Juice products and associated methods are provided that include a fruit or vegetable juice having one or more polyphenols, and an anti-browning agent that includes acerola in an amount effective to reduce oxidation of the one or more polyphenols by polyphenol oxidase (PPO). For example, the disclosed method can include providing a juice having one or more polyphenols, in which the juice is a fruit or vegetable juice, and adding an anti-browning agent to the juice, in which the anti-browning agent includes acerola in an amount effective to inhibit oxidation of the one or more polyphenols by polyphenol oxidase (PPO).

A method for processing dried fresh jujube slices includes the following steps: preparing jujube slices, coring and removing stems, quick-freezing and retaining freshness of the jujube slices, thawing frozen jujube slices, protecting color treatment, expanding jujube slices under differential pressure, preparing superfine mixed seasoning powder, and coating of the superfine mixed seasoning powder. For one hand, this method solves problems that the dried fresh jujube slices will be deeply oxidized and brown when dried by the hot air at a high temperature of 90-110 C., the jujube slices with compacted cells will become harder and be difficult to chew because of 6-8 h rapid dehydration. On the other hand, it solves problems that exist in freeze drying at a vacuum degree of 1.3-13 Pa, and at a low temperature of 10-50 C., such as high energy consumption, long processing cycle, high equipment investment, small size of slices, and poor taste.

A method for processing dried fresh jujube slices includes the following steps: preparing jujube slices, coring and removing stems, quick-freezing and retaining freshness of the jujube slices, thawing frozen jujube slices, protecting color treatment, expanding jujube slices under differential pressure, preparing superfine mixed seasoning powder, and coating of the superfine mixed seasoning powder. For one hand, this method solves problems that the dried fresh jujube slices will be deeply oxidized and brown when dried by the hot air at a high temperature of 90-110 C., the jujube slices with compacted cells will become harder and be difficult to chew because of 6-8 h rapid dehydration. On the other hand, it solves problems that exist in freeze drying at a vacuum degree of 1.3-13 Pa, and at a low temperature of 10-50 C., such as high energy consumption, long processing cycle, high equipment investment, small size of slices, and poor taste.

A beverage containing a natural colorant and one or more components of an Indian gooseberry extract and having sufficient color photostability is described. The active component in the Indian gooseberry extract is at least one of tannic acid, chebulinic acid, chebulagic acid, and phyllemblin. The natural colorant is a carotenoid and/or an anthocyanin. When the natural colorant is beta-carotene, it is preferably provided in a form of microemulsion. The beverage further contains a preservative, such as benzoic acid, sorbic acid, and a salt thereof. A method of formulating the beverage is also described.

A beverage containing a natural colorant and one or more components of an Indian gooseberry extract and having sufficient color photostability is described. The active component in the Indian gooseberry extract is at least one of tannic acid, chebulinic acid, chebulagic acid, and phyllemblin. The natural colorant is a carotenoid and/or an anthocyanin. When the natural colorant is beta-carotene, it is preferably provided in a form of microemulsion. The beverage further contains a preservative, such as benzoic acid, sorbic acid, and a salt thereof. A method of formulating the beverage is also described.

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.

Methods and compositions for the production of non-meat consumable products are described herein. A meat substitute is described which is constructed from a muscle analog, a fat analog, and a connective tissue analog.

Methods and compositions for the production of non-meat consumable products are described herein. A meat substitute is described which is constructed from a muscle analog, a fat analog, and a connective tissue analog.

This document relates to food products containing highly conjugated heterocyclic rings complexed to an iron ion and one or more flavor precursors, and using such food products to modulate the flavor and/or aroma profile of other foods. The food products described herein can be prepared in various ways and can be formulated to be free of animal products.