The present invention relates to a novel Lactobacillus sp. isolation strain having an activity to inhibit the growth of vaginitis pathogens, and a pharmaceutical composition, a health functional food, and a cleansing product, comprising the strain as an active ingredient. Therefore, the present invention exhibits an effect of inhibiting the growth of Sneathia spp. pathogens associated with the infection with human papillomavirus (HPV) and the incidence of bacterial vaginitis, Gardnerella vaginalis as a vaginitis pathogen, and Candida albicans as a causative yeast of Candidal vaginitis, and an effect of recovering and maintaining the vaginal microflora, and thus can be used for the prevention and treatment of female vaginitis.

The present invention is directed to a method for decreasing the lag time in a fermentation of a culture medium to prepare a target substance, wherein the target substance is not yogurt and wherein the fermentation results in formation of acid or ethanol, which method comprises the steps of providing, to a suitable culture medium, a fermentation starter culture comprising a microorganism which liberates acid or ethanol, adding a potato protein protease inhibitor to the culture medium, culturing the microorganism, and obtaining the target substance.

It has been found that addition of potato protein protease inhibitor to a fermentation feed significantly reduces the lag time of the fermentation. The required amount of potato protein is low enough not to affect the taste of the target substance adversely, and the lag time reduction occurs both in batch- and in semi-continuous processes. The invention further pertains to a fermented food product which is not yogurt, comprising potato protein protease inhibitor.

The present invention relates to a prebiotic composition comprising a galacto oligosaccharide (GOS) produced from Lactobacillus plantarum, wherein the GOS acts as a selective growth medium for a chosen Lactobacillus plantarum probiotic bacterial strain, and wherein the GOS is substantially the same as the form produced by reverse -galactosidase reaction in the chosen probiotic bacterial strain. The present invention also relates to methods of producing GOS and related composition incorporating the GOS.

The present invention relates to a prebiotic composition comprising a galacto oligosaccharide (GOS) produced from Lactobacillus plantarum, wherein the GOS acts as a selective growth medium for a chosen Lactobacillus plantarum probiotic bacterial strain, and wherein the GOS is substantially the same as the form produced by reverse -galactosidase reaction in the chosen probiotic bacterial strain. The present invention also relates to methods of producing GOS and related composition incorporating the GOS.

The present invention relates to a bacterium of the species Lactobacillus fermentum having the ability to inhibit the growth of the fungus Penicillium solitum deposited under the accession No.: DSM32093 or the growth of the fungus Penicillium brevicompactum deposited under the accession No.: DSM32094 by at least 50%. The inhibitory activity can be determined in an assay comprising: (1) preparing a fermented milk product by: (a) inoculating a milk with the Lactobacillus fermentum in a concentration of at least 10.sup.7 CFU/g and with a starter culture, (b) fermenting until a p H of 4.6 is reached, and (c) solidifying the fermented milk by the addition of agar; (2) generating at least one spot of the P. solitum or the P. brevicompactum on the agar solidified fermented milk with a concentration of 500 spores/spot and incubating the 1 same for 7 days at 25 C.; (3) determining the percent inhibition by determining the largest diameter of the colony formed by growth of the P. solitum or P. brevicompactum and expressing the diameter as percent of the largest diameter formed under the same conditions but in the absence of the Lactobacillus fermentum strain. The invention further relates to compositions comprising the bacterium, methods for producing fermented milk products using the bacterium and the products thus obtained.

The present invention relates to a bacterium of the species Lactobacillus fermentum, wherein the bacterium is characterized in that it increases the pH of a fermented milk product comprising the Lactobacillus fermentum during storage after fermentation in comparison to a milk product fermented with the same starter culture not containing the Lactobacillus fermentum. In a related embodiment the present invention provides a bacterium of the species Lactobacillus fermentum characterized in that a fermented milk product comprising the Lactobacillus fermentum maintains a pH above 4.0 when stored for at least 14 days at 25 C., wherein the fermented milk product is obtained by a method comprising incubating a milk with the Lactobacillus fermentum in a concentration of at least 10.sup.7 CFU/g and with a starter culture, fermenting until a pH of 4.6 is reached, shaking the fermented product and cooling. The invention further relates to compositions comprising the bacteria, methods for producing fermented milk products using the bacteria and the products thus obtained.

The present invention relates to a bacterium of the species Lactobacillus fermentum wherein the bacterium has the ability to reduce the concentration of acetaldehyde produced by a starter culture during fermentation in a fermented milk product by at least 50%. The invention further relates to compositions comprising the bacterium, methods for producing fermented milk products using the bacterium and the products thus obtained.

The present invention relates to a prebiotic composition comprising a microbially produced oligosaccharide, wherein the oligosaccharide is characterised by being selective for a pre-determined probiotic bacterial strain and also capable of being produced by the pre-determined probiotic bacteria by reverse enzyme action. The present invention also relates to methods of screening a composition suitable for use as a prebiotic and methods for screening of prebiotics for incorporation into synbiotic formulations.

The present invention relates to a prebiotic composition comprising a microbially produced oligosaccharide, wherein the oligosaccharide is characterised by being selective for a pre-determined probiotic bacterial strain and also capable of being produced by the pre-determined probiotic bacteria by reverse enzyme action. The present invention also relates to methods of screening a composition suitable for use as a prebiotic and methods for screening of prebiotics for incorporation into synbiotic formulations.

The subject invention provides compositions and methods for treating human dermatological conditions by employing a microbiome-centered treatment approach. Preferred embodiments of the invention provide pharmaceutical and cosmetic compositions, and the methods of using the same, comprising a strain of Lactobacillus fermentum bacterium, or bioactive extracts thereof, derived from human microbiota and capable of growing in biofilm phenotype.