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Publication DateJournal of Applied Microbiology, ISSN 1364-5072, 02/2018, Volume 124, Issue 2, pp. 336 - 367
The last years there has been a significant rise in the number of publications in the international literature that deal with the production of lipids by...
oleaginous yeasts | single cell oil | lipid analysis | oleaginous fungi | lipid production | YARROWIA-LIPOLYTICA | OLEAGINOUS-YEAST | MICROBIAL OIL | CRUDE GLYCEROL | MICROBIOLOGY | GAMMA-LINOLENIC ACID | SINGLE-CELL OIL | MORTIERELLA-ISABELLINA | BIODIESEL PRODUCTION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | FATTY-ACID | RHODOSPORIDIUM-TORULOIDES Y4 | Yeasts - chemistry | Lipids - chemistry | Fungi - chemistry | Lipids - biosynthesis | Fungi - metabolism | Yeasts - metabolism | Glycerin | Fungi | Polysaccharides | Agricultural societies | Analysis | Physiological aspects | Glycerol | Lipids | Plant metabolites | Citric acid | Biodegradation | Yeasts | Yeast | Algae | Organisms | Hydrophobicity | Substrates | Accumulation | Microorganisms | Secondary metabolites | Metabolites | Oils & fats | Fats | Carbon sources | Sugars | Saccharides
oleaginous yeasts | single cell oil | lipid analysis | oleaginous fungi | lipid production | YARROWIA-LIPOLYTICA | OLEAGINOUS-YEAST | MICROBIAL OIL | CRUDE GLYCEROL | MICROBIOLOGY | GAMMA-LINOLENIC ACID | SINGLE-CELL OIL | MORTIERELLA-ISABELLINA | BIODIESEL PRODUCTION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | FATTY-ACID | RHODOSPORIDIUM-TORULOIDES Y4 | Yeasts - chemistry | Lipids - chemistry | Fungi - chemistry | Lipids - biosynthesis | Fungi - metabolism | Yeasts - metabolism | Glycerin | Fungi | Polysaccharides | Agricultural societies | Analysis | Physiological aspects | Glycerol | Lipids | Plant metabolites | Citric acid | Biodegradation | Yeasts | Yeast | Algae | Organisms | Hydrophobicity | Substrates | Accumulation | Microorganisms | Secondary metabolites | Metabolites | Oils & fats | Fats | Carbon sources | Sugars | Saccharides
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Loading RightsApplied Microbiology and Biotechnology, ISSN 0175-7598, 11/2017, Volume 101, Issue 22, pp. 8063 - 8075
Functional genomics of filamentous fungi has gradually uncovered gene information for constructing ‘cell factories’ and controlling pathogens. Available gene...
Life Sciences | Biotechnology | Microbiology | CRISPR/Cas9 | Microbial Genetics and Genomics | Filamentous fungi | Molecular tools | Gene manipulation | SEQUENCE-SPECIFIC CONTROL | HUMAN-CELLS | OLEAGINOUS FUNGUS | MAGNAPORTHE-GRISEA | HIGHLY EFFICIENT | FUNCTIONAL GENOMICS | AGROBACTERIUM-TUMEFACIENS | TUMEFACIENS-MEDIATED TRANSFORMATION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | PATHOGENICITY GENES | NEUROSPORA-CRASSA | Gene Targeting - methods | RNA Interference | Genomics | Humans | CRISPR-Cas Systems | Homologous Recombination | Gene Editing - methods | Gene Knockout Techniques | Genetic Techniques | Fungi - genetics | Molecular Biology - methods | DNA Transposable Elements | Fungi | Genetic aspects | Genetic engineering | Methods | CRISPR | Transformation | Integration | Transcription | RNA-mediated interference | Homologous recombination | Moisture | Homology | Gene expression | Gene targeting | Reviews | Ribonucleic acids | Technology | Ribozymes | Disinfection & disinfectants | Genetic modification
Life Sciences | Biotechnology | Microbiology | CRISPR/Cas9 | Microbial Genetics and Genomics | Filamentous fungi | Molecular tools | Gene manipulation | SEQUENCE-SPECIFIC CONTROL | HUMAN-CELLS | OLEAGINOUS FUNGUS | MAGNAPORTHE-GRISEA | HIGHLY EFFICIENT | FUNCTIONAL GENOMICS | AGROBACTERIUM-TUMEFACIENS | TUMEFACIENS-MEDIATED TRANSFORMATION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | PATHOGENICITY GENES | NEUROSPORA-CRASSA | Gene Targeting - methods | RNA Interference | Genomics | Humans | CRISPR-Cas Systems | Homologous Recombination | Gene Editing - methods | Gene Knockout Techniques | Genetic Techniques | Fungi - genetics | Molecular Biology - methods | DNA Transposable Elements | Fungi | Genetic aspects | Genetic engineering | Methods | CRISPR | Transformation | Integration | Transcription | RNA-mediated interference | Homologous recombination | Moisture | Homology | Gene expression | Gene targeting | Reviews | Ribonucleic acids | Technology | Ribozymes | Disinfection & disinfectants | Genetic modification
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Loading RightsAlgal Research, ISSN 2211-9264, 01/2013, Volume 2, Issue 1, pp. 28 - 33
To overcome the daunting technical barriers of algae biofuels and photosynthetic biorefineries, a novel cultivation technology has been developed to...
