Strains of Tetraselmis, a genus with systematic and biotechnological interest and one of the most prominent genera in marine phytoplankton, were studied. Five strains of T. verrucosa f. rubens, a taxon first documented in coastal lagoons of Greece, are examined herein under a multivariate approach i.e. in relation to their morphological variability under light and transmission electron microscopy (LM and TEM, respectively), and taking into account certain molecular and biochemical attributes as taxonomic markers, including the plastid-encoded rbcL and nuclear-encoded 18S rRNA gene sequences, and the fatty acid profile. The molecular markers were used to verify the phylogenetic position of the strains within the genus Tetraselmis and the class Chlorodendrophyceae. For that purpose, the original Tetraselmis verrucosa f. rubens isolate (CCAP strain 66/6) was included in the analysis. The molecular data are in agreement with the classification based on morphology. The five strains grouped firmly together and formed a monophyletic group with the original T. verrucosa f. rubens isolate. Lipid analysis of the strains was performed using the FAME (Fatty Acid Methyl-Ester) method and the resulting profile might be used as an additional taxonomic marker.
The culture growth and carotenogenic activity of two Greek Dunaliella salina strains (AthU-Al D30 and AthU-Al D31) under stress conditions are investigated herein, with emphasis on β-carotene production as well as on lutein and zeaxanthin. In particular, the strains were cultivated in “standard” conditions (60 ‰ salinity and 1.18 M of NaNO3), under salinity stress conditions (160 ‰ salinity and 1.18 M of NaNO3) and under nitrogen deprivation conditions (60 ‰ salinity and 0 M of NaNO3). In addition to the two Greek strains, the D. salina CCAP 19/18 strain, which has been extensively studied regarding carotenogenesis, is included in this study as a reference. All three strains were found to produce increased amounts of β-carotene when cultivated under nitrogen deprivation conditions, while the AthU-Al D31 strain also produced high amounts of carotenoids under salt stress. The HPLC carotenoid profiles of the strains revealed reduced production of lutein in nitrogen deprivation conditions, coupled with a high production of β-carotene. The strains exhibited various responses in terms of carotenogenic activity, indicating an intraspecific variation in the metabolic reactions related to carotenogenesis.
In the pursuit of sustainable sources for food, energy, and health products, microalgae have gained attention. In the present study, the lagoonal system of the Nestos River delta was selected as a sampling point in order to search for opportunistic and robust species. Two new strains of Tetraselmis are described with regards to their taxonomic features (as observed using light and transmission electron microscopy and molecular phylogenetics) and their biochemical properties (total lipid, total protein, and total carbohydrate content, photosynthetic pigments, and antioxidant capacity). The studied strains were identified as representatives of Tetraselmis verrucosa f. rubens. Furthermore, both strains exhibited an interesting biochemical profile coupled with high growth rates and promising antioxidant activity, without the use of enhancement and induction culture methods, warranting further investigation and showing potential for biotechnological use.
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