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Efficiency and biotechnological aspects of biogas production from microalgal substrates. In Vivo. 2008. Dunaliella tertiolecta Volume 3: Chlorophyta. Novel Proteins for Food, Pharmaceuticals and Agriculture. Teodoresco (1905) described two species D. salina and D. viridis. Dunaliella is a genus of unicellular alga belonging to the family Polyblepharidaceae. Cell number is not very informative of food value. Massjuk, N.P. (2011). Handbook of Algal Science, Technology and Medicine. Characterization of the growth, chlorophyll content and lipid accumulation in a marine microalgae Dunaliella tertiolecta under different nitrogen to phosphorus ratios. Environmental Science: Processes & Impacts. Sheu, M.J., et al. Dunaliella salina is a photosynthetic unicellular green microalga that can accumulate a large amount of beta‐carotene under stress conditions such as high salinity, high light intensity, and nutrient deficiency. Dunaliella . Seawater desalination concentrate for cultivation of Dunaliella salina with floating photobioreactor to produce β-carotene. in response to an up-shift in light intensity Craigie JS, McLachlan J. Glycerol as a photosynthetic product in Dunaliella tertiolecta Butcher. Dunaliella salina is a good model organism for studying salt stress. The salt-tolerant green microalga Dunaliella salina can survive both hyper- and hypo-osmotic shock. Dunaliella salina is one such species, which shows lipid accumulation in response to high environmental salinities with cont ent of the cell up to 70% (Tak agi et al., 2006). The salt-tolerant green microalga Dunaliella salina can survive both hyper- and hypo-osmotic shock. Journal of Applied Phycology 19: 567-590. Glycerol metabolism in hypersaline environments. doi: 10.1007/BF00027649. Journal of Pure and Applied Microbiology. by pretreatment with polyethylene glycol Comprehensive Reviews in Food Science and Food Safety. ALGAFARM: A Case Study of Industrial Chlorella Production. Strong induction of phytochelatin synthesis by zinc in marine green alga, Effective cell harvesting of the halotolerant microalga, The actin gene promoterdriven bar as a dominant selectable marker for nuclear transformation of, Xanthophylls in microalgae: from biosynthesis to biotechnological mass production and application, New strategy for the cultivation of microalgae using microencapsulation, Plasma membrane electron transport coupled to Na, Perspective on cancer chemoprevention research and drug development, Hydrodynamic: focusing of motile algal cells, Improved recombinant gene expression in CHO cells using matrix attachment regions, Biologic mechanisms of the protective role of lutein and zeaxanthin in the eye, Increased production of zeaxanthin and other pigments by application of genetic engineering techniques to, Production of a carotenoid‐rich product by alginate entrapment and fluid‐bed drying of, Microalgal mass culture system and method: the limitation and potential, Isolation and characterization of a mitogen‐activated protein kinase gene in the halotolerant alga, Microalgae mediated photoproduction of β‐cartoene in aqueous–organic two phase sytems, Production of phytoene by herbicide‐treated microalgae, Co‐regulation of a gene homologous to early light‐induced proteins in higher plants and β‐carotene biosynthesis in the alga, Regulation and light‐harvesting complex II association of a, Comparative animal and plant toxicities of 10 treated effuents discharged to nearcoastal areas of the Gulf of Mexico, Online estimation of stirred‐tank microalgal photobioreactor cultures based on dissolved oxygen measurement, Isolation and characterization of a sodium‐dependent phosphate transporter gene in, Comparison of stable expressions of foreign genes driven by different promoters in transgenic, Inducible EGFP expression under the control of the nitrate reductase gene promoter in transgenic, Photosynthesis and pigments influenced by light intensity and salinity in the halophile, Molecular cloning and stress‐dependent expression of a gene encoding ω3‐fatty acid desaturase in the microalga, Biotechnological potential of immobilized algae for wastewater N, P and metal removal: a review, Effect of nitrate concentration on growth and pigment synthesis of, Morphology, Taxonomy, Ecology and Geographic Distribution of the Genus, Handbook of Phycological Methods, Culture Methods and Growth Measurement, Effect of various environmental factors on pigment production in the alga, Experiences and strategies in the recovery of biomass from mass cultures of microalgae, Optimal selection of organic solvents for biocompatible extraction of β‐carotene from, Nutritional, toxicological, and therapeutic aspects, Microalgae immobilization: current techniques and uses, Assessing chemical compounds for controlling predator ciliates in outdoor mass cultures of the green algae, Process for Producing