Pelletization | Microalgae | Oleaginous fungi | Co-cultivation | Harvest | OIL | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | CHLORELLA-VULGARIS
Pelletization | Microalgae | Oleaginous fungi | Co-cultivation | Harvest | OIL | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | CHLORELLA-VULGARIS
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Loading RightsWater Research, ISSN 0043-1354, 06/2013, Volume 47, Issue 10, pp. 3477 - 3483
Use of potato processing wastewater for microbial lipid production by oleaginous filamentous fungus was studied with the purpose of recycling potato processing...
Nutrient removal | Biodiesel production | Microbial lipid | Oleaginous fungus | Potato processing wastewater | LACTIC-ACID | GLYCEROL | WATER RESOURCES | OIL PRODUCTION | MICROORGANISMS | YEAST | ENVIRONMENTAL SCIENCES | ENGINEERING, ENVIRONMENTAL | BIODIESEL | FERMENTATION | Solanum tuberosum | Starch - metabolism | Fatty Acids - analysis | Waste Water | Biological Oxygen Demand Analysis | Lipids - biosynthesis | Biofuels | Industrial Waste | Amylases - secretion | Lipids - chemistry | Waste Disposal, Fluid - methods | Food-Processing Industry - methods | Industrial Microbiology - methods | Aspergillus oryzae - metabolism | Fatty Acids - metabolism | Phosphates | Fungi | Monounsaturated fatty acids | Usage | Potatoes | Linolenic acids | Green technology | Vegetable industry | Wastewater | Saturated fatty acids | Production processes
Nutrient removal | Biodiesel production | Microbial lipid | Oleaginous fungus | Potato processing wastewater | LACTIC-ACID | GLYCEROL | WATER RESOURCES | OIL PRODUCTION | MICROORGANISMS | YEAST | ENVIRONMENTAL SCIENCES | ENGINEERING, ENVIRONMENTAL | BIODIESEL | FERMENTATION | Solanum tuberosum | Starch - metabolism | Fatty Acids - analysis | Waste Water | Biological Oxygen Demand Analysis | Lipids - biosynthesis | Biofuels | Industrial Waste | Amylases - secretion | Lipids - chemistry | Waste Disposal, Fluid - methods | Food-Processing Industry - methods | Industrial Microbiology - methods | Aspergillus oryzae - metabolism | Fatty Acids - metabolism | Phosphates | Fungi | Monounsaturated fatty acids | Usage | Potatoes | Linolenic acids | Green technology | Vegetable industry | Wastewater | Saturated fatty acids | Production processes
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Loading RightsMicrobial Cell Factories, ISSN 1475-2859, 06/2017, Volume 16, Issue 1, pp. 101 - 12
Background: Oleaginous fungi can accumulate lipids by utilizing a wide range of waste substrates. They are an important source for the industrial production of...
