenge in making algal-derived biofuels a reality. Previous work has shown that exposure to polymer-functionalized carbon dots can increase the lipid content of the microalgae Raphidocelis subcapitata. This study investigates this finding, aiming to determine the mechanisms underlying this effect and if altering nanoparticle surface charge mediates the mechanism of action of the carbon dots used. Carbon dots with both negative and positive surface charges were added to microalgal cultures, and the impacts of this exposure were analyzed using high-content…
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Taxonomy
TopicsAlgal biology and biofuel production · Photosynthetic Processes and Mechanisms · Lipid metabolism and biosynthesis
