Patents by Inventor Genevieve PUGH

Genevieve PUGH has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20230120851
    Abstract: A membrane-spanning nanopore is provided that comprises: i. at least one scaffold polynucleotide strand; ii. a plurality of staple polynucleotide strands; and iii. at least one hydrophobically-modified polynucleotide strand, wherein the at least one hydrophobically-modified polynucleotide strand comprises a polynucleotide strand and a hydrophobic moiety; wherein each of the plurality of staple polynucleotide strands hybridises to the at least one scaffold polynucleotide strand to form the three-dimensional structure of the membrane-spanning nanopore, and wherein the at least one hydrophobically-modified polynucleotide strand hybridises to a portion of the at least one scaffold polynucleotide strand, the membrane-spanning nanopore defining a central channel with a minimum internal width of at least about 5 nm.
    Type: Application
    Filed: September 9, 2022
    Publication date: April 20, 2023
    Applicant: UCL BUSINESS LTD
    Inventors: Stefan HOWORKA, Genevieve PUGH, Jonathan Richard BURNS
  • Patent number: 11485995
    Abstract: A membrane-spanning nanopore is provided that comprises: i. at least one scaffold polynucleotide strand; ii. a plurality of staple polynucleotide strands; and iii. at least one hydrophobically-modified polynucleotide strand, wherein the at least one hydrophobically-modified polynucleotide strand comprises a polynucleotide strand and a hydrophobic moiety; wherein each of the plurality of staple polynucleotide strands hybridises to the at least one scaffold polynucleotide strand to form the three-dimensional structure of the membrane-spanning nanopore, and wherein the at least one hydrophobically-modified polynucleotide strand hybridises to a portion of the at least one scaffold polynucleotide strand, the membrane-spanning nanopore defining a central channel with a minimum internal width of at least about 5 nm. Membranes comprising the membrane-spanning nanopore and applications of those membranes are also provided.
    Type: Grant
    Filed: July 14, 2017
    Date of Patent: November 1, 2022
    Assignee: UCL BUSINESS LTD
    Inventors: Stefan Howorka, Genevieve Pugh, Jonathan Richard Burns
  • Publication number: 20190309350
    Abstract: A membrane-spanning nanopore is provided that comprises: i. at least one scaffold polynucleotide strand; ii. a plurality of staple polynucleotide strands; and iii. at least one hydrophobically-modified polynucleotide strand, wherein the at least one hydropho-bically-modified polynucleotide strand comprises a polynucleotide strand and a hydrophobic moiety; wherein each of the plurality of staple polynucleotide strands hybridises to the at least one scaffold polynucleotide strand to form the three-dimensional structure of the membrane-spanning nanopore, and wherein the at least one hydrophobically-modified polynucleotide strand hybridises to a portion of the at least one scaffold polynucleotide strand, the membrane-spanning nanopore defining a central channel with a minimum internal width of at least about 5 nm. Membranes comprising the membrane-spanning nanopore and applications of those membranes are also provided.
    Type: Application
    Filed: July 14, 2017
    Publication date: October 10, 2019
    Applicant: UCL BUSINESS PLC
    Inventors: Stefan HOWORKA, Genevieve PUGH, Jonathan Richard BURNS