The present disclosure discloses application of a microbiota-derived plasmalogens to treatment of colon cancer, and belongs to the technical field of biomedicine and microorganisms. The microbiota-derived plasmalogens provided in the present disclosure is extracted from an anaerobic microorganism including any one or more of Lactobacillaceae, Bifidobacterium, Clostridium butyricum, and Peptostreptococcus Kluyver and van Niel after fermentation. The microbiota-derived plasmalogens can reduce expressions of colon cancer-associated cytokines at the molecular level, inhibit the proliferation of colon cancer cells, and reduce the number and size of colon adenomas in patients with colon cancer. The microbiota-derived plasmalogens can be used as an effective nutrition strategy for preventing and treating the colon cancer, and a theoretical support is provided for efficient utilization of the enteric microbiota-derived plasmalogens.

The present disclosure discloses application of a microbiota-derived plasmalogens to treatment of colon cancer, and belongs to the technical field of biomedicine and microorganisms. The microbiota-derived plasmalogens provided in the present disclosure is extracted from an anaerobic microorganism including any one or more of Lactobacillaceae, Bifidobacterium, Clostridium butyricum, and Peptostreptococcus Kluyver and van Niel after fermentation. The microbiota-derived plasmalogens can reduce expressions of colon cancer-associated cytokines at the molecular level, inhibit the proliferation of colon cancer cells, and reduce the number and size of colon adenomas in patients with colon cancer. The microbiota-derived plasmalogens can be used as an effective nutrition strategy for preventing and treating the colon cancer, and a theoretical support is provided for efficient utilization of the enteric microbiota-derived plasmalogens.

The present invention relates generally to the field of liquid food compositions. In particular, the present invention relates to liquid food compositions that can be used as dairy alternatives. Dairy alternatives usually do not comprise dairy proteins. For example, such dairy alternatives may comprise alternative protein sources. The liquid food composition of the present invention contains ea protein. Hence, the present invention relates, for example, to a liquid food composition comprising pea protein isolate, sunflower oil, sugar, gellan gum, tribasic calcium phosphate, inulin, dipotassium phosphate, and water, wherein the liquid food composition does not comprise dairy proteins.

The present invention relates generally to the field of liquid food compositions. In particular, the present invention relates to liquid food compositions that can be used as dairy alternatives. Dairy alternatives usually do not comprise dairy proteins. For example, such dairy alternatives may comprise alternative protein sources. The liquid food composition of the present invention contains ea protein. Hence, the present invention relates, for example, to a liquid food composition comprising pea protein isolate, sunflower oil, sugar, gellan gum, tribasic calcium phosphate, inulin, dipotassium phosphate, and water, wherein the liquid food composition does not comprise dairy proteins.

Disclosed is a method for preparing an emulsion gel-based fat substitute with adjustable phase change and use thereof, belonging to the field of oils and fats and food processing. The emulsion gel-based fat substitutes are prepared by using an oil-soluble polysaccharide, oil-soluble small molecule gelling agent, water-soluble large molecule gelling agent and vegetable oil as raw materials, dissolving the oil-soluble polysaccharide, small molecule gelling agent and water-soluble large molecule gelling agent in the heated oil and water phases, mixing and emulsifying the oil solution and aqueous solution to obtain an emulsion, and then gelling the emulsion upon stirring and cooling. An oil-soluble polysaccharide reduces the amount of oil-soluble small molecule gelling agent, an emulsion gel-based fat substitute containing trans-free low-saturated fatty acids is prepared, and the overall oil content of the emulsion gel is reduced by adding the water phase gelled with the water-soluble large molecule gelling agent.

Disclosed is a method for preparing an emulsion gel-based fat substitute with adjustable phase change and use thereof, belonging to the field of oils and fats and food processing. The emulsion gel-based fat substitutes are prepared by using an oil-soluble polysaccharide, oil-soluble small molecule gelling agent, water-soluble large molecule gelling agent and vegetable oil as raw materials, dissolving the oil-soluble polysaccharide, small molecule gelling agent and water-soluble large molecule gelling agent in the heated oil and water phases, mixing and emulsifying the oil solution and aqueous solution to obtain an emulsion, and then gelling the emulsion upon stirring and cooling. An oil-soluble polysaccharide reduces the amount of oil-soluble small molecule gelling agent, an emulsion gel-based fat substitute containing trans-free low-saturated fatty acids is prepared, and the overall oil content of the emulsion gel is reduced by adding the water phase gelled with the water-soluble large molecule gelling agent.

Disclosed are high-porosity protein particles useful for carrying one or more agents of interest, methods for their manufacture and use, and products comprising them.

Disclosed are high-porosity protein particles useful for carrying one or more agents of interest, methods for their manufacture and use, and products comprising them.

The present invention relates generally to the field of liquid food compositions. In particular, the present invention relates to liquid food compositions that contain no added sugar and that can be used as dairy alternatives. Dairy alternatives usually do not comprise dairy proteins. For example, such dairy alternatives may comprise alternative protein sources. The liquid food composition of the present invention contains pea protein. Hence, the present invention relates, for example, to a liquid food composition comprising pea protein isolate, sunflower oil, gellan gum, tribasic calcium phosphate, inulin, dipotassium phosphate, and water, wherein the liquid food composition does not comprise dairy proteins or added sugar.

The present invention relates generally to the field of liquid food compositions. In particular, the present invention relates to liquid food compositions that contain no added sugar and that can be used as dairy alternatives. Dairy alternatives usually do not comprise dairy proteins. For example, such dairy alternatives may comprise alternative protein sources. The liquid food composition of the present invention contains pea protein. Hence, the present invention relates, for example, to a liquid food composition comprising pea protein isolate, sunflower oil, gellan gum, tribasic calcium phosphate, inulin, dipotassium phosphate, and water, wherein the liquid food composition does not comprise dairy proteins or added sugar.