The present invention relates to a fat composition comprising triglycerides of which at least 75% is of the type Sat.sub.2O, and wherein in the fat composition: a) the content of St.sub.2O is 30% or less of the total fat, and b) the ratio (StOSt+StStO)/(POSt+PStO+StPO) is at least 0.95. The invention also relates to uses of the fat composition and to a coating compound, chocolate or chocolate-like product comprising the fat composition according to the present invention.

This disclosure concerns 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 disclosure also concerns methods of making and using such organisms as well as products obtained from such organisms.

Provided herein are fermentation methods that improve the nutritional value and physical properties of microbial oil. Specifically, provided is a method of producing oil with increased omega-7 fatty acids. The method comprises culturing oil-producing microorganisms in a fermentation medium with less than 0.3 mg/L zinc, wherein the culturing produces an oil comprising fatty acids, wherein the oil comprises increased omega-7 fatty acids compared to a control oil. Optionally, the oil is isolated from the microorganisms of the culture.

Described herein is a method of frying potato fries, using canola oil having an oil life of 0 to 20 days, wherein the canola comprises a total saturates content of from 3.5% to 5%, a linoleic acid content of greater than 18%, and a linolenic acid content of less than 3.0, wherein the fried potato fry has desirable aroma, texture, and flavor. Also described herein is A fried potato fry made with canola oil having an oil life of 0 to 20 days, wherein the canola oil comprises a total saturates content of from 3.5% to 5%, a linoleic acid content of greater than 18%, and a linolenic acid content of less than 3.0, wherein the fried potato fry has desirable aroma, texture, and flavor.

Described herein is a method of frying potato fries, using canola oil having an oil life of 0 to 20 days, wherein the canola comprises a total saturates content of from 3.5% to 5%, a linoleic acid content of greater than 18%, and a linolenic acid content of less than 3.0, wherein the fried potato fry has desirable aroma, texture, and flavor. Also described herein is A fried potato fry made with canola oil having an oil life of 0 to 20 days, wherein the canola oil comprises a total saturates content of from 3.5% to 5%, a linoleic acid content of greater than 18%, and a linolenic acid content of less than 3.0, wherein the fried potato fry has desirable aroma, texture, and flavor.

The present invention addresses the problem of providing: an oil and fat composition which is for frozen dessert, moderately lingers, and has a rich flavor with low saturated fatty acid content; and chocolates which are for frozen dessert, and contain the fat and oil composition for frozen dessert. The chocolates which are for frozen dessert, moderately lingers, and has rich flavor with low saturated fatty acid content can be obtained by adding the prescribed amount of a transesterified oil and fat composition which is for frozen dessert and in which the composition of constituent fatty acids and the solid fat content (SFC) have been prescribed.

The invention provides a transgenic Glycine max event MON87751, plants, plant cells, seeds, plant parts, progeny plants, and commodity products comprising event MON87751. The invention also provides polynucleotides specific for event MON87751, plants, plant cells, seeds, plant parts, and commodity products comprising polynucleotides for event MON87751. The invention also provides methods related to event MON87751.

The invention provides a transgenic Glycine max event MON87751, plants, plant cells, seeds, plant parts, progeny plants, and commodity products comprising event MON87751. The invention also provides polynucleotides specific for event MON87751, plants, plant cells, seeds, plant parts, and commodity products comprising polynucleotides for event MON87751. The invention also provides methods related to event MON87751.

An oil composition containing omega-9 canola oil is disclosed in which the canola oil is stabilized against oxidation. The omega-9 canola oil contains more than 68% oleic acid and less than 4% linolenic acid. In particular embodiments, the oil composition contains 0.1-1.0 weight percent omega-3 fatty acids, which may be DHA, and may contain additional antioxidants, such as tocopherols. Oxidatively resistant oil compositions and food compositions containing omega-9 canola oil with DHA are also disclosed. Methods for increasing the oxidative stability of omega-9 canola oil by addition of DHA are also disclosed.

An oil composition containing omega-9 canola oil is disclosed in which the canola oil is stabilized against oxidation. The omega-9 canola oil contains more than 68% oleic acid and less than 4% linolenic acid. In particular embodiments, the oil composition contains 0.1-1.0 weight percent omega-3 fatty acids, which may be DHA, and may contain additional antioxidants, such as tocopherols. Oxidatively resistant oil compositions and food compositions containing omega-9 canola oil with DHA are also disclosed. Methods for increasing the oxidative stability of omega-9 canola oil by addition of DHA are also disclosed.