The invention concerns a chemical compound comprising a chemical moiety (p) capable of performing a binding interaction with a target molecule (e.g. a biological target) and further comprising an oligonucleotide (b) or functional analogue thereof. In a first embodiment according to the invention, the chemical compound is characterized in that the oligonucleotide (b) or functional analogue comprises at least one self-assembly sequence (b1) capable of performing a combination reaction with at least one self-assembly sequence (b1) of a complementary oligonucleotide or functional analogue bound to another chemical compound comprising a chemical moiety (q). In a second embodiment according to the invention, the chemical compound which comprises a coding sequence (b1) coding for the identification of the chemical moiety (p) is characterized in that the chemical compound further comprises at least one self-assembly moiety (m) capable of performing a combination reaction with at least one self-assembly moiety (m) of a similar chemical compound comprising a chemical moiety (q). The invention comprises corresponding libraries of chemical compounds as well as methods of biopanning of target molecules and of identifying such targets.

Methods, reagents, compositions, and kits for in situ interaction determination (ISID) via interaction-dependent polymerase chain reaction (ID-PCR) are provided herein. ISID technology is useful for rapidly evaluating potential small molecule-target interactions from mixtures in a single solution. ISID is compatible with unpurified targets in biological samples and can be used to evaluate ligand-binding in DNA-encoded chemical libraries in cell lysates. ISID is also useful to screen ligand interactions of proteins or other molecules in their native state, including their native post-translational modifications and any interactions with accessory proteins and metabolites, in ways that better reflect their relevant biological environment. Because ISID is compatible with crude cell lysates, difficult-to-purify, poorly soluble, intrinsically unstable, and aggregation-prone targets may also be compatible with this method, without requiring truncation or other strategies used to promote heterologous expression.

Methods, reagents, compositions, and kits for in situ interaction determination (ISID) via interaction-dependent polymerase chain reaction (ID-PCR) are provided herein. ISID technology is useful for rapidly evaluating potential small molecule-target interactions from mixtures in a single solution. ISID is compatible with unpurified targets in biological samples and can be used to evaluate ligand-binding in DNA-encoded chemical libraries in cell lysates. ISID is also useful to screen ligand interactions of proteins or other molecules in their native state, including their native post-translational modifications and any interactions with accessory proteins and metabolites, in ways that better reflect their relevant biological environment. Because ISID is compatible with crude cell lysates, difficult-to-purify, poorly soluble, intrinsically unstable, and aggregation-prone targets may also be compatible with this method, without requiring truncation or other strategies used to promote heterologous expression.

Contemplated compositions, devices, and methods are drawn to various antigens from the pathogen M. tuberculosis and their use in vaccines, therapeutic agents, and various diagnostic tests. In particularly preferred aspects, the antigens are immunodominant and have quantified and known relative reactivities with respect to sera of a population infected with the pathogen, and/or have a known association with a disease parameter.

Disclosed herein are methods for the generation of nucleic acid libraries encoding for gRNA sequences. The gRNAs encoded by methods described herein may be single or double gRNA sequences. Methods described provide for the generation of gRNA libraries, as a DNA precursor or as a RNA transcription product, with improved accuracy and uniformity.

Provided herein are methods of selective screening. In addition, various targeting proteins and sequences, as well as methods of their use, are also provided.

The present invention relates generally to the fields of cell biology and laboratory diagnostics, and particularly to general compositions and of uniquely tagged particles linked to moieties of known properties and methods of making tagged, functionalized particles. Additionally, the invention relates to methods of screening a collection of tagged functionalized particles.

The present invention relates generally to the fields of cell biology and laboratory diagnostics, and particularly to general compositions and of uniquely tagged particles linked to moieties of known properties and methods of making tagged, functionalized particles. Additionally, the invention relates to methods of screening a collection of tagged functionalized particles.

The present invention provides methods, compositions and kits for targeted nucleic acid sequence enrichment in a nucleic acid sample and for high efficiency nucleic acid library generation for next generation sequencing (NGS). Specifically, the methods, compositions and kits provided herein are useful for the production and capture of amplification-ready, target-specific and strand-specific regions of interest from nucleic acid samples containing complex DNA.

Presented herein are transposase enzymes and reaction conditions for improved fragmentation and tagging of nucleic acid samples, in particular altered transposases and reaction conditions which exhibit improved insertion sequence bias, as well as methods and kits using the same.