Devices, systems and methods for affinity reagent and catalyst discovery employing a library on a bead HTS platform, each bead comprising affixed non-natural polymers of a distinct bioactive monomer with sequence pre-defined branching and folding in tertiary structures, and fiber-optic array scanning technology.

Devices, systems and methods for affinity reagent and catalyst discovery employing a library on a bead HTS platform, each bead comprising affixed non-natural polymers of a distinct bioactive monomer with sequence pre-defined branching and folding in tertiary structures, and fiber-optic array scanning technology.

Field of application: The invention relates to combinatorial chemistry, pharmacy and cosmetology, allows to synthesize new combinatorial libraries of derivatives of antibiotics for use in pharmacy, cosmetology and pharmacy.

Technical result: modified combinatorial derivatives of antibiotics with antimicrobial and antifungal activity against multiresistant and pan drug resistance strains of microorganisms and fungi. Means have a wide spectrum of action, and the supramolecular and combinatorial structure of their tens and hundreds of derivatives eliminates the resistance of microorganisms.

Methods for the identification of agents the bind to exo-sites of proteins are provided. Agents identified by the methods described herein and pharmaceutical compositions comprising the identified agents are also provided. Methods of using an identified agent for the treatment or prevention of a disease, disorder, or condition are also provided, including methods of treating or preventing a disease associated with reduced, elevated, or ectopic expression or aberrant activity of a protein comprising an exo-site.

Methods for the identification of agents the bind to exo-sites of proteins are provided. Agents identified by the methods described herein and pharmaceutical compositions comprising the identified agents are also provided. Methods of using an identified agent for the treatment or prevention of a disease, disorder, or condition are also provided, including methods of treating or preventing a disease associated with reduced, elevated, or ectopic expression or aberrant activity of a protein comprising an exo-site.

The invention relates to a method for synthesising templated molecules attached to the templated which directed the synthesis thereof. The method involves a template, a scaffold functional entity and a functional entity attached to a building block, which, in turn, is attached the template. The scaffold functional entity and the functional entity of the building block are both provided with complementary dimerization domains allowing the functional entities to come into close proximity when the complementary domains interact with to each other. The method may be used for generating libraries of templated molecules which may be selected for biological activity.

The present disclosure relates to compounds that bind to at least one of ACAT1/2 and OXCT1/2 and inhibit mitochondrial ATP production, referred to herein as mitoketoscins. Methods of screening compounds for mitochondrial inhibition and anti-cancer properties are disclosed. Also described are methods of using mitoketoscins to prevent or treat cancer, bacterial infections, and pathogenic yeast, as well as methods of using mitoketoscins to provide anti-aging benefits. Specific mitoketoscin compounds are also disclosed.

The present disclosure relates to compounds that bind to at least one of ACAT1/2 and OXCT1/2 and inhibit mitochondrial ATP production, referred to herein as mitoketoscins. Methods of screening compounds for mitochondrial inhibition and anti-cancer properties are disclosed. Also described are methods of using mitoketoscins to prevent or treat cancer, bacterial infections, and pathogenic yeast, as well as methods of using mitoketoscins to provide anti-aging benefits. Specific mitoketoscin compounds are also disclosed.

The present disclosure relates to compounds that bind to at least one of ACAT1/2 and OXCT1/2 and inhibit mitochondrial ATP production, referred to herein as mitoketoscins. Methods of screening compounds for mitochondrial inhibition and anti-cancer properties are disclosed. Also described are methods of using mitoketoscins to prevent or treat cancer, bacterial infections, and pathogenic yeast, as well as methods of using mitoketoscins to provide anti-aging benefits. Specific mitoketoscin compounds are also disclosed.

The present disclosure relates to compounds that bind to at least one of ACAT1/2 and OXCT1/2 and inhibit mitochondrial ATP production, referred to herein as mitoketoscins. Methods of screening compounds for mitochondrial inhibition and anti-cancer properties are disclosed. Also described are methods of using mitoketoscins to prevent or treat cancer, bacterial infections, and pathogenic yeast, as well as methods of using mitoketoscins to provide anti-aging benefits. Specific mitoketoscin compounds are also disclosed.