Methods and compositions for the production of food compositions, oils, fuels, oleochemicals, and other compounds in recombinant microorganisms are provided, including oil-bearing microorganisms and methods of low cost cultivation of such microorganisms. Microalgal cells containing exogenous genes encoding, for example, a lipase, a sucrose transporter, a sucrose invertase, a fructokinase, a polysaccharide-degrading enzyme, a keto acyl-ACP synthase enzyme, a fatty acyl-ACP thioesterase, a fatty acyl-CoA/aldehyde reductase, a fatty acyl-CoA reductase, a fatty aldehyde reductase, a fatty aldehyde decarbonylase, and/or an acyl carrier protein are useful in manufacturing food compositions, and transportation fuels such as renewable diesel, biodiesel, and renewable jet fuel, as well as oleochemicals such as functional fluids, surfactants, soaps and lubricants.

Disclosed are hydrated fat compositions comprising a water-in-oil emulsion comprising (a) a continuous phase comprising: a solid fat comprising a fully-hydrogenated vegetable oil, a stearine fraction of a vegetable oil, or a mixture thereof, in an amount ranging from about 5 wt. % to about 40 wt. % of the hydrated fat; and a low trans-fat liquid vegetable oil in an amount ranging from about 20 wt. % to about 80 wt. % of the hydrated fat composition; (b) a dispersed phase comprising water in an amount ranging from about 5 wt. % to about 60 wt. % of the hydrated fat composition; and (c) an emulsifier.

A process for the preparation of an edible fat slurry containing oil and solid fat particles of hardstock fat, in which said slurry is made by adding a melted hardstock fat to cold liquid oil in a vessel over a period of time. The invention also relates to a process for turning such slurry into an oil-continuous emulsion.

Compositions of microalgae-derived food compositions, including flours and beverages, are disclosed from multiple genera, species, and strains of edible microalgae. Microalgae used in the invention are free of algal toxins and contain varying levels of primarily monounsaturated triglyceride oil. Also provided herein are microalgae-containing baked goods with novel properties compared to preexisting products of the same type, and foods containing microalgae biomass with high levels of lipid. Compositions and methods of the invention also relate to the creation of food products based on eggs, wherein the productions contain various raw materials made from microalgae in different forms. The invention also provides unique and novel strains of microalgae that have been subjected to non-transgenic methods of mutation sufficient to reduce the coloration of biomass produced by the strains.

Described are fat compositions (e.g., shortening composition and shortening particles) that are suitable for use in preparing batter or dough products such as biscuits, pizza crusts, pot pie crusts, cinnamon rolls, or dry mixes for same; the fat compositions can be low in trans fatty acids with moderate levels of saturated fatty acids. For example, fat compositions may comprise less than about 2% wt. total trans fatty acids and a total of less than about 70% wt. saturated fatty acids and trans fatty acids.

The present invention addresses the problem of providing an oily food, such as chocolate or cream, which does not require tempering treatment and in which the occurrence of blooming and the like is suppressed even when a large amount of cocoa butter is used; and producing method thereof. The present invention provides an oily product containing a fat/oil as a continuous phase. The fat/oil contains SOS, HMM, HLM, HLL, HHM and HHL. The mass ratio (HLM/HLL) of the HLM content to the HLL content is 1.0 or more. The mass ratio (HMM+HLM+HLL+HHM+HHL)/SOS of the total content of HMM, HLM, HLL, HHM and HHL to the SOS content is 0.9 to 8. In HMM, HLM, HLL, HHM and HHL, fatty acids having a carbon number of 20 or more occupy less than 3% by mass of the total constituent fatty acids H.

The invention relates to an edible fat powder comprising at least two natural fats wherein the natural fat has a N10 of at least 10% and wherein the fat powder is a co-crystallized fat powder. The invention further relates to the use of said fat powder to prepare a fat containing emulsion. The invention also relates to a process for the preparation of said edible fat powder wherein the edible fat powder is prepared from a molten mixture comprising at least two natural fats.

The present invention relates in general to field of food and drinks. In particular, it relates to a food composition comprising a lipid-in-water emulsion wherein gas is dispersed in the lipid in the form of a foam. Triglyceride crystals are present at the gas-lipid interface. The invention also provides a process for forming such a food composition.

Disclosed are hydrated fat compositions comprising a water-in-oil emulsion comprising (a) a continuous phase comprising: a solid fat comprising a fully-hydrogenated vegetable oil, a stearine fraction of a vegetable oil, or a mixture thereof, in an amount ranging from about 5 wt. % to about 40 wt. % of the hydrated fat; and a low trans-fat liquid vegetable oil in an amount ranging from about 20 wt. % to about 80 wt. % of the hydrated fat composition; (b) a dispersed phase comprising water in an amount ranging from about 5 wt. % to about 60 wt. % of the hydrated fat composition; and (c) an emulsifier.

Process for manufacturing a spreadable edible emulsion, the emulsion comprising oil, water and a micronized fat powder, wherein during processing the oil with the fat powder with a minor amount of water is stored for a period of from 8 hours to 7 days prior to further processing.