The halotolerant green microalga Dunaliella salina is one of the richest sources of carotenoids, especially all-trans- and 9-cis -carotene. Dunaliella parva UTEX 1983, on the other hand, showed a growth rate pattern very different from those of their conspecifics and similar to those of D. viridis CONC 002 and D. salina … Maris Sal (Dead Sea Salts), Prunus Amygdalus Dulcis (Sweet Almond) Oil, Triticum Vulgare (Wheat) Germ Oil, Parfum, Helianthus Annuus (Sunflower) Seed Oil, Dunaliella Salina Extract (Seaweed), Propylene Glycol, CI16035, CI Powered by Dunaliella Salina Algae, one of the only living things able to survive the most-saline waters on Earth, innovative Peel-Off Mask revives and nourishes stressed and tired skin. Algaefeed© Dunaliella Dunaliella Salina is an orange microalgae that lives in the salt and accumulates high concentrations of beta-carotene to survive in adverse conditions. In general, Dunaliella salina species are ubiquitous in saline environments, and often multiple species occur in the same habitat. Some strains are noncarotenogenic while other strains may respond differently to applied growth conditions and produce enhanced carotenoid levels. Rich Natural Biomass Australian Marine Phytoplankton is an edible soft wall nutrient-dense marine microalgae made from 100% pure whole dried Dunaliella salina biomass.Dunaliella salina is renowned as being one of nature’s richest sources of dietary mixed carotenoids and contains a large array of important daily nutrients known to support good health and vitality. Liver fibrosis was induced by TAA (200mg/kg; i.p.) Dunaliella salina cells show this distinct difference in red and green fluorescence pattern between non-stressed and stressed cells.” (Kleinegris et al. Dunaliella salina, a The algal cell culture was allowed to grow at 23 ± 2 °C (light/dark cycle of 16 h/8 h, under fluorescent white light with 40.5 μmol m −2 s −1 photon density, along with the necessary nutrients (Supplementary Table S1). salina) on thioacetamide- (TAA-) induced liver fibrosis in rats. 2010:648) Journal article Carotenoid fluorescence in Dunaliella salina J Appl Phycol February 16, 2010 It produces a distinct pink and red colour often characteristic of saltern ponds [2] . According Dunaliella algae are packed with health-promoting nutrients. [9] [10] [6] The pigment is exploited for a variety of uses such as cosmetics, natural food-colouring agents, nutritional supplements, and animal feed. Antioxidants 2019, 8, 123 2 of 14 from the harmful e ects of excess exposure to light by permitting triplet–triplet energy transfer from chlorophyll to carotenoid and by quenching reactive oxygen species (ROS) [2]. The present study aimed to evaluate the antifibrotic curative effect of Dunaliella salina (D. The marine algae used in our study Dunaliella salina was procured from CMFRI (Tamil Nadu, India). Dunaliella salina is a microalgae occurring naturally in a number of locations worldwide. One of the discovered providers was Dunaliella tertiolecta Dunaliella salina microalgae are the best source of natural mixed carotenoids which include beta- carotene, alpha-carotene, zeaxanthin, lutein and cryptoxanthin. Liver fibrosis represents a serious global health-care problem and is the outcome of many chronic liver diseases, cirrhosis, hepatitis, and toxin accumulation. Dunaliella salina orange-colored water of the salt lake Sivash. Its isolation from algae in the achieved purity was demonstrated for the first time in this project. 1 Article 2 Carotenoid production by Dunaliella salina in red 3 light 4 Yanan Xu and Patricia J. Harvey * 5 University of Greenwich, Faculty of Engineering and Science, Central Avenue, Chatham Maritime, Kent, ME4 6 4TB, UK 7 * Correspondence: [email protected]; Tel. Applications: Dunaliella Salina is a photosynthetic cell requiring sunlight to live; it is highly tolerant of UV radiation due to the photo-protective characteristics of the carotenes it contains. β-carotene and lutein are major carotenoids of . This broad distribution of species of the genus Dunaliella salina may be contributed to their tolerance to a wide range of salinities, light intensities, and temperatures as well as their ability to survive for many years among salt crystals. 