The present invention provides materials and methods for alleviating organophosphate toxicity. More specifically, the invention provides pharmaceutical compositions comprising a protein, and/or biologically-active fragments and variants thereof, and methods of using the same.
The present invention provides materials and methods for alleviating organophosphate toxicity. More specifically, the invention provides pharmaceutical compositions comprising a protein, and/or biologically-active fragments and variants thereof, and methods of using the same.
The present invention provides a novel protein and biologically-active fragments and variants thereof with advantageous therapeutic and cosmetic uses. Also provided are methods of using the proteins, as well as methods of producing the proteins using a recombinant cell. Further provided are recombinant host cells transformed with a polynucleotide sequence that encodes the expression of the proteins.
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 subject invention provides materials and methods that effectively support innate immunity and/or disperse pathogenic biofilms using readily available, nontoxic, natural substances, while supporting restoration of normal microbiotic homeostasis. In one embodiment, the subject invention provides anti-biofilm compositions comprising one or more probiotic organisms, anti-microbial honey, and other ingredients such as prebiotic compounds, other hive products, green tea derivatives, other plant derivatives, and vitamin D3.
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 provides a novel protein and biologically-active fragments and variants thereof with advantageous therapeutic and cosmetic uses. Also provided are methods of using the proteins, as well as methods of producing the proteins using a recombinant cell. Further provided are recombinant host cells transformed with a polynucleotide sequence that encodes the expression of the proteins.
The subject invention provides compositions and methods of enhancing the barrier function of surfaces and/or objects using biochemical-producing microbes and/or byproducts synthesized by the microbes. Preferred embodiments of the invention provide compositions, and the methods of using the same, comprising a Lactobacillus sp., and/or bioactive extracts thereof, derived from human microbiota and capable of growing in biofilm phenotype.
The subject invention provides compositions and methods for inhibiting viral infections. Preferred embodiments of the invention provide pharmaceutical compositions, and the methods of using the same, comprising a strain of Lactobacillus fermentum bacterium, or bioactive extracts thereof.
The present invention provides materials and methods for alleviating organophosphate toxicity. More specifically, the invention provides pharmaceutical compositions comprising a protein, and/or biologically-active fragments and variants thereof, and methods of using the same.
