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Lactobacillus fermentum bacteria with antifungal activity

a technology of lactobacillus fermentum and antifungal activity, which is applied in the direction of antibacterial agents, microorganisms, milk preparations, etc., can solve the problems of spoilage of fermented dairy products, the inability to support the growth of most microorganisms, and the difficulty of developing cultures with antifungal effects, so as to reduce the post-acidification effect, reduce the ph of milk products, and reduce the effect of ph

Inactive Publication Date: 2018-09-06
CHR HANSEN AS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The present invention relates to Lactobacillus fermentum strains that have beneficial effects on fermented milk products. These strains increase the pH of the product during storage after fermentation, which helps to prevent the product from becoming too acidic. This is particularly useful in fermentation processes that use starter cultures that can cause post-acidification. The strains also reduce the post-acidification effect caused by other bacteria, such as antifungal bacteria. The strains can be derived from deposited strains or can be developed through genetic modification. Overall, the invention provides a way to improve the quality and stability of fermented milk products.

Problems solved by technology

Products having an acidic pH do not support further growth of most microorganisms, including pathogenic and spoilage bacteria.
However, growth of yeasts and moulds is not affected by low pH and often cause spoilage of fermented dairy products.
Developing cultures with antifungal effects represents a big challenge, as it requires the identification of cultures that provide significant antifungal effect in real food applications.
A problem that has been identified in the commercial products is the extent of post acidification, i.e. continuation of acidification by the culture after the product has reached the desired pH.
This represents a problem in particular at elevated storage temperatures, during holding of the fermented product in fermentation tanks before product cooling or during maturation steps.

Method used

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  • Lactobacillus fermentum bacteria with antifungal activity
  • Lactobacillus fermentum bacteria with antifungal activity
  • Lactobacillus fermentum bacteria with antifungal activity

Examples

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Effect test

example 1

[0146]Semi-Quantitative Analysis of the Inhibitory Effect of Lb. Fermentum CHCC14591 Against Different Yeast and Mold Contaminants and Diacetyl Production

[0147]For the semi-quantitative analysis of the inhibitory effect of Lb. fermentum CHCC14591, an agar-assay was used, resembling the manufacturing process and product of yoghurt:

[0148]Reduced-fat (1.5% w / v) homogenized milk was heat-treated at 90±1° C. for 20 min and cooled immediately. A commercial starter culture (F-DVS Mild 2.0) was inoculated at 0.02% (v / w), and the inoculated milk was distributed into 200 ml bottles. One bottle was inoculated with Lb. fermentum CHCC14591 in total concentration of 2×107 CFU / g, two bottles were inoculated with either of two commercial bioprotective cultures (FreshQ®4 and Holdbac® YM-C Plus) in recommended dosages (100 U / T and 20 DCU / 100 L for FreshQ®4 and Holdbac® YM-C Plus, respectively), and one bottle was used as a reference and only inoculated with the starter culture. All bottles were incub...

example 2

[0159]Semi-Quantitative Analysis of the Inhibitory Effect of Lb. Fermentum CHCC14591 in Combination with Lb. Rhamnosus CHCC15860 Against Different Mold Contaminants

[0160]For the semi-quantitative analysis of the inhibitory effect of a combination of Lb. fermentum CHCC14591 and Lb. rhamnosus CHCC15860, an agar-assay was used, resembling the manufacturing process and product of yoghurt:

[0161]Reduced-fat (1.5% w / v) homogenized milk was heat-treated at 90±1° C. for 20 min and cooled immediately. A commercial starter culture (F-DVS Mild 2.0) was inoculated at 0.02% (v / w), and the inoculated milk was distributed into 200 ml bottles. One bottle was inoculated with Lb. rhamnosus CHCC15860 in total concentration of 1×107 CFU / g, one bottle was inoculated with Lb. fermentum CHCC14591 in total concentration of 1×107 CFU / g, one bottle was inoculated with Lb. fermentum CHCC14591 and Lb. rhamnosus CHCC15860 each in concentration of 5×106 CFU / g, and one bottle was used as a reference and only inocu...

example 3

[0164]Semi-Quantitative Analysis of the Inhibitory Effect of Ten Lb. Fermentum Strains Against Different Mold Contaminants

[0165]For the semi-quantitative analysis of the inhibitory effect of ten Lb. fermentum strains, an agar-assay was used, resembling the manufacturing process and product of yoghurt:

[0166]Reduced-fat (1.5% w / v) homogenized milk was heat-treated at 90±1° C. for 20 min and cooled immediately. A commercial starter culture (F-DVS YF-L901) was inoculated at 0.02% (v / w), and the inoculated milk was distributed into 200 ml bottles. Ten bottles were inoculated with the Lb. fermentum strains in concentrations of 1×107 CFU / g and one bottle was used as a reference and only inoculated with the starter culture. All bottles were incubated in a water bath at 43±1° C. and fermented at these conditions until pH of 4.60±0.1 was reached. After fermentation, the bottles were vigorously shaken to break the coagulum and cooled on ice. Then the fermented milk was warmed to a temperature ...

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Abstract

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 107 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.

Description

FIELD OF THE INVENTION[0001]The present invention relates to Lactobacillus fermentum bacteria with antifungal activity, compositions comprising the bacteria, in particular adjunct cultures comprising the bacteria, methods of producing a fermented milk product using the bacteria or the cultures and the fermented milk products thus obtained, including food, feed and pharmaceutical products.BACKGROUND OF THE INVENTION[0002]Lactic acid bacteria (LAB) have been used in decades for increasing the shelf life of food products. During fermentation LAB produce lactic acid as well as other organic acids which cause a reduction of pH of the fermented product. Products having an acidic pH do not support further growth of most microorganisms, including pathogenic and spoilage bacteria. However, growth of yeasts and moulds is not affected by low pH and often cause spoilage of fermented dairy products.[0003]In addition to the production of organic acids some LAB also produce metabolites with antimi...

Claims

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Application Information

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IPC IPC(8): A23C9/123A23K10/18A23L33/135
CPCA23C9/1234A23K10/18A23L33/135C12N1/20A23V2002/00A23Y2220/35C12R1/225A23C9/1236A23C9/1238A23L3/3571C12R2001/225C12N1/205A23V2400/137A23V2400/147A23V2400/157A23V2400/143A23V2400/215A23V2400/165A23V2400/113A23V2400/175A23V2400/31A23V2400/169A23V2400/249A23V2400/519A23V2200/10A23C9/123A23L29/00A61K35/747A61P31/04A61P31/10
Inventor NIELSEN, CECILIE LYKKE MARVIGHORNBAEK, TINARASMUSSEN, PIAPOULSEN, LONEECKHARDT, THOMASOEREGAARD, GUNNARMOGHADAM, ELAHE GHANEI
Owner CHR HANSEN AS
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