The invention relates to a method for selecting a sequence set from a library of expressed nucleic acid sequences, wherein cells are provided, each cell comprises an expressed nucleic acid sequence expressed as a target protein. The cells are encapsulated by treating them with a cationic polysaccharide and subsequently treating them with an anionic polysaccharide, yielding encapsulated cells, perforating the membrane of the encapsulated cells, yielding solubilized compartments, contacting them with a ligand to said target protein, the ligand bearing a detectable label, and selecting a subset of solubilized compartments as a function of detectable label and isolating the expressed nucleic acid sequences from the selection as a selected sequence set.

Provided herein are lasso peptides libraries, and particularly phage display libraries of lasso peptides. Also provided herein are related methods and systems for producing the libraries and for screening the libraries to identify candidate lasso peptides having desirable properties.

The present disclosure relates, in one aspect, to the identification of certain peptides that allow for transport of a solid particle across the air-blood barrier in the lungs. In certain embodiments, the solid particle comprises any sort of solid cargo to which the peptides contemplated in the disclosure can be attached.

A method of producing a therapeutic or preventive antibody for a cancer and/or tumor of interest is disclosed. The methods include binding antibodies of interest to frameshift peptide arrays, selecting frameshift peptides that are immunoreactive to the antibodies, and preparing an antibody composition against the selected frameshift peptides. Also disclosed are antibody compositions, methods of eliciting an immune response and methods of treatment using the methods of producing the antibodies as described herein.

The invention provides methods and compositions for identifying binding polypeptides (e.g., antibodies or antigen binding fragments thereof) that specifically binds to a cell-surface antigen. The methods of the invention generally comprise contacting a variegated nucleic acid-display library of binding polypeptides with a cell-surface antigen displayed on the exterior surface of a cell; and isolating from the library at least one library member that specifically binds to the cell-surface antigen on the exterior surface of the cell.

Disclosed herein are methods and compositions for generating a repertoire of recombinant fusion polypeptides from immune cells, and uses thereof.

Compositions and methods for identifying antigen-specific T cells, including determining paired T cell receptor sequences for a specific antigen, are described. Compositions and methods for identifying neoantigen-specific T cells are also described. Microfluidic devices useful for identifying antigen-specific T cells, and methods of using the same, are also described.

The present disclosure provides methods, systems, and kits for processing nucleic acid molecules. A method may comprise providing a template nucleic acid fragment (e.g., within a cell, cell bead, or cell nucleus) within a partition (e.g., a droplet or well) and subjecting the template nucleic acid fragment to one or more processes including a barcoding process and a single primer extension or amplification process. The processed template nucleic acid fragment may then be recovered from the partition and subjected to further amplification to provide material for subsequent sequencing analysis. The methods provided herein may permit simultaneous processing and analysis of both DNA and RNA molecules originating from the same cell, cell bead, or cell nucleus.

Provided herein are methods for identifying pairs of protein binding partners, mutations of which may inform the discovery of pharmaceutically useful small molecules. The methods disclosed herein may allow for the adaptation of the native protein degradation system to modulate specific disease targets at the protein level, in particular, for targets that have long been considered undruggable.

Provided herein are systems and methods for screening desirable biological variants using a high-throughput integrated system. The integrated system may be configured to input a plurality of parameters from functional studies of biological variants under applied conditions, in conjunction with integrated libraries of biological variants, and filter the inputs to produce desirable biological variants based on an input performance requirement. The system may output optimized strains, molecules, or novel molecules expected to have a desirable functional characteristic. Accordingly, the methods and systems disclosed herein enable multi-parametric studies of biological diversity and conditional diversity in systems biology.