The technology relates in part to methods and compositions for analyzing nucleic acid. In some aspects, the technology relates to methods and compositions for preparing a nucleic acid library from single-stranded nucleic acid fragments.

Provided herein are methods for generating circular nucleic acid molecules and circular nucleic acid libraries. The methods can be used to generate clonal populations of target nucleic acid molecules for downstream applications such as sequencing. Nucleic acid sequence methods, systems and kits are also provided for sequencing circular nucleic acid molecules.

The present disclosure relates to compositions and methods for nucleic acid sequencing, and specifically, at least in certain aspects, provides methods and compositions for enhancing the efficacy, throughput and/or yield of known long-range sequencing platforms, by providing chimeric arrays of input sequences. Such arrays of component nucleic acid sequence elements can be prepared via methods that minimize introduction of bias. The application of the current methods to obtain isoform sequencing information, e.g., from patient samples is specifically also provided, as are methods for mitochondrial lineage tracing that employ the instant chimeric amplicon sequencing processes. Methods and systems for array nucleic acid sequence processing and interpretation are also provided.

Improved compositions and methods for using modified non-retroviral reverse transcriptase to perform 3′ extension of a nucleic acid, employ non-templated deoxynucleotide addition to a single-stranded nucleic acid and/or synthesis of complementary DNA using non-complementary nucleic acids as primer and template (RNA- or DNA-templated DNA polymerase activity.

Provided herein, among other things, is a method for synthesizing spatially addressed nucleic acid barcodes in or on a cellular sample in situ. In some embodiments, the method may comprise: obtaining a cellular sample comprising nucleic acid molecules that are protected by a reversible terminator, deprotecting the nucleic acid molecules in a set of areas of the sample by selectively applying an external stimulus to the set of areas to produce deprotected nucleic acid molecules in the areas, applying a reversible terminator nucleotide to the cellular sample, resulting in addition of a reversible terminator onto the deprotected nucleic acid molecules, optionally removing any unreacted reversible terminator nucleotide from the sample, and repeating the steps one or more times.

Methods and compositions for determining the proximity of two barcoding oligonucleotides (e.g., in a single partition or adjacent on a tissue section) using a determination of the presence of a 9 bp sequence resulting from tagmentation in different nucleic acid fragments linked to different barcoding oligonucleotides is provided.

An object of the present invention is to provide a kit or a device for the detection of prostate cancer and a method for detecting prostate cancer. The present invention provides a kit or a device for the detection of prostate cancer, comprising a nucleic acid capable of specifically binding to a miRNA in a sample of a subject, and a method for detecting prostate cancer, comprising measuring the miRNA in vitro.

The present invention provides a nucleic acid amplification based method for detecting a hypervirulent Clostridium difficile strain in a biological sample. The present invention is based on the use of oligonucleotide primers and probes specific to negative and positive markers in hypervirulent Clostridium difficile genome.

Provided herein is a method for sequence analysis that comprises analyzing PCR reactions that each contain different portions of the same sample, wherein at least some of the primer pairs are in more than one PCR reaction and at least one of the PCR reactions contains some but not all of the primer pairs of the other reaction(s).

The present invention provides a mass spectrometry-based method and a kit for genotyping of platelet and neutrophil antigens and glycoproteins, which are used for genotyping of platelet-specific antigens, platelet CD36 glycoproteins and neutrophil antigens; by designing an optimal primer combination, problems such as homologous sequences and rich GC are overcome, moreover, by improving amplification reaction conditions and using nucleic acid mass spectrometry as a platform, 35 platelet-specific antigen polymorphic sites, 10 CD36 polymorphic sites and 8 neutrophil antigen polymorphic sites can be simultaneously detected in 2 reactions. The present invention has the characteristics of high specificity and sensitivity, and fast and high throughput, and can be used in clinic, scientific research, platelet donor routine screening, etc.