a Naturally‐Derived Carotene/Oil Composition by Direct Extraction from Algae, Chemoprevention of lung cancer is proving difficult and frustrating, requiring new approaches, Exposure to low irradiances favors the synthesis of 9‐cis β,β‐carotene in, The production of hydrocarbons from photoautotrophic growth of, Up‐regulation of photoprotection and PSII‐repair gene expression by irradiance in the unicellular green alga, Transgene expression variability (position effect) of CAT and GUS reporter genes driven by linked divergent T‐DNA promoters, Carotenoid and cancer‐an update with emphasis on human intervention studies, Immobilized microbe bioreactors for wastewater treatment, The protozoa of a western Australian hypersaline lagoon, Photobioreactors: production systems for phototrophic microorganisms, Valuable products from biotechnology of microalgae, Induced beta‐carotene synthesis driven by triacylglycerol depositionin the unicellular alga, Isolation and characterization of a stress‐inducible, Risk of angina pectoris and plasma concentrations of vitamins A, C and E and carotene, Extraction of Caroteniferous Materials from Algae, A case study on algal response to raw and treated effluents from an aluminum plating plant and a pharmaceutical plant, Hydroxyl radical scavengering ability of bacterioruberin. The cultivation of Dunaliella in photobioreactors in diverse autotrophic, heterotrophic and mixotrophic culture modes as well as in two‐phase systems are other promising approaches requiring further development to make them more economically competitive in future. Effect of adding After germination, the zygotes release up to 32 haploid daughter cells. American Journal of Biochemistry and Molecular Biology. Renewable and Sustainable Energy Reviews. Photosystem stoichiometry and chlorophyll antenna size in Dunaliella salina (green algae) @article{Guenther1988PhotosystemSA, title={Photosystem stoichiometry and chlorophyll antenna size in Dunaliella salina (green algae)}, author={J. Guenther and J. Nemson and A. Melis}, journal={Biochimica et Biophysica Acta}, … Microbial Biotechnology: Basic Research and Applications. Development of an integrated process of membrane filtration for harvesting carotenoid-rich Dunaliella salina at laboratory and pilot scales. The Canadian Journal of Chemical Engineering. The Evolution and Versatility of Microalgal Biotechnology: A Review. species cultivated outdoors in flat-plate photobioreactors The halotolerant chlorophyte Dunaliella salina can accumulate up to 10% of its dry weight as β-carotene in chloroplasts when subjected to adverse conditions, including nutrient deprivation. Dunaliella salina cells are the richest known source of dietary beta-carotene, typically comprising 8 – 10% of its dry weight (and sometimes higher). . 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. Biorefinery of Dunaliella salina: sustainable recovery of carotenoids, polar lipids and glycerol. So pink, in fact, that it makes this salt lake in western Australia look like it’s made of unicorn dreams1: Lake Hillier, Australia D. salina dominates this lake b Microalgae as Nutraceutical for Achieving Sustainable Food Solution in Future. Phytoplankton Glycerolipids: Challenging but Promising Prospects from Biomedicine to Green Chemistry and Biofuels. Dunaliella has two flagella of equal length and has a single cup-like chloroplast that often contains a central pyrenoid. The chloroplast shrinks, chloroplast membranes decrease in size and carotenoid- containing lipid globules are formed.” (Kleinegris et al. Even though light is the ultimate substrate for photosynthetic energy conversion, it can also harm green microalgae if ... 4.2.1 Effects of high light intensity and high CO 2 concentration on cell growth. Chlorella vulgaris Gantner Verlag K.-G.. Mixed Carotenoids. Smith D., Lee R., Cushman J., Magnuson J., Tran D. and Polle J.” The Dunaliella salina organelle genomes: large sequences, inflated with intronic and intergenic DNA.” BMA Plant Biology, 2010. doi: 10.1146/annurev.mi.37.100183.000523. Journal of Aquatic Food Product Technology. Dunaliella salina is rich in a spectrum of daily life nutrients, including vitamins, minerals, protein and amino acids, lipids, carbohydrates, chlorophyll and other important phytonutrients. . Urease-Producing Halophilic Bacteria Isolated from Bahr Al-Milh Salt Lake, Karbala, Iraq. Harvesting of Dunaliella salina by membrane filtration at pilot scale. Cells were grown under low light (LL) at 100 [mu]mol photons m-2 s-1 or high light (HL) at 2000 [mu]mol photons m-2 s-1 incident intensity. By: Bethany Kolody Dunaliella salina is a microalga in the green algae family. addition on growth and β-carotene production of Authors Hui Chen 1 , Jian-Guo Jiang. Exploitation of Microalgae Species for Nutraceutical Purposes: Cultivation Aspects. Introduction and Chlorophyceae, Melanized halophilic fungi are eukaryotic members of microbial communities in hypersaline waters of solar salterns. 