Publications by authors named "T Catalina Adarme-Vega"
Article Synopsis
- Researchers studied Tetraselmis sp. M8 to understand how lipid pathways contribute to rapid triacylglyceride buildup after nitrogen exhaustion.
- RNA-Seq and real-time PCR showed a significant change in gene expression related to fatty acid/triacylglyceride production and breakdown during different growth phases.
- The findings suggest that increased lipid accumulation occurs due to reduced breakdown of lipids and enhanced production during the stationary phase, independent of the DGAT gene, which is typically important for lipid storage.
With the depletion of global fish stocks, caused by high demand and effective fishing techniques, alternative sources for long chain omega-3 fatty acids are required for human nutrition and aquaculture feeds. Recent research has focused on land-based cultivation of microalgae, the primary producers of omega-3 fatty acids in the marine food web. The effect of salinity on fatty acids and related gene expression was studied in the model marine microalga, Tetraselmis sp.
View Article and Find Full Text PDFOmega-3 fatty acids eicosapentaenoic acid (EPA) and docohexaenoic acid (DHA), provide significant health benefits for brain function/development and cardiovascular conditions. However, most EPA and DHA for human consumption is sourced from small fatty fish caught in coastal waters and, with depleting global fish stocks, recent research has been directed towards more sustainable sources. These include aquaculture with plant-based feeds, krill, marine microalgae, microalgae-like protists and genetically-modified plants.
View Article and Find Full Text PDFMicroalgae cells have the potential to rapidly accumulate lipids, such as triacylglycerides that contain fatty acids important for high value fatty acids (e.g., EPA and DHA) and/or biodiesel production.
View Article and Find Full Text PDFOmega-3 fatty acids eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) provide significant health benefits and this has led to an increased consumption as dietary supplements. Omega-3 fatty acids EPA and DHA are found in animals, transgenic plants, fungi and many microorganisms but are typically extracted from fatty fish, putting additional pressures on global fish stocks. As primary producers, many marine microalgae are rich in EPA (C20:5) and DHA (C22:6) and present a promising source of omega-3 fatty acids.
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