Abstract: The invention relates to a new method of characterising two or more target polynucleotides using a pore. The method involves sequentially attaching to a first polynucleotide one or more subsequent polynucleotides to form a concatenated polynucleotide.

Abstract: Apparatus and methods for controlling the insertion of a membrane channel into a membrane are disclosed. The membrane separates first and second liquids. A driving unit applies a potential difference across the membrane via first and second electrodes to promote insertion of a membrane channel into the membrane. A membrane voltage reduction unit is connected in series with the membrane. The driving unit applies a driving voltage across the membrane voltage reduction unit and the membrane. The membrane voltage reduction unit is configured such that a reduction in resistance through the membrane caused by insertion of a membrane channel intrinsically increases a potential difference across the membrane voltage reduction unit thereby lowering the potential difference across the membrane, the lowering sufficient to prevent or reduce promotion of insertion of a further membrane channel.

Abstract: The invention relates to a new method of characterising a target RNA polynucleotide by taking one or more measurements as the target RNA polynucleotide moves with respect to a transmembrane pore. The movement is controlled by a DNA helicase. The invention also relates to a modified RNA construct wherein the RNA polynucleotide has been modified to increase DNA helicase binding thereto.

Abstract: Apparatus and methods for controlling the insertion of a membrane channel into a membrane are disclosed. In one arrangement a first bath holds a first liquid in contact with a first surface of a membrane. A second bath holds a second liquid in contact with a second surface of the membrane. The membrane separates the first and second liquids. A first electrode contacts the first liquid. A second electrode contacts the second liquid. A driving unit applies a potential difference across the membrane via the first and second electrodes to promote insertion of a membrane channel into the membrane from the first liquid or the second liquid. A membrane voltage reduction unit is connected in series with the membrane. The driving unit applies a driving voltage across the membrane voltage reduction unit and the membrane, the driving voltage providing the potential difference across the membrane.

Abstract: The invention relates to a new method of characterising a target RNA polynucleotide by taking one or more measurements as the target RNA polynucleotide moves with respect to a transmembrane pore. The movement is controlled by a DNA helicase. The invention also relates to a modified RNA construct wherein the RNA polynucleotide has been modified to increase DNA helicase binding thereto.

Abstract: Apparatus and methods for controlling the insertion of a membrane channel into a membrane are disclosed. In one arrangement a first bath holds a first liquid in contact with a first surface of a membrane. A second bath holds a second liquid in contact with a second surface of the membrane. The membrane separates the first and second liquids. A first electrode contacts the first liquid. A second electrode contacts the second liquid. A driving unit applies a potential difference across the membrane via the first and second electrodes to promote insertion of a membrane channel into the membrane from the first liquid or the second liquid. A membrane voltage reduction unit is connected in series with the membrane. The driving unit applies a driving voltage across the membrane voltage reduction unit and the membrane, the driving voltage providing the potential difference across the membrane.

Abstract: The invention relates to a new method of delivering an analyte to a transmembrane pore in a membrane. The method involves the use of microparticles.

Abstract: Provided herein is a method of characterising a target polynucleotide as it moves with respect to a nanopore using a motor protein. Also provided are polynucleotide adapters and kits comprising such adapters. The methods, kits and adapters find use in characterising polynucleotides, for example in sequencing.

Abstract: The invention relates to a new method of delivering an analyte to a transmembrane pore in a membrane. The method involves the use of microparticles.

Abstract: The invention provides a method of selectively characterising polynucleotides of a desired property, such as length, using a nanopore, based on the translocation of the polynucleotide through or across the nanopore. Kits and systems for use in such methods are also provided. The methods of the invention are particularly suitable for sequencing polynucleotides such as DNA.

Abstract: Provided herein is a method of characterising a target polynucleotide as it moves with respect to a nanopore using a motor protein. Also provided are polynucleotide adapters and kits comprising such adapters. The methods, kits and adapters find use in characterising polynucleotides, for example in sequencing.

Abstract: The invention relates to new methods of moving helicases past spacers on polynucleotides and controlling the loading of helicases on polynucleotides. The invention also relates to new methods of characterising target polynucleotides using helicases.

Abstract: The invention relates to a new method of delivering an analyte to a transmembrane pore in a membrane. The method involves the use of microparticles.

Abstract: The invention relates to new methods of moving helicases past spacers on polynucleotides and controlling the loading of helicases on polynucleotides. The invention also relates to new methods of characterising target polynucleotides using helicases.

Abstract: The invention relates to a new method of characterising a target RNA polynucleotide by taking one or more measurements as the target RNA polynucleotide moves with respect to a transmembrane pore. The movement is controlled by a DNA helicase. The invention also relates to a modified RNA construct wherein the RNA polynucleotide has been modified to increase DNA helicase binding thereto.

Abstract: The invention relates to a new method of characterising two or more target polynucleotides using a pore. The method involves sequentially attaching to a first polynucleotide one or more subsequent polynucleotides to form a concatenated polynucleotide.

Abstract: The invention relates to a new method of characterising a target RNA polynucleotide by taking one or more measurements as the target RNA polynucleotide moves with respect to a transmembrane pore. The movement is controlled by a DNA helicase. The invention also relates to a modified RNA construct wherein the RNA polynucleotide has been modified to increase DNA helicase binding thereto.

Abstract: The invention relates to a new method of characterising two or more target polynucleotides using a pore. The method involves sequentially attaching to a first polynucleotide one or more subsequent polynucleotides to form a concatenated polynucleotide.

Abstract: The invention relates to a new method of characterising a target RNA polynucleotide by taking one or more measurements as the target RNA polynucleotide moves with respect to a transmembrane pore. The movement is controlled by a DNA helicase. The invention also relates to a modified RNA construct wherein the RNA polynucleotide has been modified to increase DNA helicase binding thereto.

Abstract: The invention relates to a new method of delivering an analyte to a transmembrane pore in a membrane. The method involves the use of microparticles.