Provided is a preparation method for a DNA library, comprising a pre-library preparation process, the pre-library preparation process comprising DNA preparation, end repair and 3′ A-tailing, linker connection using an anti-contamination linker, linker connected product purification, pre-library amplification, and amplified pre-library purification. Also provided are a use of the anti-contamination linker in preparing a test kit for DNA library capture, and a method for performing bioinformatic analysis on the DNA library prepared by means of the preparation method of the present invention. The preparation method of the present invention reduces the risk of cross-contamination between samples.

The invention is a method of assessing a mammalian immune repertoire by primer extension target enrichment (PETE). Methods and compositions for assessing an immune repertoire and the status of additional genetic markers are disclosed.

Systems and methods for recovering content of a sample from a microcapillary array are provided. The microcapillary array includes a plurality of microcapillary wells. A laser is positioned to target a first microcapillary well in the plurality of microcap-wells. The laser pulses at least one time at the first microcapillary well. The content from the first microcapillary well is extracted, recovering the content of the first microcapillary well.

The present disclosure relates to materials and methods for spatial detection of nucleic acid in a tissue sample or a portion thereof. In particular, provided herein are materials and methods for detecting RNA so as to obtain spatial information about the localization, distribution or expression of genes in a tissue sample. In some embodiments, the materials and methods provided herein enable detection of gene expression in a single cell.

Fluorophores are used during the synthesis of oligonucleotides to achieve real-time quality control of the synthesis process. Fluorescence may indicate successful addition of individual nucleotides to a growing oligonucleotide strand or removal of a blocking group. The oligonucleotides may be created by enzymatic synthesis using terminal deoxynucleotidyl transferase (TdT). The synthesis is performed on an addressable array so that oligonucleotides with different sequences are created in parallel on different regions of the array. The oligonucleotide sequences are predetermined and the locations of synthesis on the array are controlled. Observed fluorescence is compared to expected locations of fluorescence as determined by the oligonucleotide sequences and the arrangement on the array. Thus, the fidelity of oligonucleotide synthesis is checked as synthesis proceeds. If a variation is found, a mitigating action is taken such as repeating addition of a species of nucleotide or repeating a deblocking step.

Disclosed herein include methods, systems, compositions and kits for determining cell-cell interaction, for example, using nucleic acid sequencing. The method can match a cell barcode sequence associated with a cell of a plurality of cells with a cell barcode sequence associated with a partition of a plurality of partitions to identify the partition the cell has originated from in the plurality of partitions. In some embodiments, a pair of interacting cells within a partition are attached with a common cell barcode. The nucleic acid sequences of the pair of interacting cells having the common cell barcode can be tracked to the partition the pair of interacting cells has originated from, where phenotypic observables of the interacting cells can be obtained, for example, using optical imaging, thereby linking cell nucleic acid sequences such as expression profiles to cell functionality and the nature of the cell-cell interaction.

The invention provides high-throughput systems and methods for screening CRISPR-edited cells in bulk with single cell resolution. Methods of the invention use cells expressing polyadenylated guide RNAs that are detectable by RNA sequencing. Methods of the invention provide for the detection of each cell's guide RNA along with its single cell transcriptome to provide useful gene expression data for assessing CRISPR activity from cells in bulk. In addition, methods of the invention offer a high throughput single cell analytical framework for generating single cell transcriptome data from which CRISPR activity may be evaluated.

The invention provides high-throughput systems and methods for screening CRISPR-edited cells in bulk with single cell resolution. Methods of the invention use cells expressing polyadenylated guide RNAs that are detectable by RNA sequencing. Methods of the invention provide for the detection of each cell's guide RNA along with its single cell transcriptome to provide useful gene expression data for assessing CRISPR activity from cells in bulk. In addition, methods of the invention offer a high throughput single cell analytical framework for generating single cell transcriptome data from which CRISPR activity may be evaluated.

This disclosure provides methods and systems for single-extracellular (EV), multi-omic analysis of target EVs without microfluidic devices. The disclosed methods involve the use of template particles to template the formation of monodisperse droplets to generally capture a single target EV from a population of EVs in an encapsulation, derive a plurality of distinct mRNA molecules from the single target EV, and quantify the distinct mRNA molecules to generate an expression profile. Nucleic-acid-tagged antibody conjugates are used for simultaneous proteomic analysis along with the gene expression profiling, which enables classification of an EV in a sample.

This disclosure provides methods and systems for single-extracellular (EV), multi-omic analysis of target EVs without microfluidic devices. The disclosed methods involve the use of template particles to template the formation of monodisperse droplets to generally capture a single target EV from a population of EVs in an encapsulation, derive a plurality of distinct mRNA molecules from the single target EV, and quantify the distinct mRNA molecules to generate an expression profile. Nucleic-acid-tagged antibody conjugates are used for simultaneous proteomic analysis along with the gene expression profiling, which enables classification of an EV in a sample.