The invention concerns a lightened fat which is obtained by replacing some of the initial vegetable and/or animal fat with a non-animal raw material, a microalgal flour, and the uses thereof as novel product in the fields of breadmaking and/or patisserie and/or viennoiserie.

The invention concerns a lightened fat which is obtained by replacing some of the initial vegetable and/or animal fat with a non-animal raw material, a microalgal flour, and the uses thereof as novel product in the fields of breadmaking and/or patisserie and/or viennoiserie.

A process for the production of a composition comprising 1,3-dioleoyl-2-palmitoyl glyceride (OPO) comprises: providing one or more palm oil stearin fractions comprising tripalmitoyl glyceride and having an iodine value between about 18 and about 40; interesterifying the one or more palm oil stearin fractions to form a randomly interesterified palm oil stearin; subjecting the randomly interesterified palm oil stearin to enzymic transesterification with oleic acid or a non-glyceride ester thereof using an enzyme having selectivity for the 1- and 3-positions of a glyceride; and separating palmitic acid or palmitic non-glyceride esters from the product obtained in (iii) to form a composition comprising OPO glyceride.

A process for the production of a composition comprising 1,3-dioleoyl-2-palmitoyl glyceride (OPO) comprises: providing one or more palm oil stearin fractions comprising tripalmitoyl glyceride and having an iodine value between about 18 and about 40; interesterifying the one or more palm oil stearin fractions to form a randomly interesterified palm oil stearin; subjecting the randomly interesterified palm oil stearin to enzymic transesterification with oleic acid or a non-glyceride ester thereof using an enzyme having selectivity for the 1- and 3-positions of a glyceride; and separating palmitic acid or palmitic non-glyceride esters from the product obtained in (iii) to form a composition comprising OPO glyceride.

A process for the production of a composition comprising 1,3-dioleoyl-2-palmitoyl glyceride (OPO) comprises: providing one or more palm oil stearin fractions comprising tripalmitoyl glyceride and having an iodine value between about 18 and about 40; interesterifying the one or more palm oil stearin fractions to form a randomly interesterified palm oil stearin; subjecting the randomly interesterified palm oil stearin to enzymic transesterification with oleic acid or a non-glyceride ester thereof using an enzyme having selectivity for the 1- and 3-positions of a glyceride; and separating palmitic acid or palmitic non-glyceride esters from the product obtained in (iii) to form a composition comprising OPO glyceride.

A process for the production of a composition comprising 1,3-dioleoyl-2-palmitoyl glyceride (OPO) comprises: providing one or more palm oil stearin fractions comprising tripalmitoyl glyceride and having an iodine value between about 18 and about 40; interesterifying the one or more palm oil stearin fractions to form a randomly interesterified palm oil stearin; subjecting the randomly interesterified palm oil stearin to enzymic transesterification with oleic acid or a non-glyceride ester thereof using an enzyme having selectivity for the 1- and 3-positions of a glyceride; and separating palmitic acid or palmitic non-glyceride esters from the product obtained in (iii) to form a composition comprising OPO glyceride.

The invention relates to a novel use of a phospholipase A in the production of cake to improve at least one of the properties selected from the group consisting of: (i) batter viscosity, (ii) specific density, (iii) initial crumb softness, (iv) crumb pore homogeneity, (v) crumb pore diameter, (vi) crumb softness upon storage, (vii) shelf life and/or (viii) cake volume. The invention also relates to a novel use of phospholipase A in the production of cake to enable reduction of the amount of eggs and/or fat used in the recipe.

The invention relates to a novel use of a phospholipase A in the production of cake to improve at least one of the properties selected from the group consisting of: (i) batter viscosity, (ii) specific density, (iii) initial crumb softness, (iv) crumb pore homogeneity, (v) crumb pore diameter, (vi) crumb softness upon storage, (vii) shelf life and/or (viii) cake volume. The invention also relates to a novel use of phospholipase A in the production of cake to enable reduction of the amount of eggs and/or fat used in the recipe.

The present invention relates generally to fat replacers and their use in various food products. Aspects of the disclosure are particularly directed to oligodextran-based fat replacers that are lower in calories, heat stable, and increase fiber. They can either be used alone or in combination with other additives to decrease the fat content while maintaining good organoleptic properties.

The present invention relates generally to fat replacers and their use in various food products. Aspects of the disclosure are particularly directed to oligodextran-based fat replacers that are lower in calories, heat stable, and increase fiber. They can either be used alone or in combination with other additives to decrease the fat content while maintaining good organoleptic properties.