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 discloses a method for the preparation of a peptide by liquid phase coupling of two fragments, an N-terminal fragment and a C-terminal fragment of the desired peptide, wherein the C-terminal fragment is protected on its C-terminal COOH by a psWang linker; the method is demonstrated with liraglutide wherein the C-terminal fragment carries the Palmitoyl-Glu-OtBu residue on the Lys.

Scope: The invention relates to organic and bioorganic combinatorial chemistry and pharmacia, namely to new combinatorial library of dipiridamol derivative and supramolecular structures based on them, which when being used not separated in individual components, have high bioactivity as a means of stem cell fission encouragement as pharmaceutical compositions combined with phosphodiesterase inhibitors and histone deacetylase inhibitors, as well as pharmaceutically acceptable excipients. The composition can also be used to struggle with resistant microorganisms by establishing their sensitivity to antibiotics.

The invention is directed to methods for synthesizing oligonucleotides direction on biomolecules or cells living or fixed. In some embodiments, template-free enzymatic synthesis is implemented under biological conditions with successive cycles of (i) enzymatic addition of a 3′-O-blocked nucleoside triphosphate and (ii) enzymatic deblocking of the incorporated nucleotide to regenerate a free 3′ hydroxyl. The invention has applications in single-cell cDNA library construction and analysis.

The invention is directed to methods for synthesizing oligonucleotides direction on biomolecules or cells living or fixed. In some embodiments, template-free enzymatic synthesis is implemented under biological conditions with successive cycles of (i) enzymatic addition of a 3′-O-blocked nucleoside triphosphate and (ii) enzymatic deblocking of the incorporated nucleotide to regenerate a free 3′ hydroxyl. The invention has applications in single-cell cDNA library construction and analysis.

A compound library may include a plurality of conjugate molecules, said conjugates comprising a small organic molecule covalently coupled to a nucleic acid moiety. The nucleic acid moiety may include or consist of 7-deazapurines and/or 7-deaza-8-azapurines, and, optionally, modified pyrimidine nucleotides and/or unmodified pyrimidine nucleotides. Further, a library for screening compounds binding to a target molecule and methods of synthesizing said library is also disclosed.

Disclosed herein, inter alia, are methods and compositions for sequencing a plurality of template nucleic acids.

The invention comprises a method and compositions for sequencing library preparation, which increases the throughput of single-molecule sequencing (SMS) platforms by generating long concatenated templates from pools of short DNA molecules.

The invention comprises a method and compositions for sequencing library preparation, which increases the throughput of single-molecule sequencing (SMS) platforms by generating long concatenated templates from pools of short DNA molecules.

The invention related to organic and bioorganic combinatorial chemistry, namely, to new combinatorial libraries of polysaccharide derivatives and supramolecular structures based on them, which, when used without separation into separate components, have high biological activity.

The essence is a combinatorial library and a supramolecular structure based on it from biologically active derivatives of polysaccharides, as well as pharmaceutical compositions based on them with a hemostatic, wound healing, antiviral and immunomodulating action, containing as an active substance an undivided whole combinatorial mixture of substituted glucopyranose polymer derivatives, obtained simultaneous combinatorial modification of a polysaccharide with at least two covalent modifier in the synthesis, a combinatorial mixture with the maximum number of combinations of modified polysaccharide derivatives is formed, and as a biologically active substance, a whole combinatorial mixture of polysaccharide derivatives in the form of a supramolecular structure without separation into individual components is used to obtain a pharmaceutical composition.