PLS regression | Microcultivation | Oleaginous fungi | High-throughput FTIR spectroscopy | Fatty acid analysis | GC-FID | STRAINS | FATTY-ACIDS | IR SPECTROSCOPY | GAMMA-LINOLENIC ACID | IDENTIFICATION | FILAMENTOUS FUNGI | LIPID-ACCUMULATION | TRANSFORM INFRARED-SPECTROSCOPY | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | YEASTS | MICROSPECTROSCOPY ENABLES | Mucorales - growth & development | Mucor - metabolism | Mucorales - metabolism | Mucor - growth & development | Biomass | Fermentation | Penicillium - metabolism | Spectroscopy, Fourier Transform Infrared | Bioreactors | Microbiological Techniques | Lipids - analysis | Penicillium - growth & development | Lipogenesis | Fungi | Usage | Synthesis | Analysis | Fourier transform infrared spectroscopy | Research | Fatty acids | Industrial production | Infrared spectroscopy | Fourier transforms | Polyunsaturated fatty acids | Lipids | Arachidonic acid | Multivariate analysis | Fatty acid composition | Microorganisms | Sample preparation | Least squares method | Spectrum analysis | Mathematical models | Carbonyls | Spectroscopy | Cultivation | Algae | Fourier analysis | Data processing | Liquid chromatography | Regression analysis | Nitrogen | Biofuels | High-performance liquid chromatography | Carbon | Biodiesel | Substrates | Chemicals | Gas chromatography | Screening | Reproducibility | Predictions | Diesel | Methods | High performance liquid chromatography
PLS regression | Microcultivation | Oleaginous fungi | High-throughput FTIR spectroscopy | Fatty acid analysis | GC-FID | STRAINS | FATTY-ACIDS | IR SPECTROSCOPY | GAMMA-LINOLENIC ACID | IDENTIFICATION | FILAMENTOUS FUNGI | LIPID-ACCUMULATION | TRANSFORM INFRARED-SPECTROSCOPY | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | YEASTS | MICROSPECTROSCOPY ENABLES | Mucorales - growth & development | Mucor - metabolism | Mucorales - metabolism | Mucor - growth & development | Biomass | Fermentation | Penicillium - metabolism | Spectroscopy, Fourier Transform Infrared | Bioreactors | Microbiological Techniques | Lipids - analysis | Penicillium - growth & development | Lipogenesis | Fungi | Usage | Synthesis | Analysis | Fourier transform infrared spectroscopy | Research | Fatty acids | Industrial production | Infrared spectroscopy | Fourier transforms | Polyunsaturated fatty acids | Lipids | Arachidonic acid | Multivariate analysis | Fatty acid composition | Microorganisms | Sample preparation | Least squares method | Spectrum analysis | Mathematical models | Carbonyls | Spectroscopy | Cultivation | Algae | Fourier analysis | Data processing | Liquid chromatography | Regression analysis | Nitrogen | Biofuels | High-performance liquid chromatography | Carbon | Biodiesel | Substrates | Chemicals | Gas chromatography | Screening | Reproducibility | Predictions | Diesel | Methods | High performance liquid chromatography
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Loading RightsPLoS ONE, ISSN 1932-6203, 11/2014, Volume 9, Issue 11, p. e113497
The challenges which the large scale microalgal industry is facing are associated with the high cost of key operations such as harvesting, nutrient supply and...
MARINE MICROALGAE | PELLETIZATION | FLOCCULATION | BIOFUEL PRODUCTION | BIOMASS | MULTIDISCIPLINARY SCIENCES | BIODIESEL | ALGAE | OLEAGINOUS FUNGI | CHLORELLA | FILAMENTOUS FUNGI | Reproducibility of Results | Microalgae - growth & development | Microalgae - metabolism | Fungi - cytology | Biomass | Lipids - biosynthesis | Coculture Techniques - methods | Fungi - metabolism | Waste Water - microbiology | Waste Disposal, Fluid - methods | Aspergillus fumigatus - cytology | Aspergillus fumigatus - growth & development | Aspergillus fumigatus - metabolism | Industrial Microbiology - methods | Microalgae - cytology | Fungi - growth & development | Biofuels - microbiology | Fungi | Sewage | Purification | Biomass energy | Analysis | Genetically modified organisms | Fatty acids | Water treatment | Biotechnology | Media (culture) | Gram-positive bacteria | Lipids | Biochemistry | Fuels | Energy harvesting | Straw | Synergistic effects | Alternative energy sources | Efficiency | Swine | Petroleum production | Bioremediation | Genetic modification | Carbon sources | Animal wastes | Cultivation | Algae | Phosphorus | Biofuels | Carbon | Wastewater treatment | Biodiesel | Wastewater analysis | Flocculation | Biodiesel fuels | Wastewater purification | Livestock | Wheat