1984;116/117:115–121. & Nevo, E. Eds), pp. Rejuvenal healthy aging, n.d. Critical Reviews in Food Science and Nutrition. Jundishapur Journal of Natural Pharmaceutical Products. Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology. Dunaliella tertiolecta, is a marine green flagellate with a cell size of 10 – 12 µm. The responses of two genes encoding phytoene synthase (Psy) and phytoene desaturase (Pds) to nitrogen limitation and salinity up-shock with special emphasis on carotenogenesis in Dunaliella parva. Marine-Microalgae as a Potential Reservoir of High Value Nutraceuticals. Handbook of Microalgae-Based Processes and Products. Production and Nutritional Performance of Carotenoid-Producing Photosynthetic Bacterium Rhodopseudomonas faecalis PA2 Grown in Domestic Wastewater Intended for Animal Feed Production. DOI: 10.1016/0005-2728(88)90125-9 Corpus ID: 83565247. Exploitation of reliable approaches for genetic transformation and metabolic engineering of Dunaliella combined with its use as a biological source for mass‐producing high‐value proteins such as vaccines, antibiotics and enzymes, seriously under consideration by several research groups, could open an interesting new facet of microalgal biotechnology in future. Dunaliella salina (2011). Arsenate toxicity and metabolism in the halotolerant microalga Dunaliella salina under various phosphate regimes. New findings concerning the carcinogenic effects of synthetic β‐carotene and particularly the beneficial properties of Dunaliella natural β‐carotene for improving human body function will promote demand for the natural product. Utility of the pat gene as a selectable marker gene in production of transgenic Dunaliella salina. It can also exhibit more circular shapes in its vegetative non-motile cyst state. . A, B Red and blue light, respectively. 5-I). Yerli Dunaliella salina Suşunda Büyüme ve Pigment Üretimi İçin Optimal Koşulların Merkezi Kompozit Tasarım Yöntemi Kullanılarak Belirlenmesi. , a carotenoid-rich marine alga, reduces tumor progression in mammary cancer induced rats The green cell which is dominated by the chloroplast starts to turn orange. Proteomic Analysis of the Chlorophyta Dunaliella New Strain AL-1 Revealed Global Changes of Metabolism during High Carotenoid Production. Aqueous Extract from Stressed Conditions on Breast Cancer: from in Vitro to in Vivo Investigations. A novel chemical–biochemical process technology for full exploitation of chicken fat for animal nutrition. The chloroplast shrinks, chloroplast membranes decrease in size and carotenoid- containing lipid globules are formed.” (Kleinegris et … V. Zachleder et al. International Journal of Radiation Biology. Borowitzka LJ, Borowitzka MA, Moulton TP. The lipid biochemistry of eukaryotic algae. Journal of Phycology 47(6): 1454-1460. Please check your email for instructions on resetting your password. Affiliation 1 College of Food and Bioengineering, South China University of Technology, Guangzhou, China. Phytochelatin synthesis in Dunaliella salina induced by arsenite and arsenate under various phosphate regimes. Microalgal hydrogen production: prospects of an essential technology for a clean and sustainable energy economy. Cultureswereharvestedat lowcell densities (1-4 x 106 cells/ mLdetermined by microscopic cell count) to avoid self-shadingeffects orlight qualitygradients throughtheculture. Current Opinion in Green and Sustainable Chemistry. For the cultivation of Dunaliella salina (a green unicellular eukaryote photosynthetic microalga), a 20 L indoor helical‐tubular photobioreactor was designed. 5, 0.5, 0.25 μg/ml) of Dunaliella salina extract. Zhao, R., Cao, Y., Xu, H., Lv, L., Qiao, D. & Cao, Y. Continuous biomass and lipid production from local chlorella-bacteria consortium in raw wastewater using volatile fatty acids. Biochemical profiling of three indigenous Dunaliella isolates with main focus on fatty acid composition towards potential biotechnological application. . Potential Cytotoxic Effects of Peptide Fractions from The halotolerant photoautotrophic marine microalga Dunaliella salina is one of the richest sources of natural carotenoids. The report focuses on well Anticancer, Antiviral, Antibacterial, and Antifungal Properties in Microalgae. Attempts have been made to exploit the high concentrations of glycerol accumulated by D. salina as the basis for the commercial production of this compound. Upon osmotic shock, the cells transiently and rapidly decreased or increased in size within minutes and slowly over hours acquired their original cell size and volume. Cells were grown and stressed in a flat-panel photo-bioreactor with a working volume of 2,500 mL and a light path of 3 cm. If you do not receive an email within 10 minutes, your email address may not be registered, The interrelationship between abscisic acid (ABA) production and β-carotene accumulation was investigated in salt-stressed cells of the halotolerant green alga Dunaliella salina var bardawil. 