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Schizochytrium
METABOLIC EVOLUTION in GALDIERIA SULPHURARIA By
And Macro-Algae: Utility for Industrial Applications
Safety of Oil from Schizochytrium Limacinum (Strain FCC-3204) for Use in Infant and Follow-On Formula As a Novel Food Pursuant to Regulation (EU) 2015/2283
Microalgae-Blend Tilapia Feed Eliminates Fishmeal and Fish Oil
Prospects on the Use of Schizochytrium Sp. to Develop Oral Vaccines
Short Communication on the Classification of The
2016 National Algal Biofuels Technology Review
Co-Production of DHA and Squalene by Thraustochytrid from Forest Biomass Alok Patel , Stephan Liefeldt, Ulrika Rova, Paul Christakopoulos & Leonidas Matsakas *
DHA-Rich Algal Oil from Schizochytrium Sp.RT100
Isolation and Identification of Microalgae As Omega-3 Sources from Mangrove Area in Aceh Province
Cultivation Method Effect on Schizochytrium Sp. Biomass Growth and Docosahexaenoic Acid (DHA) Production with the Use of Waste Glycerol As a Source of Organic Carbon
(Oreochromis Niloticus) Aquaculture with Microalgae- Supplemented Diets
National Algal Biofuels Technology Roadmap
Role of Dietary Schizochytrium Sp. in Improving Disease Resistance of Zebrafsh Through Metabolic and Microbial Analysis
Seaweed Potential in the Animal Feed: a Review
Evaluation of Lactococcus Lactis HNL12 Combined with Schizochytrium Limacinum Algal Meal in Diets for Humpback Grouper (Cromileptes Altivelis) T
(35% Docosahexaenoic Acid) from Schizochytrium Sp. Strain FCC-1324, Libourne, France: Fermentalg]
A Heterotrophic Biorefinery Platform Directed to Ω-3 Rich Lipid Production
Top View
Schizochytrium Sp.) AS a SOURCE of DHA
The Evolutionary History of Haptophytes and Cryptophytes
Algal Proteins: Extraction, Application, and Challenges Concerning Production
An Overview of Systematics, Morphology, Biodiversity and Potential Utilisation of Thraustochytrids
The Iron-Sulfur Scaffold Protein HCF101 Unveils the Complexity Of
Isolation, Characterization and Biotechnological Potentials of Thraustochytrids from Icelandic Waters
Thraustochytrids in Aquaculture: Can It Replace Fish Meal in Aquafeed?
Heterotrophic Cultivation of Microalgae As a Source of Docosahexaenoic Acid for Aquaculture
GRAS Notice 836, Algal
Dissertation Nannochloropsis Oculata
Downloaded from Genbank Using Custom Scripts
GRAS Notice 777 for Algal
The Lipid Metabolism in Thraustochytrids
Fractionation of Lipids and Proteins from the Microalga Nannochloropsis Oculata Ph-Shift Process Characterization and in Vitro Accessibility
213485Db81619e10f09af84c621
Microalgae in Aquafeeds for a Sustainable Aquaculture Industry
Isolation, Fatty Acid Profiles and Cryopreservation of Marine Thraustochytrids from Mangrove Habitats in Thailand
GRAS Notice 934, Algal Oil (>35% Docosahexanoic Acid (DHA))
Eukaryotic Microorganisms for Producing Lipids and Antioxidants
Schizochytrium Sp
An Overview for Unlocking Their Potential in Global Aquaculture Development