The present invention provides methods and compositions for performing ordered multi-step syntheses involving modified nucleic acids by nucleic acid-mediated chemistry. This approach is useful for generating sequence-defined highly functionalized nucleic acid polymers. The invention also provides modified nucleic acid polymers that bind to proteins of interest (e.g., PCSK9 and IL-6), which are implicated in human disease.

Provided is an array including a solid support having a surface, the surface having a plurality of wells, the wells containing a gel material, the wells being separated from each other by interstitial regions on the surface, the interstitial regions segregating the gel material in each of the wells from the gel material in other wells of the plurality; and a library of target nucleic acids in the gel material, wherein the gel material in each of the wells comprises a single species of the target nucleic acids of the library. Methods for making and using the array are also provided.

The present invention relates to a method for synthesising templated molecules. In one aspect of the invention, the templated molecules are linked to the template which templated the synthesis thereof. The invention allows the generation of libraries which can be screened for e.g. therapeutic activity.

Cancer immunology provides promising new avenues for cancer treatment but validation of potential neoantigens to target is costly and expensive. Analysis of MHC binding affinity, antigen processing, similarity to known antigens, predicted expression levels (as mRNA or proteins), self-similarity, and mutant allele frequency, provides screening method to identify and prioritize candidate neoantigens using sequencing data. Methods of the invention thereby save time and money by identifying the priority candidate neoantigens for further experimental validation.

The present disclosure provides, among other things, methods for generating antibodies against a target protein. In some embodiments, a library is provided comprising a plurality of tether antibodies comprising an antigen binding region and a ligand that binds to a target protein. In some embodiments, a library is provided comprising a plurality of candidate antibodies for binding to a target protein.

The present invention provides methods for large-scale production of a composition enriched for full-length mRNA molecules using an SP6 RNA polymerase and compositions produced using such methods and uses thereof.

Provided herein are methods for making targeted therapeutics. In several embodiments, the therapeutics are directed against soluble agents such as toxins, venoms, and/or other factors that alter physiological biopathways as well as methods of using such therapeutics to treat patients or patient populations to reduce, eliminate, or inactivate, detrimental soluble agents that such patients or patient populations have been exposed to. In several embodiments, the therapeutics are directed to patient-specific disease markers. In several embodiments, the methods comprise screening a library comprising proteins linked to their cognate mRNAs to identify mRNA-protein pairs that bind to the diseased cells, isolating one or more proteins from the identified mRNA-protein pairs, and conjugating the isolated protein(s) to a therapeutic agent.

Array-based enzymatic oligonucleotide synthesis creates a large number of polynucleotides using an uncontrolled and template independent polymerase such as terminal deoxynucleotidyl transferase (TdT). Spatial control of reaction conditions on the surface of the array allows creation of polynucleotides with a variety of arbitrary sequences. Spatial control may be implemented by removing protecting groups attached to nucleotides only at a selected location on the array or by other techniques such as location-specific regulation of enzymatic activity. The ratio of polynucleotides with protecting groups to unprotected polynucleotides used during a cycle of synthesis is adjusted to control the length of homopolymers created by the polymerase. Digital information may be encoded in the enzymatically synthesized polynucleotides. An encoding scheme for representing digital information in a nucleotide sequence accounts for homopolymers in the polynucleotides by collapsing homopolymer strings in the sequence data to a single nucleotide or to a shorter homopolymer.

Methods of producing compounds and combinatorial compound libraries, the compounds and libraries produced via the methods are provided, and methods of using the libraries to identify compounds having a desired property, such as a desired biological activity and the compounds identified using these methods are provided.

This document relates to methods and materials for assessed, monitored, and/or treated mammals (e.g., humans) having cancer. For example, methods and materials for identifying a mammal as having cancer (e.g., a localized cancer) are provided. For example, methods and materials for assessing, monitoring, and/or treating a mammal having cancer are provided.