×

Fluorescence-based analysis of biopolymers using nanopores

  • US 10,047,392 B2
  • Filed: 02/23/2015
  • Issued: 08/14/2018
  • Est. Priority Date: 02/21/2014
  • Status: Active Grant
0
Associated Cases
0
Associated Defendants
0
Product Citations
0
Petitions
0
Forward Citations
2
Assignments
First Claim
Patent Images

1. A method of determining a sequence of a polynucleotide, the method comprising the steps of:

  • (a) providing a system comprising(1) a first reservoir comprising a first electrically conductive aqueous solution comprising a fluorescent reporter molecule capable of producing a fluorescence emission that is altered in the presence of an ionic species;

    (2) a first electrode disposed in the first reservoir in electrical contact with the first electrically conductive aqueous solution;

    (3) a second reservoir comprising a second electrically conductive aqueous solution comprising the ionic species;

    (4) a second electrode disposed in the second reservoir and in electrical contact with the second electrically conductive aqueous solution; and

    (5) a membrane separating the first reservoir and second reservoir, the membrane having a pore through which members of the ionic species can pass;

    wherein the first electrically conductive aqueous solution in the first reservoir further comprises the polynucleotide or a complex containing the polynucleotide;

    wherein the membrane further comprises a single polynucleotide polymerase immobilized on the membrane within 100 nm of the pore, and the polynucleotide polymerase is in contact with the first electrically conductive aqueous solution;

    wherein the first electrically conductive aqueous solution in the first reservoir further comprises at least four deoxyribonucleotide polyphosphate (dNPP) analogs, wherein incorporation of each dNPP analog during DNA strand synthesis by the polynucleotide polymerase results in release of a different polyphosphate-tag moiety;

    wherein the polynucleotide is a primed single-stranded template;

    (b) allowing the polynucleotide polymerase to form a complex with the primed single-stranded template;

    (c) allowing the polynucleotide polymerase to mediate nucleic acid synthesis using the at least four deoxyribonucleotide polyphosphate (dNPP) analogs;

    (d) applying a light signal capable of exciting the fluorescent reporter molecule to a region in the first reservoir proximal to the pore;

    (e) applying an electric field between the first and second electrodes, the electric field causing;

    (i) members of the ionic species to pass through the pore from the second reservoir to the first reservoir and bind to the fluorescent reporter molecule, thereby producing a change in the fluorescence emission from the fluorescent reporter molecule; and

    (ii) the polyphosphate-tag moieties to pass through the pore from the first reservoir to the second reservoir, whereby transit of members of the ionic species through the pore is reduced and the change in the fluorescence emission from the fluorescent reporter molecule is attenuated differently by each polyphosphate-tag moiety; and

    (f) measuring the fluorescence signal so as to determine the nucleotide sequence of the polynucleotide.

View all claims
  • 2 Assignments
Timeline View
Assignment View
    ×
    ×