The present invention concerns a method for the cosmetic caring of the skin and/or mucosa, comprising applying a postbiotic composition comprising at least one postbiotic and at least one bacteriocin and/or endolysin, wherein said postbiotic is preferably a bacterial lysate preferably obtained from bacteria heterologously expressing said at least one bacteriocin and/or endolysin and wherein said postbiotic and said at least one bacteriocin and/or endolysin have a synergistic effect in the cosmetic caring method.

Lactobacillus sakei is provided, wherein the Lactobacillus sakei is Lactobacillus sakei TCI147 with an accession number of DSM 33913. A method for spermidine production with Lactobacillus sakei or metabolites thereof is provided, wherein the Lactobacillus sakei is Lactobacillus sakei TCI147 with an accession number of DSM 33913.

Lactobacillus sakei is provided, wherein the Lactobacillus sakei is Lactobacillus sakei TCI147 with an accession number of DSM 33913. A method for spermidine production with Lactobacillus sakei or metabolites thereof is provided, wherein the Lactobacillus sakei is Lactobacillus sakei TCI147 with an accession number of DSM 33913.

A cosmetic composition including a yeast hydrolysate and to the use thereof in cosmetics, for promoting moisturization of the skin and/or protecting human skin against drying out and/or improving the barrier function and/or for an anti-ageing effect. The yeast hydrolysate is obtained by a process that includes solubilization of the yeast in water, enzymatic hydrolysis, separation of the soluble and insoluble phase and recovery of the soluble phase, enzymatic inactivation, and optionally concentration and sterilizing filtration.

The present invention generally relates to the field of skin care. More particularly, the invention relates to a cosmetic or therapeutic skin care composition comprising live bacteria of at least one Cutibacterium acnes (C. acnes) strain in combination with an excipient that specifically supports their viability during storage and/or their ability to replicate after application to the skin. Preferably, the cosmetic or therapeutic skin care composition comprises bacteria of at least one C. acnes strain selected from the group consisting of D1, A5, C1, C3, H1, H2, H3, K1, K2, K4, K6, K8, K9, L1, and F4. The invention also provides a method for treating or preventing acne by applying the skin care composition of the invention to a skin area in need of treatment. The invention also relates to the use of a skin care composition of the invention for treating or preventing acne.

The present invention generally relates to the field of skin care. More particularly, the invention relates to a cosmetic or therapeutic skin care composition comprising live bacteria of at least one Cutibacterium acnes (C. acnes) strain in combination with an excipient that specifically supports their viability during storage and/or their ability to replicate after application to the skin. Preferably, the cosmetic or therapeutic skin care composition comprises bacteria of at least one C. acnes strain selected from the group consisting of D1, A5, C1, C3, H1, H2, H3, K1, K2, K4, K6, K8, K9, L1, and F4. The invention also provides a method for treating or preventing acne by applying the skin care composition of the invention to a skin area in need of treatment. The invention also relates to the use of a skin care composition of the invention for treating or preventing acne.

A bacterium belonging to a novel bacterial genus, Dysosmobacter. Also, the therapeutic, nutraceutical and cosmetic use thereof. The uses include methods for treating a disorder, promoting weight loss, decreasing food intake, increasing muscle mass, decreasing fat mass, increasing satiety, and/or decreasing weight gain associated with food intake in a subject, including administering to the subject at least one isolated bacterium belonging to the genus Dysosmobacter and/or a variant thereof and/or fragments thereof.

A bacterium belonging to a novel bacterial genus, Dysosmobacter. Also, the therapeutic, nutraceutical and cosmetic use thereof. The uses include methods for treating a disorder, promoting weight loss, decreasing food intake, increasing muscle mass, decreasing fat mass, increasing satiety, and/or decreasing weight gain associated with food intake in a subject, including administering to the subject at least one isolated bacterium belonging to the genus Dysosmobacter and/or a variant thereof and/or fragments thereof.

Described herein are anti-microbial and UV-protective biological devices and extracts produced therefrom. The biological devices include microbial cells transformed with a DNA construct containing genes for producing proteins such as, for example, zinc-related protein/oxidase, silicatein, silaffin, and alcohol dehydrogenase. In some instances, the biological devices also include a gene for lipase. Methods for producing and using the devices are also described herein. Finally, compositions and methods for using the devices and extracts to kill microbial species or prevent microbial growth and to reduce or prevent UV-induced damage or exposure to materials, items, plants, and human and animal subjects are described herein. Also disclosed are biological devices producing polyactive carbohydrates and carbo sugars, as well as compositions and articles incorporating both extracts from these devices and the anti-microbial and UV-protective extracts.

Described herein are anti-microbial and UV-protective biological devices and extracts produced therefrom. The biological devices include microbial cells transformed with a DNA construct containing genes for producing proteins such as, for example, zinc-related protein/oxidase, silicatein, silaffin, and alcohol dehydrogenase. In some instances, the biological devices also include a gene for lipase. Methods for producing and using the devices are also described herein. Finally, compositions and methods for using the devices and extracts to kill microbial species or prevent microbial growth and to reduce or prevent UV-induced damage or exposure to materials, items, plants, and human and animal subjects are described herein. Also disclosed are biological devices producing polyactive carbohydrates and carbo sugars, as well as compositions and articles incorporating both extracts from these devices and the anti-microbial and UV-protective extracts.