Provided are a novel hemagglutinin that can remove cells deviated from the undifferentiated state, the cells being cells that emerge in a colony during culture of stem cells having pluripotency, and a novel method for culturing stem cells having pluripotency, the method using hemagglutinin. Provided is a mutant hemagglutinin complex protein derived from Clostridium botulinum type B, the complex protein containing at least subcomponents HA2 and HA3 of hemagglutinin derived from Clostridium botulinum type B, and the complex protein containing amino acids constituting a glycosylation site, with at least one of the amino acids having been mutated. Provided is a method for culturing stem cells having pluripotency, the method including culturing the stem cell having pluriopotency in the presence of a mutant hemagglutinin complex protein of the present disclosure.

A method for inhibiting xanthine oxidase and for reducing uric acid levels using a composition obtained by culturing Lactobacillus rhamnosus in a medium. Also disclosed is a composition including a metabolite of Lactobacillus rhamnosus for reducing uric acid levels in a subject and a method for producing the composition.

It is an object of the present invention to provide a method for producing pluripotent cells that are free of the risk of cellular canceration and that can be applied to regenerative medicine with a high degree of safety. The present invention provides a method for producing pluripotent cells from somatic cells comprising a step of bringing bacteria having fermentation ability or a component or secretory product thereof into contact with somatic cells.

According to the present disclosure, there is provided a system for culturing animal cells using a component derived from an organism such as algae as a nutrient source, and reusing the culture waste liquid. The present disclosure provides an organism or a cultured cell which undergoes a modification, in which the modification includes imparting or enhancing L-lactate utilization ability in the organism or the cultured cell. In addition, the present disclosure provides a method for culturing at least two types of cells including a cell X and a cell Y in a circulation manner, the method including: a step (a) of providing a component excreted from the cell X to the cell Y; a step (b) of providing a component derived from the cell Y to the cell X; a step (c) of culturing the cell X and the cell Y; and a step (d) of repeating the steps (a) to (c) as necessary, in which at least one of the components excreted from the cell X is an assimilable component of the cell Y, and at least one of the components derived from the cell Y is a nutritional component of the cell X.

The present disclosure provides an antimicrobial composition as well as a process using same to limit microbial activity in a yeast medium. The antimicrobial composition includes at least one weak acid, optionally in combination with an acid stable bacteriocin and/or an antibiotic. The antimicrobial composition can be used for propagating yeasts and for making a fermentation product. The present disclosure also provides yeasts and lactic acid bacteria that can be used with the antimicrobial composition.