Methods and compositions for digital profiling of nucleic acid sequences present in a sample are provided.

Methods and compositions for digital profiling of nucleic acid sequences present in a sample are provided.

The present invention relates to a method of detecting a target nucleic acid on the basis of rolling circle amplification (RCA), and more specifically, to a method of detecting a target nucleic acid, the method in which a target nucleic acid (a nucleic acid having a target nucleic acid sequence), when present, forms a circular template with a template for performing an amplification reaction, wherein during the amplification reaction, a restriction enzyme is added to further induce a new RCA reaction, thus increasing the reaction rate and sensitivity, and to an RCA composition for implementing the method. The method of detecting a target nucleic acid according to the present invention, by detecting a barcode sequence predefined according to the type of the target nucleic acid, enables multiple detections of the presence of the target nucleic acid without sequencing, is inexpensive for not using costly enzymes, such as CRISPR, can detect barcode sequences, and can utilize various existing nucleic acid detection systems, and thus, can be useful in the detection of gene mutations.

The present invention relates to a method of detecting a target nucleic acid on the basis of rolling circle amplification (RCA), and more specifically, to a method of detecting a target nucleic acid, the method in which a target nucleic acid (a nucleic acid having a target nucleic acid sequence), when present, forms a circular template with a template for performing an amplification reaction, wherein during the amplification reaction, a restriction enzyme is added to further induce a new RCA reaction, thus increasing the reaction rate and sensitivity, and to an RCA composition for implementing the method. The method of detecting a target nucleic acid according to the present invention, by detecting a barcode sequence predefined according to the type of the target nucleic acid, enables multiple detections of the presence of the target nucleic acid without sequencing, is inexpensive for not using costly enzymes, such as CRISPR, can detect barcode sequences, and can utilize various existing nucleic acid detection systems, and thus, can be useful in the detection of gene mutations.

The present invention relates to a digital method for detecting and/or quantifying at least one target biomolecules in a sample, said biomolecules being selected from DNA, RNA, and proteins based on isothermal amplification. The present invention further relates to different applications of the digital method and to a kit.

The present invention relates to a digital method for detecting and/or quantifying at least one target biomolecules in a sample, said biomolecules being selected from DNA, RNA, and proteins based on isothermal amplification. The present invention further relates to different applications of the digital method and to a kit.

The present disclosure provides a method and systems for processing or analyzing a nucleic acid molecule. A method for processing or analyzing a double-stranded nucleic molecule may comprise providing the double-stranded nucleic acid molecule and a double-stranded adapter. The double-stranded adapter may comprise a nicking site within a sense strand or an anti-sense strand of the double-stranded adapter. The double-stranded adapter may then be coupled to the double-stranded nucleic acid molecule, and the double-stranded nucleic acid molecule coupled to the double-stranded adapter may be circularized to generate a circularized double-stranded nucleic acid molecule.

The present disclosure provides a method and systems for processing or analyzing a nucleic acid molecule. A method for processing or analyzing a double-stranded nucleic molecule may comprise providing the double-stranded nucleic acid molecule and a double-stranded adapter. The double-stranded adapter may comprise a nicking site within a sense strand or an anti-sense strand of the double-stranded adapter. The double-stranded adapter may then be coupled to the double-stranded nucleic acid molecule, and the double-stranded nucleic acid molecule coupled to the double-stranded adapter may be circularized to generate a circularized double-stranded nucleic acid molecule.

The present disclosure is concerned with compositions and methods for the paired-end sequencing of target nucleic acids, and more particularly to obtaining nucleotide sequence information from two separate regions of target nucleic acids using amplification sites having a single type of surface primer.

The present disclosure is concerned with compositions and methods for the paired-end sequencing of target nucleic acids, and more particularly to obtaining nucleotide sequence information from two separate regions of target nucleic acids using amplification sites having a single type of surface primer.