A method of characterizing candidate agents including steps of (a) providing a library of candidate agents attached to nucleic acid tags; (b) contacting the library with a solid support to attach the candidate agents to the solid support, whereby an array of candidate agents is formed; (c) contacting the array with a screening agent, wherein one or more candidate agents in the array react with the screening agent; (d) detecting the array to determine that at least one candidate agent in the array reacts with the screening agent; (e) sequencing the nucleic acid tag to determine the tag sequences attached to candidate agents in the array; and (f) identifying the at least one candidate agent in the array that reacts with the screening agent based on the tag sequence that is attached to the at least one candidate agent.

Technology provided herein relates in part to methods, processes, machines and apparatuses for determining sequences of nucleotides for nucleic acid templates in a nucleic acid sample. The technology provide herein also relates in part to methods, processes, machines and apparatuses for counting nucleic acid templates. Nucleic acid templates of a sample are tagged with nonrandom oligonucleotide adapters that include predetermined non-randomly generated sequences. The use of these nonrandom oligonucleotide adapters provides an efficient method to reduce sequencing errors, and increase the sensitivity of detection of low-frequency single nucleotide alterations.

Disclosed herein are antigenic peptide-MHC molecules, termed comPACTs, and methods of producing such molecules. Also disclosed herein are methods of producing libraries of comPACT polynucleotides and polypeptides, and their exemplary use in capturing cancer neoepitope-reactive T cells.

Provided herein are methods and compositions to make guide nucleic acids (gNAs), nucleic acids encoding gNAs, collections of gNAs, and nucleic acids encoding for a collection of gNAs from any source nucleic acid. Also provided herein are methods and compositions to use the resulting gNAs, nucleic acids encoding gNAs, collections of gNAs, and nucleic acids encoding for a collection of gNAs in a variety of applications.

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.

Disclosed herein are compositions and methods for detecting oligonucleotide molecules that can be ligated with high efficiency, and methods of using the oligonucleotides to tag DNA encoded libraries and to modify existing DNA encoded libraries to incorporate new functionalities. Also disclosed are compositions for increasing DNA solubility in non-aqueous solvents and assay systems for detecting compounds or conditions that increase the solubility or durability of DEL.

The present invention provides novel microfluidic substrates and methods that are useful for performing biological, chemical and diagnostic assays. The substrates can include a plurality of electrically addressable, channel bearing fluidic modules integrally arranged such that a continuous channel is provided for flow of immiscible fluids.

Provided are a method for producing a data-encoded nucleic acid by using a template-dependent nucleic acid polymerase, and a data-encoded nucleic acid produced thereby.

In one aspect, the disclosure relates to multiplexable, non-nuclease CRISPR editors comprising RNA aptamer sequences configured to bind to endogenous effector molecules. The disclosed CRISPR editors are small in size and can be delivered by a single adeno-associated virus capsid. Also disclosed are a method for intracellular evolution of aptamers, a method for introducing a genomic modifying event to a host cell using the disclosed CRISPR editors, and a host cell modified by the disclosed methods. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present disclosure.

The invention is directed to methods for massively parallel template-free enzymatic synthesis of a plurality of different polynucleotides of predetermined sequences. In one aspect, methods of the invention employ large scale arrays of reaction sites each associated with at least one working electrode for controlling deprotection and deblocking steps at predetermined user selected sites. In another aspect, the invention provides template-free enzymatic synthesis with proofreading, wherein completed polynucleotides at predetermined reaction sites are sequenced using a sequencing by synthesis technique, particularly employing electrochemically labile blocking groups.