Compositions and methods are provided for peptide sequences that are ligands for a T cell receptor (TCR) of interest, in a given MHC context.

Compositions and methods are provided for peptide sequences that are ligands for a T cell receptor (TCR) of interest, in a given MHC context.

The present invention generally relates to microfluidic devices, including systems and methods for tagging droplets within such devices. In some aspects, microfluidic droplets are manipulated by exposing the droplets (or other discrete entities) to a variety of different conditions. By incorporating into the droplets a plurality of nucleic acid tags, and optionally ligating then nucleic acids together, the conditions that a droplet was exposed to may be encoded by the nucleic acid tags. Thus, even if droplets exposed to different conditions are mixed together, the conditions that each droplet encountered may still be determined, for example, by sequencing the nucleic acids.

This invention relates to the synthesis of nucleic acid-encoded chemical libraries using common adaptor sequences. Nucleic acid strands coupled to chemical moieties may be contacted with identifier oligonucleotides comprising coding sequences encoding the chemical moieties and an adaptor oligonucleotides, such that the adaptor oligonucleotide hybridizes to both the nucleic acid strands and the identifier oligonucleotides to allow ligation of the identifier oligonucleotides to the nucleic acid strands. The adaptor oligonucleotide is then removed. Nucleic acid-encoded chemical libraries, and methods of producing or screening such libraries are provided.

Disclosed is a method for obtaining a bifunctional complex comprising a display molecule part and a coding part, wherein a nascent bifuntional complex comprising a chemical reaction site and a priming site for enzymatic addition of a tag is reacted at the chemical reaction site with one or more reactants, and provided with respective tag(s) identifying the reactant(s) at the priming site is using one or more enzymes.

Disclosed herein is a method of generating a combinatorial library of products having a diverse array of properties. In particular, the method comprises: (a) selecting one or more pairs of reactants comprising complementary functional groups; (b) mapping all possible bond arrangements between the complementary functional groups of each pair to provide a library of possible products; (c) analyzing one or more properties of each possible product to select one or more products with desired properties (desired products); and (d) synthesizing the one or more desired products. Further disclosed herein is a method that involves the retrosynthetic reduction of a complex molecule into simple starting materials.

Embodiments disclosed herein are directed to microfluidic devices that allow for scalable on-chip screening of combinatorial libraries and methods of use thereof. Droplets comprising individual molecular species to be screened are loaded onto the microfluidic device. The droplets are labeled by methods known in the art, including but not limited to barcoding, such that the molecular species in each droplet can be uniquely identified. The device randomly sorts the droplets into individual microwells of an array of microwells designed to hold a certain number of individual droplets in order to derive combinations of the various molecular species. The paired droplets are then merged in parallel to form merged droplets in each microwell, thereby avoiding issues associated with single stream merging. Each microwell is then scanned, e.g., using microscopy, such as high content imaging microscopy, to detect the optical labels, thereby identifying the combination of molecular species in each microwell.