642 Indian Journal of Pharmaceutical Sciences November - December 2013 *Address for correspondence E-mail: [email protected] Hepatoprotective and Antioxidant Activity of Dunaliella salina in Paracetamol-induced was more sensitive to TiO 2 NPs than Dunaliella salina. Among the two species, Chlorella sp. Lea Salonga is using her influence to disseminate information on a harmful post seemingly targeting people with epilepsy. Known for its antioxidant activity because of its ability to create large amount of carotenoids , it is used in cosmetics and dietary supplements . The EC 50 value of 2 : +44-20-8331-9972 In the marine environment, D. salina appears green, however, in conditions of high salinity and light intensity, the microalgae turns red due to the production of protective carotenoids in the cells [11] . Michel Felix Dunal first discovered "D. salina" in 1838 in the south of France occupying; however, it was not named until 1905 by Teodoresco [1] . Dunaliella salina is a suitable source for commercial production of beta-carotene and preferentially accumulates 9-cis-isomer which functions as a carbon sink. AHAVA Dead Sea Laboratories announced the global launch of its latest skincare innovation, the new Dunaliella Algae Refresh & Smooth Peel-Off Mask, to revive and nourish stressed skin. specifically Dunaliella salina, at least at the moment. Economically, Dunaliella, particularly D. salina and D. bardawil, serves great value due to its high accumulation of β-carotenoids. The different working concentrations of TiO 2 NPs, 0.1, 1, and 10 mg L-1, were selected based on the EC 50 value. Dunaliella is a unique unicellular species of algae containing rich . According to Raja et al. Dunaliella salina is nature's richest source of natural beta-carotene, each gram contains around10-20mg of beta-carotene, plus other carotenoids and nutrients.Research … The unmatched carotenoid content of Dunaliella provides a wide range of health-supporting effects. Many unexplained fish-kills in British waters are considered microbial in origin and a large proportion of field sites contains elevated concentrations of filamentous actinobacteria. Hence, the most common method for the commercial production of natural beta-carotene is the massive cultivation of D. salina ( 4 ). Dunaliella salina is nature’s richest source of dietary beta-carotene and mixed carotenoids. was more sensitive to TiO 2 NPs than . Dunaliella salina contains a potent mixture of important carotenoids, includ- ing: betacarotene, alpha-carotene, lutein, zeaxanthin, and Dunaliella grows best when exposed to a light intensity of 60 W/M² for 16 hours per day. The present study has shown that a strain of Streptomyces griseus, isolated from field sites, elicits pathological ch … Dunaliella salina is a type of halophile green micro- algae especially found in sea salt fields. Dunaliella salina is a unicellular green alga found in environments with high salt concentration . Dunaliella salina can tolerate a variety of environmental stresses, and is able to accumulate a beta-carotene percentage of up to 10% of its dry weight (). Enhancement of Dunaliella salina growth by using wavelength shifting dyes Hatice Burak1,2 & Alan Dunbar1 & D. James Gilmour2 Received: 14 January 2019 /Revised and accepted: 3 May 2019 /Published online: 24 May 2019 # The Dunaliella salina is a halophillic eukaryote with two flagella. Dunaliella salina and Iodine in search of Thyroxine Purpose: Certain sea-water invertebrates are affected by Thyroid-like Hormones, most of which are provided for by their food. Dunaliella salina cells are the richest known source of dietary beta-carotene, typically comprising 8 – 10% of its dry weight (and sometimes higher). The Journal of Phycology was founded in 1965 by the Phycological Society of America. Apart from the mixture of carotenoids, the micro-algae also possess Among the two species, Chlorella sp. It needs strong light to thrive as it undergoes photosynthesis. Under these circumstances, a novel health bene-fit can be delivered by a future Dunaliella salina is the popular microalga for β-carotene production. Therefore, the present study investigates the differences in sensitivity of two marine algae, Dunaliella salina and Chlorella sp., towards P25 TiO 2 NPs. However, it will also accumulate … There is still a growing demand for the best strain identification and growth conditions optimization for maximum carotenoids production. In a tweet, Lea surmised there might be some "malicious intention" on the part of those responsible for the spread of the video, which displays strobe lighting. The green alga Dunaliella salina can accumulate high amount of β-carotene which is more than 14% of its dry weight in its cup shaped chloroplast when subjected to abiotic stresses.