Provided herein are eukaryotic microorganisms having a simple lipid profile comprising long chain fatty acids (LCFAs). Also provided are compositions and cultures comprising the eukaryotic microorganisms as well as methods of using the eukaryotic microorganisms.

The invention relates to a method for fermentation production of DHA, in particular a method for producing DHA through solid culture and liquid fermentation of Schizochytrium. The method comprises steps of activation of a strain, preparation of a suspension of the strain, preparation of a primary seed, preparation of a secondary solid seed, enlarging cultivation of the secondary solid seed in a fermentor, collection of cells after fermentation, and extraction of DHA oil. With the fermentation method, the seed preparation method is improved, the seed enlarging technology is simplified, the period of seed culture and fermentation is shortened, and therefore the investment is reduced and the cost is saved; in addition, the solid culture medium is of eutrophy and rich in a plurality of growth factors, and is more beneficial to the growth of the seed; cells are strong in viability and good in synchronism in solid culture medium.

The present invention provides methods for making microalgal strains with improved properties relative to the strains from which they are derived. In illustrative embodiments, the methods are performed to produce microalgal strains adapted for use in the industrial production of microalgae-derived biomass products, including but not limited to triglycerides and fatty acids. Also provided are microalgal strains, which can be obtained using the methods described herein, as wells microalgal-derived biomass products, which can be produced from such microalgal strains.

The present invention relates to microalgae with improved phototaxis and photosynthetic efficiency, and more particularly, to a microalgae PTS42 (KCTC18499P) mutant of Chlamydomonas reinhardtii and uses thereof. In the microalgae PTS42 according to the present invention of which photosensitivity and photosynthetic efficiency are improved due to excellent phototaxis, conversion of carbon dioxide into biomass is excellent as compared to a wild type strain and a maximum photosynthesis rate and lipid accumulation ability are also high, such that the microalgae PTS42 are useful as a photosynthetic strain for constructing a biofuel production process as well as an effect of decreasing carbon dioxide.

A metal recovery material contains a blue-green alga of the genus Leptolyngbya.

Provided herein are eukaryotic microorganisms having a simple lipid profile comprising long chain fatty acids (LCFAs). Also provided are compositions and cultures comprising the eukaryotic microorganisms as well as methods of using the eukaryotic microorganisms.

The present invention relates to a strain and/or a modified strain of Chlorella sorokiniana (C. sorokiniana) having a reduced content of chlorophyll when compared to a wild type strain of C. sorokiniana cultured under the same conditions.

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.

This disclosure describes modified photosynthetic microorganisms, including Cyanobacteria, that have a reduced amount of a light harvesting protein (LHP) and contain one or more introduced or overexpressed polynucleotides encoding one or more enzymes associated with lipid biosynthesis, and which are capable of producing increased amounts of fatty acids and/or synthesizing triglycerides.

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