Abstract: The invention generally relates to capturing, amplifying, and sequencing nucleic acids. In certain embodiments, linked capture probes and multiple binding and extension steps improve specificity over traditional single binding target capture techniques. Methods of seeding sequencing clusters with captured target nucleic acids are also disclosed. Linked adapters may be used to increase adapter ligation selectively or efficiency and yield. Ligation adapters and primers can be linked to various sequence-specific or feature-specific molecules to selectively bind targets for ligation or amplification with universal adapters or primers.

Abstract: Provided herein are compositions and methods for high throughout cloning of fused bipartite immunoreceptor polynucleotides encoding cognate pairs of bipartite immunoreceptors. Also provided herein are various applications of the fused bipartite immunoreceptor polynucleotides, expression vectors containing the fused bipartite immunoreceptor polynucleotides, or cells containing the fused bipartite immunoreceptor polynucleotides or expression vectors.

Abstract: A substrate holder includes a base configured to receive a substrate; a cover configured to mateably engage with the base, the cover defining an opening formed by inner sidewalls; and a removable insert defining a surface, the removable insert being configured to be received within the opening of the cover. The removable insert includes a gasket; a projection coupled to the gasket; and at least two insert tabs extending from opposite sides of the removable insert, each insert tab being configured to engage with at least one of the inner sidewalls forming the opening of the cover.

Abstract: An engineered DNA polymerase, with increased property for single molecule sequencing compared to a wild-type DNA polymerase, comprising a combination of mutation sites and functional domains, wherein the combination of mutation sites and functional domains includes thermostable mutation sites, low Kd mutation sites, exonuclease-deficient sites and DNA binding domains.

Abstract: The present disclosure provides methods for treating cancer in a subject (by inhibiting e.g., APOBEC3A, APOBEC3B, or REV1), and methods of diagnosing cancer in a subject. Methods of tracking mutagenesis induced by a gene of interest (e.g., APOBEC3A, APOBEC3B, or REV1) and methods of screening for inhibitors and synthetic lethalities are also described herein. Further provided by the present disclosure are cell lines and antibodies for use in the methods described herein.

Abstract: Methods and compositions for making DNA libraries for massive parallel next generation sequencing (NGS), comprises two parts. These methods may be referred to as Triseq sequencing. The first part includes ligating a UMI adapter, amplifying the DNA fragments in the presence of dUTP, enriching the target molecules through primer extension by using a panel of both forward and reverse primers, and removing the dU-containing template DNA. The DNA molecules are organized to primary clones and subclones, labeled by the UMI on 5? and 3? end of the DNA fragments, respectively. The second part includes sequencing the DNA library by NGS, deducing consensus sequence from each subclone, and from within each primary clone, and between the consensus sequences obtained from both forward and reverse primers.

Abstract: Provided herein are methods of identifying a location of an RNA in a sample that include: (a) contacting the sample with an array comprising capture probes, where a capture probe comprises a capture domain and a spatial barcode; (b) releasing the RNA from the sample; (c) extending a 3? end of the capture probe using the capture domain-bound RNA as a template; (d) generating nick(s) in the extended capture probe-hybridized RNA and performing random-primed DNA synthesis; (e) performing end repair on the second strand DNA molecule; (f) adding a single adenosine nucleotide to the 3? end of the extended capture probe; (g) ligating a double-stranded sequencing adaptor to the double-stranded DNA product; and (h) determining all or a part of the sequence of the RNA, and the sequence of the spatial barcode, or complements thereof, and using the determined sequences to identify the location of the RNA in the sample.

Abstract: A method for generating high accuracy sequencing results from low accuracy continuous single molecule sequencing includes the following steps: providing a sample including first target nucleic acid molecules; hybridizing first capture primers to the first target nucleic acid molecules to form first capture primer-first target nucleic acid molecule complexes; performing a nascent strand synthesis reaction to form first template molecule-first target nucleic acid molecule complexes; dissociating first template molecules; hybridizing first sequencing primers to the dissociated first template molecules, and sequencing the first template molecules by single-molecule sequencing to obtain first original sequences; comparing the first original sequences and a first target sequence to calculate a first sequence similarity of each of the first original sequences; collecting first original sequences whose first sequence similarity reaches a predetermined threshold to obtain a first cluster; and analyzing the first clust

Abstract: Disclosed are extended and/or branched oligonucleotide capture probe assemblies for use in spatial transcriptomics systems, and methods for making the capture probe assemblies.

Abstract: Provided herein are methods for sequencing both strands of a double stranded nucleic acid fragment that improves fidelity and accuracy of a sequence determination compared to traditional next generation sequencing methods. Compositions and kits for use in the methods are also provided.

Abstract: Disclosed herein, inter alia, are compositions and methods for amplification of nucleic acid templates, including hybridizing a linear polynucleotide to an immobilized primer on a surface, circularizing the linear polynucleotide to form a circular polynucleotide, and extending the primer with a polymerase.

Abstract: Provided are integrated analysis devices having features of macroscale and nanoscale dimensions, and devices that have reduced background signals and that reduce quenching of fluorophores disposed within the devices. Related methods of manufacturing these devices and of using these devices are also provided.

Abstract: The present invention provides methods and compositions for tagging long fragments of a target nucleic acid for sequencing and analyzing the resulting sequence information in order to reduce errors and perform haplotype phasing, for example.

Abstract: Compositions, kits and methods are described that comprise one or more constructs, each construct comprising a ligand attached or conjugated to a polymer construct, e.g., an oligonucleotide sequence, by a linker, each ligand binding specifically to a single target located in or on the surface of a cell. The polymer construct comprises a) an Amplification Handle; b) a Barcode that specifically identifies a single ligand; c) an optional Unique Molecular Identifier that is positioned adjacent to the Barcode on its 5? or 3? end; and d) an Anchor for hybridizing to a complementary sequence, e.g., for generation of a double-stranded oligonucleotide. These compositions are used in methods, including high throughput methods, for detecting one or more targets or epitopes in a biological sample. These compositions are also used in a high throughput method for characterizing a cell by simultaneous detection of one or more epitopes located in or on the cell and its transcriptome.

Abstract: The disclosure provides methods for sequencing nucleic acids using, including with nucleotide analogs and subsequently appended labels.

Abstract: The present invention provides genetic markers on human chromosome 6 that are associated with a beneficial response to a treatment that targets Clostridium difficile (C. difficile) toxin B (TcdB), e.g. a TcdB antibody. These TcdB treatment response markers are useful, inter alia, to identify patients who are most likely to benefit from treatment that targets TcdB in methods of treating patients having a disease susceptible to treatment with a TcdB antibody, and in methods for selecting the most appropriate therapy for such patients. The invention also provides antibodies, drug products, and kits useful with the TcdB Treatment response markers of the invention.

Abstract: Provided herein are methods of enhancing spatial resolution of an analyte using sandwich maker system. The methods and systems used herein include a first substrate that includes a plurality of probes that include a capture domain and a spatial domain and a second substrate that includes a plurality of probes comprising a capture domain and a spatial domain.

Abstract: The present disclosure relates to a flow cell carrier. The flow cell carrier may include a flow cell and a frame. The frame may include a pocket and a handle. The pocket may have at least one spring feature and at least one banking feature. The frame may be configured to retain the flow cell within the pocket such that a maximal surface area of the flow cell is exposed to an optical lens. Related methods and kits are also disclosed.

Abstract: A small volume aqueous sample followed by an air gap and a droplet of oil can be drawn into a pipette tip as a means of storing and protecting the sample from the environment for extended periods of time.

Abstract: Devices and methods are provided for reducing or removing condensation from compressed air.