MARINE MICROALGAE | PELLETIZATION | FLOCCULATION | BIOFUEL PRODUCTION | BIOMASS | MULTIDISCIPLINARY SCIENCES | BIODIESEL | ALGAE | OLEAGINOUS FUNGI | CHLORELLA | FILAMENTOUS FUNGI | Reproducibility of Results | Microalgae - growth & development | Microalgae - metabolism | Fungi - cytology | Biomass | Lipids - biosynthesis | Coculture Techniques - methods | Fungi - metabolism | Waste Water - microbiology | Waste Disposal, Fluid - methods | Aspergillus fumigatus - cytology | Aspergillus fumigatus - growth & development | Aspergillus fumigatus - metabolism | Industrial Microbiology - methods | Microalgae - cytology | Fungi - growth & development | Biofuels - microbiology | Fungi | Sewage | Purification | Biomass energy | Analysis | Genetically modified organisms | Fatty acids | Water treatment | Biotechnology | Media (culture) | Gram-positive bacteria | Lipids | Biochemistry | Fuels | Energy harvesting | Straw | Synergistic effects | Alternative energy sources | Efficiency | Swine | Petroleum production | Bioremediation | Genetic modification | Carbon sources | Animal wastes | Cultivation | Algae | Phosphorus | Biofuels | Carbon | Wastewater treatment | Biodiesel | Wastewater analysis | Flocculation | Biodiesel fuels | Wastewater purification | Livestock | Wheat
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Fatty acids from oleaginous yeasts and yeast-like fungi and their potential applications
Critical Reviews in Biotechnology, ISSN 0738-8551, 10/2018, Volume 38, Issue 7, pp. 1049 - 1060
Purpose: Oleaginous yeasts, fatty acids biosynthesis and regulation in the oleaginous yeasts and the fatty acids from the oleaginous yeasts and their...
industrial applications | triacylglycerols | fatty acids | lipid particle | Oleaginous yeasts | MYCOBACTERIUM-TUBERCULOSIS | YARROWIA-LIPOLYTICA | GLYCEROL | INULIN | SINGLE-CELL OIL | LIPID PRODUCTION | PYRUVATE-CARBOXYLASE | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | BIOSYNTHESIS | HEAVY OILS | ALKANES
industrial applications | triacylglycerols | fatty acids | lipid particle | Oleaginous yeasts | MYCOBACTERIUM-TUBERCULOSIS | YARROWIA-LIPOLYTICA | GLYCEROL | INULIN | SINGLE-CELL OIL | LIPID PRODUCTION | PYRUVATE-CARBOXYLASE | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | BIOSYNTHESIS | HEAVY OILS | ALKANES
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Loading RightsProcess Safety and Environmental Protection, ISSN 0957-5820, 07/2018, Volume 117, pp. 143 - 151
Microbial oils are regarded as a sustainable alternative to vegetable oils for biodiesel manufacturing. However, in order to develop a cost-effective process,...
Agro-industrial waste | Bioreactor | Mortierella isabellina | Biodiesel | Filamentous fungi | COLORIMETRIC METHOD | GAMMA-LINOLENIC ACID | ENGINEERING, CHEMICAL | MORTIERELLA-ISABELLINA | SOLID-STATE FERMENTATION | LIPID-ACCUMULATION | CUNNINGHAMELLA-ECHINULATA | ENGINEERING, ENVIRONMENTAL | BIODIESEL PRODUCTION | ORANGE PEEL | CHEESE WHEY | OLEAGINOUS MICROORGANISMS | Glycerin | Fungi | Glycerol | Industrial wastes | Fatty acids | Analysis
Agro-industrial waste | Bioreactor | Mortierella isabellina | Biodiesel | Filamentous fungi | COLORIMETRIC METHOD | GAMMA-LINOLENIC ACID | ENGINEERING, CHEMICAL | MORTIERELLA-ISABELLINA | SOLID-STATE FERMENTATION | LIPID-ACCUMULATION | CUNNINGHAMELLA-ECHINULATA | ENGINEERING, ENVIRONMENTAL | BIODIESEL PRODUCTION | ORANGE PEEL | CHEESE WHEY | OLEAGINOUS MICROORGANISMS | Glycerin | Fungi | Glycerol | Industrial wastes | Fatty acids | Analysis
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Loading RightsEuropean Journal of Lipid Science and Technology, ISSN 1438-7697, 09/2010, Volume 112, Issue 9, pp. 1048 - 1057
Cunninghamella echinulata and Mortierella isabellina, fungi capable of accumulating single cell oil (SCO) containing γ‐linolenic acid (GLA), were cultivated on...
