The invention relates to an improved method for characterising a template polynucleotide. The method involves using a polymerase to prepare a modified polynucleotide which makes it easier to characterise than the template polynucleotide.

The present invention relates to a method for enrichment of target DNA with high GC content based on target sequence capture and multiple displacement amplification, as well as a kit suitable for this method. The present invention also relates to a method for constructing a sequencing library of target DNA with high GC content based on the enrichment method of the present invention.

The present invention relates to a method for enrichment of target DNA with high GC content based on target sequence capture and multiple displacement amplification, as well as a kit suitable for this method. The present invention also relates to a method for constructing a sequencing library of target DNA with high GC content based on the enrichment method of the present invention.

Provided herein is a method for analyzing genomic DNA In some embodiments, the method may comprise labeling a genomic sample by adding a capture tag to the ends of the DNA molecules in the sample and labeling molecules that comprise hydroxymethylcytosine with a first fluorophore, immobilizing the labeled DNA molecules on a support, and imaging individual molecules of hydroxymethylated genomic DNA on the support.

Provided herein is a method for analyzing genomic DNA In some embodiments, the method may comprise labeling a genomic sample by adding a capture tag to the ends of the DNA molecules in the sample and labeling molecules that comprise hydroxymethylcytosine with a first fluorophore, immobilizing the labeled DNA molecules on a support, and imaging individual molecules of hydroxymethylated genomic DNA on the support.

The present disclosure provides a microarray comprising a plurality of probes. Each probe comprises a first oligonucleotide and a second oligonucleotide. The location of each probe on the microarray can be determined by the length of the first oligonucleotide and the length of the second oligonucleotide, thus providing a spatially barcoded microarray. Also provided are the methods of producing such spatially barcoded microarray. Also provided are the method of using such spatially barcoded microarray.

The present disclosure provides a microarray comprising a plurality of probes. Each probe comprises a first oligonucleotide and a second oligonucleotide. The location of each probe on the microarray can be determined by the length of the first oligonucleotide and the length of the second oligonucleotide, thus providing a spatially barcoded microarray. Also provided are the methods of producing such spatially barcoded microarray. Also provided are the method of using such spatially barcoded microarray.

Disclosed herein are highly sensitive immunoassays that utilize a capture/release mechanism to reduce non-specific binding and achieve detection with attomolar-level sensitivity. Kits that can be used for carrying out these highly sensitive immunoassays are also disclosed herein.

Disclosed herein are highly sensitive immunoassays that utilize a capture/release mechanism to reduce non-specific binding and achieve detection with attomolar-level sensitivity. Kits that can be used for carrying out these highly sensitive immunoassays are also disclosed herein.

An example of a flow cell includes a substrate and a pattern of two different silanes on at least a portion of a surface of the substrate. A first polymer is attached to a first of the two different silanes and a second polymer is attached to a second of the two different silanes. The first and second polymers respectively include a first functional group and a second functional group of a functional group pair, the functional group pair being selected from the group consisting of an activated ester functional group and an azide functional group, a tetrazine functional group and an activated ester functional group, and a tetrazine functional group and an azide functional group. A first primer set is grafted to the first polymer and a second primer set is grafted to the second polymer. The first and second primer sets are different.