The present application relates to a method for producing biomass comprising protein and omega-3 fatty acids from single microalgae, and biomass produced thereby, the method for producing biomass according to one embodiment supplying the cultivation stage continuously with a nitrogen source to allow producing single microalgae-derived biomass having high protein and omega-3 fatty acid content, and as such, biomass produced thereby can be effectively used as the single microorganism source of protein and omega-3 fatty acids.

A method for producing a hydroxylated fatty acid by a hydration reaction using a novel enzyme derived from the genus Clostridium in the soil and using fatty acid as a substrate is provided by the present invention. In addition, a novel rare fatty acid with utility value which is obtained by the production method is also provided.

The invention provides recombinant host organisms genetically modified with a polyunsaturated fatty acid (PUFA) synthase system and one or more accessory proteins that allow for and/or improve the production of PUFAs in the host organism. The present invention also relates to methods of making and using such organisms as well as products obtained from such organisms.

The invention provides recombinant host organisms genetically modified with a polyunsaturated fatty acid (PUFA) synthase system and one or more accessory proteins that allow for and/or improve the production of PUFAs in the host organism. The present invention also relates to methods of making and using such organisms as well as products obtained from such organisms.

The present invention is directed to isolated microorganisms as well as strains and mutants thereof, biomasses, microbial oils, compositions, and cultures; methods of producing the microbial oils, biomasses, and mutants; and methods of using the isolated microorganisms, biomasses, and microbial oils.

The present invention discloses a LC-PUFA biomass composition which has reduced self-heating propensity and thus requires a lessened packing requirement for shipment. The invention also discloses methods for making such biomass composition.

The purpose of the present invention is to provide an oil/lipid that contains dihomo-γ-linolenic acid at a higher purity. Provided is a microbial oil/lipid that is specified by a high content of dihomo-γ-linolenic acid contained therein and/or a reduced content of undesirable constituting fatty acid(s).

An object of the present invention is to provide a microorganism that efficiently produces a PUFA and a method for producing a PUFA using the microorganism. The present invention relates to a microorganism capable of producing a polyunsaturated fatty acid (PUFA), in which a gene encoding an exogenous polyketide synthase dehydratase (PS-DH) domain having a higher activity against 3-hydroxyhexanoyl acyl carrier protein (3-hydroxyhexanoyl ACP) than an endogenous FabA-like β-hydroxyacyl-ACP dehydratase (FabA-DH) domain has been introduced into a microorganism having a PUFA metabolic pathway, and the like.

Provided herein are microbial oils and methods of making and using microbial oils with high levels of omega-3 fatty acids. Specifically, provided is a microbial oil comprising at least 85% total fatty acids, wherein the total fatty acids comprise at least 50% DHA. Also provided is a method of making a biomass comprising culturing an oil-producing microorganism in a culture medium comprising a fatty acid synthesis inhibitor, wherein the biomass comprises at least 500 mg/g oil.

The present invention provides production of hydroxylated fatty acid by a hydration reaction using a novel enzyme derived from Lactobacillus and using fatty acid as a substrate, and further, a production method of oxo fatty acid by an enzyme reaction or chemical oxidation reaction using the hydroxylated fatty acid as a substrate. In addition, a valuable novel rare fatty acid obtained by such production method is also provided.