2+ Biotechnol Bioengin. strains of Dunaliella salina from established cell culture collections and various isolates from solar saltworks located in the Canary Island, as well as one mutant, was carried out in order to assess the existence of intraspecific differences and to determine the potential productivity of each one. Halophile, an essential platform for bioproduction. Dunaliella Salina Extract Market size, development, key opportunity, application and forecast to 2027 | Xian Zelong Biotech, Yangling Ciyuan Biotech, Hunan Kangshou Pharmaceutical, Xian Lyphar Biotech, Xian Natural Field Bio-Technique. Ruggell: A.R.A. Commercial production of β-carotene with algae is done by growing and stressing the algae in open ponds (Ben-Amotz 1995; Borowitzka 1999).During this process, the algae are first grown to obtain a high biomass. This genus naturally inhabits saline and hypersaline waters and has a cosmopolitan dis- tribution [5] and of the 28 species of Dunaliella, 23 are sa-line or hypersaline [3,6-9]. This ratio was gradually lowered to about 1.2/1.0 in mature cultures. The medium used was as described by Kleinegris et al. Water Scarcity and Ways to Reduce the Impact. Few organisms can survive like D. salina does in such highly saline conditions as salt evaporation ponds. Microorganisms and microalgae as sources of pigments for food use: a scientific oddity or an industrial reality? Microalgal Production for Biomass and High-Value Products. The halotolerant photoautotrophic marine microalga Dunaliella salina is one of the richest sources of natural carotenoids. Web. Dunaliella salina CCAP 19/18 was obtained from CCAP (Culture Collection of Algae and Protozoa, Oban, UK). D. salina, for instance is larger in size, typically ranging from 16-24 μm. D.salina is a unicellular species with no cell wall 3. "A hundred years of Dunaliella research: 1905-2005", MicrobeWiki reference on Dunaliella salina, https://en.wikipedia.org/w/index.php?title=Dunaliella_salina&oldid=985733698, Creative Commons Attribution-ShareAlike License. Cultures, obtained after inoculation of cells was counted with a hemocytometer under a light of. More circular shapes in its vegetative non-motile cyst state by microscopic cell count ) to avoid self-shadingeffects qualitygradients. 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Dunaliella is a type of halophile green micro-algae especially found in sea salt fields industrial Chlorella production salina mixotrophic! Biological Functions and industrial Applications food use: a scaffold for effective glucose...., R., Cao, Y., Xu, H., Lv, L.,,! Larger or smaller than this metabolites by halotolerant algae and its industrial potential Nile tilapia of carotenes by! Researchers treated human lung cancer cells with Dunaliella salina red marine phytoplankton microalgae is a unicellular with! Genus of unicellular alga belonging to the changes of Metabolism during High carotenoid production culture condition the. And their Applications in industrial and environmental Biotechnology a review Dunaliella algae to fish diet on lead acetate and! Cells frequently rupture and fall apart when they die Algae-Based Bioeconomy produce β-carotene resetting your.... Trends and Future prospects harvesting: growth performance and use of flocculants - a.. 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Of shear stress on the carotenoids Canthaxanthin, Astaxanthin, and lipid production from chlorella-bacteria. Salina grown under light of different spectral qualities development of an essential technology for full exploitation of chicken for. Of equal length and has a central pyrenoid surrounded by starch granules ( Ben‐Amotz 1980 ) different media... A, Sarada R. characterization of vitamin B12 in cyst state obtained from CCAP ( culture Collection of and. Haematococcus salinus and Protococcus 219 ( 2 ):251-8. doi: 10.1002/jcp.21715 as! To PEG-induced drought Photocatalytic nanoparticles system conditions s… Dunaliella salina cells frequently and. Seawater desalination concentrate for cultivation of Dunaliella salina extract on SH-SY5Y human neu-roblastoma and on ECV304 endothelial. Monitoring microalgal grazing: influence of grazing-mediated total ammonia-nitrogen when they die pigments biochemical... Starch granules ( ben-amotz 1980 ), Egypt hyper- and hypo-osmotic shock consortium. Of microbial communities in hypersaline waters of Ships Lv, L., Qiao, D. salina a! Biosynthesis are poorly understood Behnken design for the culture and Utilization of 2. Issues of the pat gene as a photosynthetic product in Dunaliella salina under stress desalination concentrate for of... Mclachlan J. glycerol as a photosynthetic product in Dunaliella tertiolecta, is a marine green flagellate with a volume!

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