The system comprises one or more transportable bioreactors configured with the ability to conduct aerobic fermentation of fruit biomass. This system integrates three functionalities: transportation regulations, fermentation requirements and food safety/quality control requirements. The transportation design features of the system render the bioreactors transportable to a fruit processing facility, wherein they can be filled with fruit biomass. The transportable bioreactor and processes take into account the requirements of the bioreactor functionalities of the system, given the particular deployment specifications of the system tailored for a certain environment and fruit biomass. Moreover, the design of this system conforms to the minimal requirements for the food safety and quality regulations of the jurisdictions in which the ultimate products will be directly and/or indirectly sold (e.g., as a foodstuff, health supplement, and/or a food ingredient). The integration of these three types of functionalities (transport, bioreactor and sanitation) gives rise to a practical solution for addressing the various problems of wasted foodstuffs such as fruit biomass.

The present invention aims at providing packed beverages in which the effect of rosmarinic acid for suppressing the fading of dyes is maintained and yet any undesirable flavor that is characteristic of rosemary extracts as exemplified by their undesirable smell or aftertaste is suppressed. To this end, the contents of cineole and camphor are reduced.

The present invention aims at providing packed beverages in which the effect of rosmarinic acid for suppressing the fading of dyes is maintained and yet any undesirable flavor that is characteristic of rosemary extracts as exemplified by their undesirable smell or aftertaste is suppressed. To this end, the contents of cineole and camphor are reduced.

Methods for converting mixtures of anthocyanins occurring in fruit or vegetable juice or extract into particular anthocyanin molecules having desirable colorant properties are provided herein. The method of the present disclosure can be employed to increase the amount of particular anthocyanin molecules, while lowering the total number of anthocyanin molecules present in the natural juice and/or extract. The disclosure is also directed to anthocyanin molecules prepared by the methods of present disclosure and to enzymes capable of catalyzing reactions that provide such effects.

Methods for converting mixtures of anthocyanins occurring in fruit or vegetable juice or extract into particular anthocyanin molecules having desirable colorant properties are provided herein. The method of the present disclosure can be employed to increase the amount of particular anthocyanin molecules, while lowering the total number of anthocyanin molecules present in the natural juice and/or extract. The disclosure is also directed to anthocyanin molecules prepared by the methods of present disclosure and to enzymes capable of catalyzing reactions that provide such effects.

Provided is a method for producing a yeast cell wall-derived decomposition product-containing composition, the method including enzymatically treating a cell wall of yeast with exoglucanase.

The present invention discloses processes for obtaining a color from an algal biomass. The process includes subjecting an algal biomass to cavitation, thus at least partially disrupting cells of the algal biomass and extracting color from the disrupted, algal biomass.

The present invention discloses processes for obtaining a color from an algal biomass. The process includes subjecting an algal biomass to cavitation, thus at least partially disrupting cells of the algal biomass and extracting color from the disrupted, algal biomass.

According to embodiments, a dry powdered composition which may be reconstituted to provide a gelatin product includes powdered gelatin and a pelletized colorant. The pelletized colorant includes a pigment-protein complex and at least one encapsulating agent for encapsulating the pigment-protein complex. The pelletized colorant has a rate of dissolution a rate of dissolution of less than 2 grams/minute in water having an initial temperature of from about 95° C. to about 100° C. Methods of making food products with the pelletized colorant are also disclosed. In embodiments, when the food products are measured on the L*a*b* color space, the food products have an L* value of about 49 to about 57, an a* value of about −10 to about −16, and a b* value of from about −11 to about −20.5.

According to embodiments, a dry powdered composition which may be reconstituted to provide a gelatin product includes powdered gelatin and a pelletized colorant. The pelletized colorant includes a pigment-protein complex and at least one encapsulating agent for encapsulating the pigment-protein complex. The pelletized colorant has a rate of dissolution a rate of dissolution of less than 2 grams/minute in water having an initial temperature of from about 95° C. to about 100° C. Methods of making food products with the pelletized colorant are also disclosed. In embodiments, when the food products are measured on the L*a*b* color space, the food products have an L* value of about 49 to about 57, an a* value of about −10 to about −16, and a b* value of from about −11 to about −20.5.