An apparatus for sequencing a polynucleotide analyte is provided and comprises; •a first zone in which a stream of single nucleotides is generated by progressive digestion of a molecule of the analyte attached to a particle located therein and exposed to a flowing aqueous medium; •a second zone in which a corresponding stream of aqueous droplets is generated from the aqueous medium and the nucleotide stream and wherein at least some of the droplets contain a single nucleotide and •a third zone in which each droplet is stored and/or interrogated to reveal a property characteristic of the single nucleotide it may contain; characterised in that the first zone comprises a microfluidic channel through which the aqueous medium flows and the location comprises a hollow seating in a wall thereof to which suction can be applied and into which the particle can be close-fitted.

An apparatus for sequencing a polynucleotide analyte is provided and comprises; •a first zone in which a stream of single nucleotides is generated by progressive digestion of a molecule of the analyte attached to a particle located therein and exposed to a flowing aqueous medium; •a second zone in which a corresponding stream of aqueous droplets is generated from the aqueous medium and the nucleotide stream and wherein at least some of the droplets contain a single nucleotide and •a third zone in which each droplet is stored and/or interrogated to reveal a property characteristic of the single nucleotide it may contain; characterised in that the first zone comprises a microfluidic channel through which the aqueous medium flows and the location comprises a hollow seating in a wall thereof to which suction can be applied and into which the particle can be close-fitted.

The current document is directed to methods and compositions that enable simplified, sensitive, and accurate quantification of nucleic acids. Some methods enable highly parallel measurement of multiple targeted ribonucleic acids from multiple samples. Additional methods enable highly sensitive measurement of low-abundance nucleic acid variants from a complex mixture of nucleic acid molecules.

The current document is directed to methods and compositions that enable simplified, sensitive, and accurate quantification of nucleic acids. Some methods enable highly parallel measurement of multiple targeted ribonucleic acids from multiple samples. Additional methods enable highly sensitive measurement of low-abundance nucleic acid variants from a complex mixture of nucleic acid molecules.

Disclosed herein are methods, compositions and systems for the interrogation of macromolecules, more particularly for preparation of isolated single macromolecules for subsequent processing of specific regions of interest within said macromolecule based on an analysis of the molecule's physical map. The disclosure is further related to the controlled segmentation of long nucleic acid parent molecules into smaller child molecules in a targeted manner such that further processing on said children may be performed with the knowledge of their origin within the parent, in a controlled environment enabled by purposefully designed microfluidic devices. Also disclosed is binding of regional specific barcodes along the length of a long nucleic acid molecule such that upon cleavage of said molecule into child molecules, the regional origin of the children can be tracked, in a controlled environment enabled by purposefully designed microfluidic devices. Finally, the disclosure is further related to droplet devices and method to control the encapsulation of long nucleic acid molecules or specific subregions thereof into a droplet, and further tracking said droplets with their contents.

Disclosed herein are methods, compositions and systems for the interrogation of macromolecules, more particularly for preparation of isolated single macromolecules for subsequent processing of specific regions of interest within said macromolecule based on an analysis of the molecule's physical map. The disclosure is further related to the controlled segmentation of long nucleic acid parent molecules into smaller child molecules in a targeted manner such that further processing on said children may be performed with the knowledge of their origin within the parent, in a controlled environment enabled by purposefully designed microfluidic devices. Also disclosed is binding of regional specific barcodes along the length of a long nucleic acid molecule such that upon cleavage of said molecule into child molecules, the regional origin of the children can be tracked, in a controlled environment enabled by purposefully designed microfluidic devices. Finally, the disclosure is further related to droplet devices and method to control the encapsulation of long nucleic acid molecules or specific subregions thereof into a droplet, and further tracking said droplets with their contents.

The present disclosure provides methods, systems, and kits for processing nucleic acid molecules. A method may comprise providing a template nucleic acid fragment (e.g., within a cell, cell bead, or cell nucleus) within a partition (e.g., a droplet or well) and subjecting the template nucleic acid fragment to one or more processes including a barcoding process and a single primer extension or amplification process. The processed template nucleic acid fragment may then be recovered from the partition and subjected to further amplification to provide material for subsequent sequencing analysis. The methods provided herein may permit simultaneous processing and analysis of both DNA and RNA molecules originating from the same cell, cell bead, or cell nucleus.

The present disclosure provides methods, systems, and kits for processing nucleic acid molecules. A method may comprise providing a template nucleic acid fragment (e.g., within a cell, cell bead, or cell nucleus) within a partition (e.g., a droplet or well) and subjecting the template nucleic acid fragment to one or more processes including a barcoding process and a single primer extension or amplification process. The processed template nucleic acid fragment may then be recovered from the partition and subjected to further amplification to provide material for subsequent sequencing analysis. The methods provided herein may permit simultaneous processing and analysis of both DNA and RNA molecules originating from the same cell, cell bead, or cell nucleus.

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.

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.