Abstract: The disclosure is concerned with a novel human intestinal isolate capable of converting L-lysine into butyrate and/or of converting fructose-lysine into butyrate. The novel isolate can be used as a probiotic or supplement to promote production of butyrate in the GI tract, thereby preventing and/or treating conditions or diseases that benefit from the production of butyrate. Additionally, the isolate may prevent and/or treat conditions or diseases caused by an excess of pathogenic bacteria in the GI tract, mediated by L-lysine, or mediated by fructose-lysine or other advanced glycation end products.

Abstract: Described is a novel human intestinal isolate capable of converting L-lysine into butyrate and/or of converting fructose-lysine into butyrate. The novel isolate can be used as a probiotic or supplement to promote production of butyrate in the GI tract, thereby preventing and/or treating conditions or diseases that benefit from the production of butyrate. Additionally, the isolate may prevent and/or treat conditions or diseases caused by an excess of pathogenic bacteria in the GI tract, mediated by L-lysine, or mediated by fructose-lysine or other advanced glycation end products.

Abstract: The invention is concerned with a bacterium comprising a inositol to propionic acid pathway gene set that allows said bacterium to convert inositol to propionic acid or a salt or ester thereof. The bacterium can be used as a probiotic or supplement to promote production of propionic acid in the GI tract, thereby preventing and/or treating conditions or diseases that benefit from the production of propionic acid, for example metabolic disease, metabolic syndrome, insulin resistance or insulin resistance-related conditions, particularly dyslipidemia, type 2 diabetes mellitus and insulin-resistance in endocrine diseases.

Abstract: Described is a novel human intestinal isolate capable of converting L-lysine into butyrate and/or of converting fructose-lysine into butyrate. The novel isolate can be used as a probiotic or supplement to promote production of butyrate in the GI tract, thereby preventing and/or treating conditions or diseases that benefit from the production of butyrate. Additionally, the isolate may prevent and/or treat conditions or diseases caused by an excess of pathogenic bacteria in the GI tract, mediated by L-lysine, or mediated by fructose-lysine or other advanced glycation end products.

Abstract: The disclosure is concerned with a novel human intestinal isolate capable of converting L-lysine into butyrate and/or of converting fructose-lysine into butyrate. The novel isolate can be used as a probiotic or supplement to promote production of butyrate in the GI tract, thereby preventing and/or treating conditions or diseases that benefit from the production of butyrate. Additionally, the isolate may prevent and/or treat conditions or diseases caused by an excess of pathogenic bacteria in the GI tract, mediated by L-lysine, or mediated by fructose-lysine or other advanced glycation end products.