Alternative fertilizer-based growth media support high lipid contents without growth impairment in Scenedesmus obliquus BR003.

Nitrogen (N) sources have been target in microalgae cultivation studies, considering their nutritional impact on growth and high costs. Here, we have evaluated the growth of Scenedesmus obliquus BR003, applying alternative low-cost culture media containing ammonium and urea, or combinations of both N sources. The culture media were applied for indoor and outdoor cultivation, followed by growth analyses and metabolic characterization. The alternative culture media B4 and L4 supported higher biomass production (1.4 g L-1) compared to BG11 (nitrate-based medium). In addition, the lipid percentage was higher for B4 (ammonium-based culture medium), reaching up to 25% DW. High contents of carbohydrates (60%) and proteins (40%) were also obtained in media with ammonium and urea, respectively. Considering the lower costs of alternative fertilizer-based media, using ammonium and/or urea as N sources, and the high lipid content observed, we suggest these media as viable for large-scale production of S. obliquus.

Terminal repeat retrotransposons as DNA markers in fungi.

In this study, we demonstrate that ClIRAP primers designed using the transposable element RetroCl1 sequence from Colletotrichum lindemuthianum can be used to generate an efficient IRAP (inter-retrotransposon amplified polymorphism) molecular marker to study intra- and inter-species diversity in fungi. It has been previously demonstrated that primers generated from this TRIM-like element can be used in the Colletotrichum species. We now prove that the RetroCl1 sequence can also be used to analyze diversity in different fungi. IRAP profiles were successfully generated for 27 fungi species from 11 different orders, and intra-species genetic variability was detected in six species. The ClIRAP primers facilitate the use of the IRAP technique for a variety of fungi without prior knowledge of the genome.