Abstract: A method for amplifying a target nucleic acid including providing a system having a crRNA or a derivative thereof, and a Cas protein or a variant thereof. The crRNA or the derivative thereof contains a target-specific nucleotide region substantially complementary to a region of the target nucleic acid, and contacting the target nucleic acid with the system to form a complex.

Abstract: Methods and compositions for characterizing a target polynucleotide, including, characterizing the sequence of the target polynucleotide, using the fractional translocation steps of the target polynucleotide's translocation through a pore.

Abstract: The disclosure provides detection apparatus having one or more nanopores, methods for making apparatus having one or more nanopore and methods for using apparatus having one or more nanopores. Uses include, but are not limited to detection and sequencing of nucleic acids.

Abstract: Compositions, systems, and methods for detecting events are provided. A composition can include a nanopore including a first side, a second side, and an aperture extending through the first and second sides; and a permanent tether including head and tail regions and an elongated body disposed therebetween. The head region can be anchored to or adjacent to the first or second side of the nanopore. The elongated body including a reporter region can be movable within the aperture responsive to a first event occurring adjacent to the first side of the nanopore. For example, the reporter region is translationally movable toward the first side responsive to the first event, then toward the second side, then toward the first side responsive to a second event. The first event can include adding a first nucleotide to a polynucleotide. The second event can include adding a second nucleotide to the polynucleotide.

Abstract: Methods and compositions for characterizing a target polynucleotide, including, characterizing the sequence of the target polynucleotide, using the fractional translocation steps of the target polynucleotide's translocation through a pore.

Abstract: The invention is in general directed to the rapid exponential amplification of short DNA or RNA sequences at a constant temperature.

Abstract: The present disclosure provides method and systems for improving nanopore-based analyses of polymers. The disclosure provides methods for selectively modifying one or more monomeric subunit(s) of a kind a pre-analyte polymer that results polymer analyte with a modified subunit. The polymer analyte produces a detectable signal in a nanopore-based system. The detectable signal, and/or its deviation from a reference signal, indicates the location of the modified subunit in the polymer analyte and, thus, permits the identification of the subunit at that location in the original pre-analyte polymer.

Abstract: A method of nucleic acid sequencing. The method can include the steps of (a) providing a polymerase tethered to a solid support charge sensor; (b) providing one or more nucleotides, whereby the presence of the nucleotide can be detected by the charge sensor; and (c) detecting incorporation of the nucleotide into a nascent strand complementary to a template nucleic acid.

Abstract: A method for enriching a target nucleic acid comprising providing an endonuclease system having a crRNA or a derivative thereof, and a Cas protein or a variant thereof. The crRNA or the derivative thereof contains a target-specific nucleotide region substantially complementary to a region of the target nucleic acid; contacting the target nucleic acid with the endonuclease system to form a complex; and separating the complex and thereby enriching for the target nucleic acid.

Abstract: Compositions, systems, and methods for detecting events are provided. A composition can include a nanopore including a first side, a second side, and an aperture extending through the first and second sides; and a permanent tether including head and tail regions and an elongated body disposed therebetween. The head region can be anchored to or adjacent to the first or second side of the nanopore. The elongated body including a reporter region can be movable within the aperture responsive to a first event occurring adjacent to the first side of the nanopore. For example, the reporter region is translationally movable toward the first side responsive to the first event, then toward the second side, then toward the first side responsive to a second event. The first event can include adding a first nucleotide to a polynucleotide. The second event can include adding a second nucleotide to the polynucleotide.

Abstract: Methods and compositions for characterizing a target polynucleotide, including, characterizing the sequence of the target polynucleotide, using the fractional translocation steps of the target polynucleotide's translocation through a pore.

Abstract: The invention is in general directed to the rapid exponential amplification of short DNA or RNA sequences at a constant temperature.