Provided herein are methods for enhanced specificity of multiplexed measurements. Methods provided herein include immunoassay reactions and/or measuring protein-protein interactions with direct sequencing readouts of DNA barcodes.

Provided herein are methods for enhanced specificity of multiplexed measurements. Methods provided herein include immunoassay reactions and/or measuring protein-protein interactions with direct sequencing readouts of DNA barcodes.

Provided herein is a method for mapping rolling circle amplification (RCA) products that contain unique identifier sequences. The method generally involves (a) producing a complex comprising population of grid oligonucleotide molecules and a population of RCA products that each have a unique RCA product identifier sequence, wherein the grid oligonucleotides are hybridized directly or indirectly via a splint to complementary sites in the RCA products; (b) extending the grid oligonucleotide molecules that are hybridized to two RCA products to add the complements of the unique RCA product identifier sequences from the two RCA products to the grid oligonucleotide molecules; (c) sequencing the extended grid oligonucleotides; (d) analyzing the sequences to identify which pairs of unique RCA product identifier sequence complements have been added onto the grid oligonucleotides; and (e) making one or more physical maps of the immobilized RCA products using the pairs of sequences identified in (d).

There is described herein, a method of capturing and analyzing cell-free methylated DNA in a sample. The method involves subjecting the sample to library preparation to permit subsequent sequencing of the cell-free methylated DNA. A predetermined amount of control synthetic DNA fragments are added to the sample. The control synthetic DNA fragments each have a known nucleic acid sequence that does not align to a target genome sequence, and at least some of the control synthetic DNA fragments are methylated. The sample is denatured, and cell-free methylated DNA and the control synthetic DNA fragments are captured using a binder selective for methylated polynucleotides. The captured DNA is amplified and sequenced.

There is described herein, a method of capturing and analyzing cell-free methylated DNA in a sample. The method involves subjecting the sample to library preparation to permit subsequent sequencing of the cell-free methylated DNA. A predetermined amount of control synthetic DNA fragments are added to the sample. The control synthetic DNA fragments each have a known nucleic acid sequence that does not align to a target genome sequence, and at least some of the control synthetic DNA fragments are methylated. The sample is denatured, and cell-free methylated DNA and the control synthetic DNA fragments are captured using a binder selective for methylated polynucleotides. The captured DNA is amplified and sequenced.

Provided herein are compositions, kits, and methods for nucleic acid barcoding. The barcode compositions provided herein can be used to linearly, combinatorially, or spatially barcode a plurality of targets in a sample. Also provided herein is a device for use in a barcoding method provided herein comprising a light source and a sample holder.

Provided herein are compositions, kits, and methods for nucleic acid barcoding. The barcode compositions provided herein can be used to linearly, combinatorially, or spatially barcode a plurality of targets in a sample. Also provided herein is a device for use in a barcoding method provided herein comprising a light source and a sample holder.

A method to recover an extracellular vesicle at a high efficiency, including (a) and (b): wherein (a) is mixing (i) an extracellular vesicle-containing sample, (ii) particles on which a substance having an affinity to extracellular vesicle membrane is immobilized, and (iii) a polymer to give a mixture solution containing (i′) target particles bound to the extracellular vesicle via the substance and (ii′) the polymer; and (b) separating the target particles from the mixture solution. The method further includes reducing a viscosity of the mixture solution between (a) and (b). A method for analyzing an extracellular vesicle. A kit having (a) a polymer, (b) a substance having an affinity to the extracellular vesicle membrane, and (c) an enzyme capable of degrading a polymer.

Provided herein are methods for preparing biological samples for spatial proteomic analysis, methods of determining a location of a protein analyte in a biological sample, and methods of determining a location of a protein analyte and a nucleic acid analyte in a biological sample.

Provided herein are methods for preparing biological samples for spatial proteomic analysis, methods of determining a location of a protein analyte in a biological sample, and methods of determining a location of a protein analyte and a nucleic acid analyte in a biological sample.