The present invention provides an antibody binding to CD25 or an antigen-binding fragment thereof and a use thereof for the preparation of a therapeutic cancer drug. The antibody or antigen-binding fragment thereof comprises a light chain variable region and a heavy chain variable region containing a specific complementarity-determining region sequence. The antibody or antigen-binding fragment has one or more of the following advantages: enhanced CD25 protein binding ability, enhanced CD25 protein affinity, enhanced CD25 expressing cell killing ability, weakened PBMC activation inhibition, enhanced in vivo tumor growth inhibition ability, enhanced in vivo tumor killing ability, enhanced ability to reduce the number of Treg cells, or enhanced ability to increase the number of effector T cells.

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 instant technology generally relates to improved methods for producing antibodies, antibody libraries, hybridomas, hybridoma libraries, etc. For example, these methods increase the number of antigen-specific B cells produced, increase the number of hybridomas, and/or increase the number of monoclonal antibodies that can be made in a given production cycle.

Provided is a vector library for yeast two-hybrid screening of a deubiquitinating enzyme that binds to a target protein and a method for identifying a deubiquitinating enzyme binding to a target protein using the same. Further provided is a method for screening an agent having anti-cancer activity targeting the deubiquitinating enzyme USP1, USP7, USP12, or USP49 identified by the identifying method.

Provided is a vector library for yeast two-hybrid screening of a deubiquitinating enzyme that binds to a target protein and a method for identifying a deubiquitinating enzyme binding to a target protein using the same. Further provided is a method for screening an agent having anti-cancer activity targeting the deubiquitinating enzyme USP1, USP7, USP12, or USP49 identified by the identifying method.

The present invention relates to a library of particles, the library displaying a plurality of different T cell receptors (TCRs), wherein the plurality of TCRs consists essentially of TCRs comprising an alpha chain variable domain and a beta chain variable domain, wherein the alpha chain variable domain comprises a TRAV12-2 gene product and the beta chain variable domain comprises a TRBV gene product.

The present invention relates to a library of particles, the library displaying a plurality of different T cell receptors (TCRs), wherein the plurality of TCRs consists essentially of TCRs comprising an alpha chain variable domain and a beta chain variable domain, wherein the alpha chain variable domain comprises a TRAV12-2 gene product and the beta chain variable domain comprises a TRBV gene product.

The present invention relates to a library of particles, the library displaying a plurality of different T cell receptors (TCRs), wherein the plurality of TCRs consists essentially of TCRs comprising an alpha chain comprising an alpha chain variable domain and a beta chain comprising a beta chain variable domain and the library comprises more than one TRAV gene product and/or more than one TRBV gene product, wherein the beta chain variable domain does not comprise one or more of a TRBV5-1, 5-3, 5-4, 5-5, 5-6, 5-7 or 5-8 gene product and wherein the plurality of TCRs do not consist essentially of TCRs comprising a TRAV12-2 gene product from a natural repertoire and a TRBV6 gene product from a natural repertoire and TCRs comprising a TRAV21 gene product from a natural repertoire and a TRBV6 gene product from a natural repertoire.

The current disclosure provides protein residue mapping using a combination of deep mutational scanning and phage display high throughput sequencing. The disclosed methods allow mapping of antibody epitopes and determination of changes in residues of a protein that abolish binding of the protein to a candidate binding molecule.

The invention provides a replicable genetic package displaying a cyclic peptide having at least one intramolecular bond between amino acid side chains. Also provided are a method of preparing such a genetic package displaying cyclic peptides having at least one intramolecular bond. Further provided is a library of replicable genetic packages displaying cyclic peptides each having at least one intramolecular cyclic bond between amino acid side chains; and a method of producing such a library.