The technology described herein is directed to engineered chemoautotrophic bacteria and methods of producing triacylglycerides. Also described herein are systems or bioreactors comprising said engineered bacteria.

The disclosed subject matter relates generally to a method for modifying oil, and specifically to a process for increasing the concentration of polyunsaturated fatty acid in an oil composition.

The invention relates to methods of producing a diatom biomass. More particularly, the invention relates to methods to produce a diatom biomass using a continuous culture to produce a volumetric production rate of biomass of at least 20 g dry weight/L/day, wherein the culture medium is designed to provide the essential nutrients to maintain the diatom in log phase growth. In a preferred cmbodimcnt the biomass comprises highly unsaturated fatty acid.

The present invention provides for a genetically modified yeast host cell capable of producing one or more fatty acids, or fatty acid-derived compounds, or a mixture thereof, comprising: (a) increased expression of acetyl-CoA carboxylase (such as ACC1), (b) increased expression of one or more fatty acid synthases (such as FAS1 and FAS2), and (c) optionally reduced expression of one or more enzymes involved in or in the ?-oxidation pathway (such as peroxisomal transporters PXA1 and PXA2, and ?-oxidation enzymes POX1, POX2, and POX3).

The present invention provides isolated acidophilic Fusarium oxysporum strains, such as MK7, and their progeny, compositions comprising such strains and their progeny, methods of producing such strains and their progeny, and methods of using such strains and their progeny.

The present invention provides biological oils and methods and uses thereof. The biological oils are preferably produced by heterotrophic fermentation of one or more microorganisms using cellulose-containing feedstock as a main source of carbon. The present invention also provides methods of producing lipid-based biofuels and food, nutritional, and pharmaceutical products using the biological oils.

Methods and compositions for producing fatty acid derivatives, for example, fatty esters, and commercial fuel compositions comprising fatty acid derivatives are described.

Methods of producing high purity palmitoleic acid esters from natural oils are disclosed. The natural oils may comprise plant oil, nut oil, microalgae oil, and fish oil. The methods of processing the natural oil comprise transesterification with ethanol as the reacting solvent to produce ethyl esters. Methods of producing a high purity fraction of Omega-3, 6, & 9 fatty acid esters from natural oils are also disclosed. The high purity fatty acid esters may be used in nutrition, cosmetic, and nutraceutical products.

A method comprising a series of selective extraction techniques for the parallel production of biodiesel and isolation of several valuable co-products including an alkenone hydrocarbon mixture of the kerosene/jet fuel range (primarily C10-, C12-, and C17-hydrocarbons) and fucoxanthin, a high-valued carotenoid, from the marine alkenone-producing microalgae Isochrysis.

The present invention provides compositions and methods related to the production and use of enzymes suitable for reducing the amount of steryl glycosides or saturated monoacyl glycerols in a lipid mixture.