Efficient optical analysis of polymers using arrays of nanostructures
First Claim
1. A device for analyzing polymers each having optical labels attached to a sequence of monomers, the device comprising:
- a nanopore array separating a first chamber and a second chamber, wherein nanopores of the nanopore array each connect the first chamber and the second chamber and are arranged in clusters such that each different cluster of nanopores is disposed within a different resolution limited area;
a polymer translocating system for moving polymers in the first chamber to the second chamber through the nanopores of the nanopore array; and
a detection system for collecting optical signals generated by optical labels attached to polymers whenever an optical label exits a nanopore within a resolution limited area.
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Abstract
The invention is directed to methods and apparatus for detecting sequences of optical signals from parallel reactions on an array of nanostructures, such as nanopores, nanowells, or nanoparticles. In accordance with the invention, an array of nanostructures is provided, each nanostructure comprising a reaction site and each capable of confining a reaction that generates a sequence of optical signals, and the nanostructures of the array being arranged in clusters each comprising a number of nanostructures. Each different cluster is disposed within a different resolution limited area and the number of nanostructures in each cluster is either greater than one or a random variable with an average value greater than zero. Optical signals from reactions in the nanostructures are detected by an optical system operatively associated with the array.
259 Citations
19 Claims
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1. A device for analyzing polymers each having optical labels attached to a sequence of monomers, the device comprising:
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a nanopore array separating a first chamber and a second chamber, wherein nanopores of the nanopore array each connect the first chamber and the second chamber and are arranged in clusters such that each different cluster of nanopores is disposed within a different resolution limited area; a polymer translocating system for moving polymers in the first chamber to the second chamber through the nanopores of the nanopore array; and a detection system for collecting optical signals generated by optical labels attached to polymers whenever an optical label exits a nanopore within a resolution limited area. - View Dependent Claims (2, 3, 4)
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5. A method of analyzing polymers each having a sequence of optical labels comprising:
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providing a nanopore array wherein each nanopore has a bore capable of providing fluid communication between a first chamber and a second chamber, and the nanopore array having at least one resolution limited area containing a plurality of nanopores; translocating polymers through nanopores of the nanopore array; collecting and integrating optical signals from polymers translocating through nanopores in each of the resolution limited areas during a predetermined interval to obtain an integrated signal for each of the resolution limited areas; and determining a number of functional nanopores within each of the resolution limited areas by a relative level of its integrated signal. - View Dependent Claims (6, 7)
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8. A device for analyzing polymers each having a sequence of optical labels comprising:
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a solid phase membrane separating a first chamber and a second chamber, the solid phase membrane having an array of apertures each connecting the first chamber and the second chamber, the apertures of the array being arranged in clusters each having a plurality of apertures and each different cluster being disposed within a different resolution limited area; protein nanopores immobilized in the apertures, the immobilized protein nanopores having an active fraction wherein each immobilized protein of the active fraction is capable of translocating a polymer from the first chamber to the second chamber through a bore; and a detection system for collecting optical signals generated by optical labels whenever an optical label exits a bore of a protein nanopore within a resolution limited area. - View Dependent Claims (9)
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10. A method of sequencing polynucleotides each having a sequence of optical labels comprising:
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(a) translocating single stranded polynucleotides at a concentration and flux through a nanopore array, wherein substantially every nucleotide of each single stranded polynucleotides is labeled with an optical label capable of generating an optical signal indicative of the nucleotide to which it is attached, and wherein the nanopore array comprises clusters of nanopores, each cluster comprising a number of nanopores, wherein each different cluster is disposed within a different resolution limited area and wherein the number of nanopores in each cluster is either greater than one or is a random variable with an average value greater than zero; (b) exposing the optical labels of each nucleotide to excitation radiation upon exiting a nanopore; (c) measuring in each resolution limited region on the nanopore array optical signals generated by optical labels exiting nanopores to identify the nucleotide to which the optical label is attached whenever such optical signals are from a single optical label; and (d) determining a nucleotide sequence of the polynucleotide from a sequence of optical signals from single optical labels. - View Dependent Claims (11, 12)
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13. An apparatus for detecting sequences of optical signals from parallel reactions on an array, the apparatus comprising:
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an array of nanopores each comprising a reaction site and each capable of confining a reaction that generates a sequence of optical signals, the nanopores of the array being arranged in clusters each comprising a number of nanopores and each different cluster of nanopores being disposed within a different resolution limited area; and an optical system operatively associated with the array for detecting optical signals from the reactions. - View Dependent Claims (14, 15, 16, 17, 18, 19)
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Specification