The invention generally relates to methods for quantifying an amount of enzyme molecules. Systems and methods of the invention are provided for measuring an amount of target by forming a plurality of fluid partitions, a subset of which include the target, performing an enzyme-catalyzed reaction in the subset, and detecting the number of partitions in the subset. The amount of target can be determined based on the detected number.

The present invention relates to a set of two or more mass labels, wherein each mass label comprises the formula:
X-L-M-Re
wherein X is a reporter moiety having an exact mass, L is a bond cleavable by collision in a mass spectrometer, M is a mass modifier, and Re is a) a reactive functionality for attaching the mass label to an analyte or b) the analyte, wherein each mass label in the set has an integer mass, wherein each mass label in the set has the same integer mass, and wherein the set comprises two or more subsets of mass labels, each subset comprising one, two or more mass labels, and wherein, when the subset comprises two or more mass labels, the exact mass of the reporter moiety X of each mass label in the subset is different from the exact mass of the reporter moiety X of the mass labels in the same subset and in all other subsets, and wherein each mass label is distinguishable by mass spectrometry.

Disclosed is an encoded chemical library microbead, which microbead has immobilized thereon and/or therein: (i) an encoding tag; and (ii) a target assay system reporter moiety, wherein the reporter moiety exists in a first state in the absence of activity against the target and in a second state in the presence of said activity, and wherein said microbead further comprises a clonal population of one or more chemical structure(s) releasably linked thereto and encoded by said tag.

Disclosed herein are methods for tracking solutions, (e.g., reaction conditions in solutions). In some embodiments, the method comprises: contacting a first lanthanide-chelator complex to a first solution to generate a first barcoded solution, wherein the first lanthanide-chelator complex comprises a first lanthanide chelated by a first chelator; contacting a second lanthanide-chelator complex to a second solution to generate a second barcoded solution, wherein the second lanthanide-chelator complex comprises a second lanthanide chelated by a second chelator; mixing the first barcoded solution and the second barcoded solution to form one or more mixtures; and identifying the first lanthanide ions in the mass spectrum and the second lanthanide ions in the mass spectrum to track the condition of each of the one or more mixtures.

The basis to develop a cosmetic and pharmaceutical composition based on a combinatorial derivative of quercetin in the form of nanoparticles (liposomes) for the treatment of atherosclerosis and its complications, as well as hypertension, for rejuvenating the body and healing wounds. The problem is solved by obtaining a cosmetic and pharmaceutical composition based on a combinatorial quercetin derivative, characterized in that the modified combinatorial quercetin derivative is represented as a combinatorial library (mixture) of quercetin derivatives obtained by simultaneous combinatorial modification of quercetin with at least two alkylating and acylating modifiers in the combinatorial reaction synthesis to obtain the maximum number of different derivatives of quercetin, and as biologically active substances, a whole combinatorial mixture of quercetin derivatives is used without separation into individual components to create cosmetic and pharmaceutical compositions.

The basis to develop a cosmetic and pharmaceutical composition based on a combinatorial derivative of quercetin in the form of nanoparticles (liposomes) for the treatment of atherosclerosis and its complications, as well as hypertension, for rejuvenating the body and healing wounds. The problem is solved by obtaining a cosmetic and pharmaceutical composition based on a combinatorial quercetin derivative, characterized in that the modified combinatorial quercetin derivative is represented as a combinatorial library (mixture) of quercetin derivatives obtained by simultaneous combinatorial modification of quercetin with at least two alkylating and acylating modifiers in the combinatorial reaction synthesis to obtain the maximum number of different derivatives of quercetin, and as biologically active substances, a whole combinatorial mixture of quercetin derivatives is used without separation into individual components to create cosmetic and pharmaceutical compositions.

The present invention features a number of methods for identifying one or more compounds that bind to a biological target. The methods include synthesizing a library of compounds, wherein the compounds contain a functional moiety having one or more diversity positions. The functional moiety of the compounds is operatively linked to an initiator oligonucleotide that identifies the structure of the functional moiety.

The invention generally relates to methods for quantifying an amount of enzyme molecules. Systems and methods of the invention are provided for measuring an amount of target by forming a plurality of fluid partitions, a subset of which include the target, performing an enzyme-catalyzed reaction in the subset, and detecting the number of partitions in the subset. The amount of target can be determined based on the detected number.

The invention generally relates to methods for quantifying an amount of enzyme molecules. Systems and methods of the invention are provided for measuring an amount of target by forming a plurality of fluid partitions, a subset of which include the target, performing an enzyme-catalyzed reaction in the subset, and detecting the number of partitions in the subset. The amount of target can be determined based on the detected number.

Subject-matter of the present invention is an array comprising soaking solutions for soaking a biological macromolecular crystal. Further, the subject of the invention is a rule-based method of selecting specific soaking solution compositions having a specific composition comprising composite solute(s), water (w), crystallization solution (crs) and/or organic solvent(s). Additionally, the subjects matter of the invention the soaking solutions obtained by the method of the invention and a screening method for small molecules comprising molecular probes, fragments and drug-size molecules using the soaking solutions and the use of the soaking solutions in a screening method for small molecules on a macromolecular crystal.