Cunninghamella echinulata | Renewable substrates | Mortierella isabellina | Oleaginous microorganisms | Single cell oil | γ‐Linolenic acid | γ-Linolenic acid | STRAINS | gamma-Linolenic acid | TURNOVER | FOOD SCIENCE & TECHNOLOGY | OLEAGINOUS YEAST | CULTURE | NUTRITION & DIETETICS | EMPHASIS | GLUCOSE | MOLASSES | NITROGEN | INVERTASE
Cunninghamella echinulata | Renewable substrates | Mortierella isabellina | Oleaginous microorganisms | Single cell oil | γ‐Linolenic acid | γ-Linolenic acid | STRAINS | gamma-Linolenic acid | TURNOVER | FOOD SCIENCE & TECHNOLOGY | OLEAGINOUS YEAST | CULTURE | NUTRITION & DIETETICS | EMPHASIS | GLUCOSE | MOLASSES | NITROGEN | INVERTASE
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Loading RightsBiotechnology for Biofuels, ISSN 1754-6834, 2012, Volume 5, Issue 1, pp. 50 - 50
Background: Lipids produced from filamentous fungi show great promise for biofuel production, but a major limiting factor is the high production cost...
Microbial lipid | Mortierella isabellina | Biodiesel | Lignocellulosic biomass | Filamentous fungi | Wheat straw | MICROBIAL OIL PRODUCTION | OLEAGINOUS YEAST | GAMMA-LINOLENIC ACID | SACCHAROMYCES-CEREVISIAE | MUCOR-CIRCINELLOIDES | BIOETHANOL PRODUCTION | SOLID-STATE FERMENTATION | LIPID PRODUCTION | BIODIESEL PRODUCTION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | RHODOSPORIDIUM-TORULOIDES | Fungi | Biosynthesis | Research | Chemical properties | Biomass energy | Identification and classification | Production management | Manufacturing costs | Glucose | Fermentation | Fatty acids | Production processes | Dextrose | Sulfuric acid | Lipids | Microbiology | Biodiesel fuels
Microbial lipid | Mortierella isabellina | Biodiesel | Lignocellulosic biomass | Filamentous fungi | Wheat straw | MICROBIAL OIL PRODUCTION | OLEAGINOUS YEAST | GAMMA-LINOLENIC ACID | SACCHAROMYCES-CEREVISIAE | MUCOR-CIRCINELLOIDES | BIOETHANOL PRODUCTION | SOLID-STATE FERMENTATION | LIPID PRODUCTION | BIODIESEL PRODUCTION | BIOTECHNOLOGY & APPLIED MICROBIOLOGY | RHODOSPORIDIUM-TORULOIDES | Fungi | Biosynthesis | Research | Chemical properties | Biomass energy | Identification and classification | Production management | Manufacturing costs | Glucose | Fermentation | Fatty acids | Production processes | Dextrose | Sulfuric acid | Lipids | Microbiology | Biodiesel fuels
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Loading RightsMetabolomics, ISSN 1573-3882, 4/2019, Volume 15, Issue 4, pp. 1 - 10
Metabolomics has been successfully applied to guide the rational engineering of industrial strains and improve the performance of bioprocesses. Mortierella...
Life Sciences | Biochemistry, general | Biomedicine, general | Mortierella alpina | Metabolomics | Oleaginous filamentous fungi | Molecular Medicine | Extraction solvent | Developmental Biology | Sampling | Freeze-drying | Cell Biology | TERT-BUTYL ETHER | GAS-CHROMATOGRAPHY | ENDOCRINOLOGY & METABOLISM | LARGE-SCALE
Life Sciences | Biochemistry, general | Biomedicine, general | Mortierella alpina | Metabolomics | Oleaginous filamentous fungi | Molecular Medicine | Extraction solvent | Developmental Biology | Sampling | Freeze-drying | Cell Biology | TERT-BUTYL ETHER | GAS-CHROMATOGRAPHY | ENDOCRINOLOGY & METABOLISM | LARGE-SCALE
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