Provided herein are methods, chemical library and simulation system for performing in situ patterned chemistry. Methods, systems and assays comprising the use of the synthesized chemical libraries, which increase explored protein space in a knowledge-based manner, are also provided for characterizing antibody-target interactions including: identifying target proteins of antibodies, characterizing antibody-binding regions in target proteins, identifying linear and structural epitopes in target proteins, and determining the propensity of antibody binding to target proteins.

Methods and systems are provided herein for selecting an affinity reagent which binds a desired peptide epitope in a plurality of sequence contexts. The method relies on obtaining a peptide library, each peptide having the sequence ?X?, wherein X is the desired peptide epitope, wherein each of ? and ? comprise an amino acid, using the peptide library to select an affinity reagent.

The present disclosure relates to compositions of matter and assay methods used to screen for molecular dimerization events using a two-ribonucleoprotein complex signal boost assay. The compositions and methods provide a readout upon detection of dimerization of molecules and may be implemented in a high throughput manner using libraries of tens to hundreds to thousands of putative binding partners.

The present invention relates to a polypeptide comprising an antigen binding domain and a carrying moiety having an inhibiting domain that inhibits the antigen binding activity of the antigen binding domain, and having a longer half-life than that of the antigen binding domain existing alone, methods for producing and screening for the polypeptide, a pharmaceutical composition comprising the polypeptide, methods for producing and screening for a single-domain antibody whose antigen binding activity is inhibited by associating with particular VL, VH or VHH, and a fusion polypeptide library including a single-domain antibody whose antigen binding activity is inhibited by associating with particular VL, VH or VHH.

The present application relates to the field of cell immunity, and discloses an interacting protein screening platform for preparing a cell membrane. A cell membrane protein and a membrane protein encoding gene to be tested are respectively expressed in different cells; after staining, cells expressing different membrane proteins and cells expressing target proteins are co-incubated; and then interacting membrane proteins are obtained by screening, and specific sequences thereof are determined by sequencing. The screening platform provided in the present application can screen a variety of cell membrane proteins and membrane protein-based engineering cells, and has strong specificity, thereby greatly improving the efficiency of screening interacting proteins and reducing the difficulty, providing a simple and convenient tool for studying the mechanism of action of cell membrane proteins, and improving the screening throughput.

Provided are modulators of androgen receptor (AR) condensates, methods of modulating or inhibiting AR condensates, and methods of treating diseases and conditions using such modulators or inhibitors of AR condensates.

The disclosure relates to a fluorescence resonance energy transfer (FRET)-based biosensor for sensing chimeric antigen receptor (CAR) activity and use thereof, and in particular, to a FRET-based biosensor, which simultaneously detects binding of an antigen-binding receptor domain to a cancer antigen and consequent activation of T cells, and a method of screening for CAR activity in a live cell by using the FRET-based biosensor.

The present invention is related to a method for recovering two or more genes, or gene products, or cDNAs, encoding for an immunoreceptor having two or more subunits, which two or more genes, or gene products, are comprised in a given source cell. The invention is further related to a method of creating a library of expressor cells, in which library each cell is capable of expressing two or more genes, or gene products, encoding for the subunits of the immunoreceptor. The invention is further related to a method of screening a library of expressor cells as created according to the above method, for one cell that expresses an immunoreceptor that has specificity for a given target molecule.

Systems, devices and methods for predicting binding on an array such as a peptide array. Certain methods utilize a peptide array having a plurality of peptides with one or more defined parameters and contacting the peptide array with a training sample containing one or more molecules of interest. Interactions between the plurality of peptides and the one or more molecules of interest are processed according to a data fitting model, which model is then is applied to interactions between the plurality of peptides and a test sample to predict binding associated with the one or more molecules of interest.

The present invention relates to methods for predicting T cell epitopes useful for vaccination. In particular, the present invention relates to methods for predicting whether modifications in peptides or polypeptides such as tumor-associated neoantigens are immunogenic and, in particular, useful for vaccination, or for predicting which of such modifications are most immunogenic and, in particular, most useful for vaccination. The methods of the invention may be used, in particular, for the provision of vaccines which are specific for a patient's tumor and thus, in the context of personalized cancer vaccines.