The present invention relates to a method and production line for in-line processing of food products. The method comprises the step of co-extruding a food dough into a flow of co-extruded food products having a casing that comprises a protein, or a hybrid casing of a protein and a polymer, wherein the method subsequently comprises the successive steps of: a) subjecting the flow of co-extruded food products to a surface treating step, b) subjecting the flow of food products to a thermal treating step, and c) optionally, subjecting the thermally treated flow of food products to a post-thermal treating step, wherein in step b) the flow of food products is at least subsequently subjected to a first thermal treating step, and a second thermal treating step.

A beef-like hybrid meat product combining two families of animal is provided, along with methods of producing the beef-like hybrid meat product.

A beef-like hybrid meat product combining two families of animal is provided, along with methods of producing the beef-like hybrid meat product.

Provided is a method for producing a food, including obtaining a mixture by mixing an edible oil or fat and a component (A) that satisfies a condition of (1): a starch content is equal to or more than 75% by mass, a condition of (2): molecular weight-reduced starch of starch having an amylose content of equal to or more than 5% by mass is contained in an amount of equal to or more than 3% by mass and equal to or less than 45% by mass, and a peak molecular weight of the molecular weight-reduced starch is equal to or more than 3×10.sup.3 and equal to or less than 5×10.sup.4, a condition of (3): a degree of swelling in cold water at 25° C. is equal to or more than 5 and equal to or less than 20, and a condition of (4): a content under a sieve having an opening of 3.35 mm and on a sieve having an opening of 0.038 mm is equal to or more than 60% by mass and equal to or less than 100% by mass, and obtaining a food composition by blending the mixture in a food material, in which in the obtaining the mixture, a blending amount of the edible oil or fat is equal to or more than 0.02 and equal to or less than 6 in terms of a mass ratio, with respect to the component (A), and a total amount of the edible oil or fat and the component (A) in the mixture is equal to or more than 10% by mass and equal to or less than 100% by mass, with respect to an entirety of the mixture.

The invention provides a curing agent comprising a plant-based nitrite derived from plant material comprising nitrate and a process for preparing the curing agent comprising contacting a plant material with an organism capable of converting nitrate to nitrite. The curing agent can be used to preserve or cure meat or meat products.

The invention provides novel microalgal food compositions comprising microalgal biomass that have been processed into flakes, powders and flours. The microalgal biomass of the invention is low in saturated fats, high in monounsaturated triglyceride oil and can be a good source of fiber. The invention also comprises microalgal biomass that is suitable as a vegetarian protein source and also as a good source of fiber. Novel methods of formulating food compositions with the microalgal biomass of the invention are also disclosed herein including beverages, baked goods, egg products, reduced fat foods and gluten-free foods. The provision of food compositions incorporating the microalgal biomass of the invention to ahuman have the further benefit of providing healthful ingredients while achieving levels of satiety sufficient to reduce further caloric intake. The invention also provides novel strains of microalgae that have been subject to non-transgenic methods of mutation sufficient to reduce the coloration of the biomass produced by the strains. Oil from the microalgal biomass can be extracted and is an edible oil that is heart-healthy. The novel microalgal biomass and oil therefrom can be manufactured from edible and inedible heterotrophic fermentation feedstocks, including corn starch, sugar cane, glycerol, and depolymerized cellulose that are purpose-grown or byproducts of existing agricultural processes from an extremely broad diversity of geographic regions.

A flavour composition is provided. The composition includes a characterizing citrus flavour and a taste modifying composition. The taste modifying composition includes at least two aliphatic amino acids; at least one additional amino acid selected from the group consisting of acidic, basic, aromatic, hydroxylic and mixtures thereof; at least one organic acid; at least one sugar and at least one mineral.

A food discoloration inhibitor contains, as an effective ingredient, a low molecular weight lignin having a molecular weight peak in a molecular weight range of 4,000 to 9,500 and/or a high molecular weight lignin having a molecular weight peak in a molecular weight range of 10,000 to 40,000, wherein the molecular weight peak is measured at a wavelength of 254 nm by GPC molecular weight analysis using an UV detector.

A food discoloration inhibitor contains, as an effective ingredient, a low molecular weight lignin having a molecular weight peak in a molecular weight range of 4,000 to 9,500 and/or a high molecular weight lignin having a molecular weight peak in a molecular weight range of 10,000 to 40,000, wherein the molecular weight peak is measured at a wavelength of 254 nm by GPC molecular weight analysis using an UV detector.

A system and process for sous vide cooking and enzyme tenderization of food. In an exemplary embodiment, a tenderizer applicator applies a selected enzyme tenderizer to uncooked protein pieces at a temperature below an activation temperature of the tenderizer; a packaging machine vacuum seals the uncooked protein pieces with inactive tenderizer in pouches; a sous vide cooker cooks the pouches a first temperature to activate the enzyme tenderizer for a first time interval to provide a selected tenderization of the protein pieces, then cooks the pouches of tenderized protein pieces at second temperature higher than the first temperature to deactivate the selected tenderizer for a second time interval to cease tenderization of the protein pieces and completely cook the tenderized protein pieces; and a chiller chills the cooked tenderized protein pieces in the pouches to cease cooking the protein pieces.