The probiotic composition comprises at least one lactic acid bacteria strain, preferably Lactobacillus with intestinal tropism, for use in promoting juvenile growth in livestock, with stimulation of linear growth and/or of IGF-1 level. Exemplary lactic acid bacteria include Lactobacillus plantarum, Lactobacillus fermentum, Lactobacillus casei, Lactobacillus paracasei and Lactobacillus rhamnosus. The strains can be selected in a mouse model. The invention also relates to a probiotic treatment method using this composition.

The probiotic composition comprises at least one lactic acid bacteria strain, preferably Lactobacillus with intestinal tropism, for use in promoting juvenile growth in livestock, with stimulation of linear growth and/or of IGF-1 level. Exemplary lactic acid bacteria include Lactobacillus plantarum, Lactobacillus fermentum, Lactobacillus casei, Lactobacillus paracasei and Lactobacillus rhamnosus. The strains can be selected in a mouse model. The invention also relates to a probiotic treatment method using this composition.

The present invention relates to processes to make neosaxitoxin, and analogues and variants thereof, and intermediates in the production of neosaxitoxin in recombinant host cells. Neosaxitoxin and the analogues and variants thereof may be used in the production of pharmaceutical compositions.

The invention relates to a method for obtaining a mineral substance from a base comprising mineral matter, the method comprising obtaining the base comprising a predetermined quantity of the mineral matter synthesised by a living structure or a portion of the latter, characterised in that obtaining the base comprises providing the living structure and providing at least one lactic acid microorganism suitable for symbiosis with the living structure for the synthesis of the mineral matter of the mineral substance. The invention also relates to a mineralising composition comprising a living structure, a lactic acid microorganism, a nutritive substance; the mineral substance used in the method; and the use of a combination of a living structure and a lactic acid microorganism in symbiosis with each other as a mineralising agent in a self-regenerating material.

The invention relates to a method for obtaining a mineral substance from a base comprising mineral matter, the method comprising obtaining the base comprising a predetermined quantity of the mineral matter synthesised by a living structure or a portion of the latter, characterised in that obtaining the base comprises providing the living structure and providing at least one lactic acid microorganism suitable for symbiosis with the living structure for the synthesis of the mineral matter of the mineral substance. The invention also relates to a mineralising composition comprising a living structure, a lactic acid microorganism, a nutritive substance; the mineral substance used in the method; and the use of a combination of a living structure and a lactic acid microorganism in symbiosis with each other as a mineralising agent in a self-regenerating material.

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.

The present invention is directed to a method of producing a Streptococcus thermophilus strain comprising the steps of a) Providing a mother strain in the form of Streptococcus thermophilus DSM32502, b) Growing a culture of the mother strain in the presence of a bacteriophage, to which the mother strain is not resistant, to obtain a number of mutant strains, which are resistant to the said bacteriophage, c) Measuring the acidification time of the bacteriophage-resistant mutant strains and the mother strain in a milk base and selecting at least one mutant strain with a reduced acidification time as compared to the mother strain to obtain a fast-acidifying mutant strain.

The present invention is directed to a method of producing a Streptococcus thermophilus strain comprising the steps of a) Providing a mother strain in the form of Streptococcus thermophilus DSM32502, b) Growing a culture of the mother strain in the presence of a bacteriophage, to which the mother strain is not resistant, to obtain a number of mutant strains, which are resistant to the said bacteriophage, c) Measuring the acidification time of the bacteriophage-resistant mutant strains and the mother strain in a milk base and selecting at least one mutant strain with a reduced acidification time as compared to the mother strain to obtain a fast-acidifying mutant strain.

Methods and systems are provided for generating and utilizing a bacterial composition that comprises at least one genetically engineered bacterial strain that fixes atmospheric nitrogen in an agricultural system that has been fertilized with more than 20 lbs of Nitrogen per acre.

Methods and systems are provided for generating and utilizing a bacterial composition that comprises at least one genetically engineered bacterial strain that fixes atmospheric nitrogen in an agricultural system that has been fertilized with more than 20 lbs of Nitrogen per acre.