review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Ken Healy | |
P2860 | cites work | Single-channel currents recorded from membrane of denervated frog muscle fibres | Q22337286 |
Improved patch-clamp techniques for high-resolution current recording from cells and cell-free membrane patches | Q22337395 | ||
Microsecond time-scale discrimination among polycytidylic acid, polyadenylic acid, and polyuridylic acid as homopolymers or as segments within single RNA molecules | Q24537315 | ||
Highly accurate classification of Watson-Crick basepairs on termini of single DNA molecules | Q24537607 | ||
DNA heterogeneity and phosphorylation unveiled by single-molecule electrophoresis | Q24564812 | ||
Detecting single stranded DNA with a solid state nanopore | Q24647843 | ||
Recognizing a single base in an individual DNA strand: a step toward DNA sequencing in nanopores | Q24678934 | ||
Characterization of individual polynucleotide molecules using a membrane channel | Q24681325 | ||
Structure of staphylococcal alpha-hemolysin, a heptameric transmembrane pore | Q27734044 | ||
DNA-functionalized nanotube membranes with single-base mismatch selectivity | Q28277089 | ||
Electrolytic transport through a synthetic nanometer-diameter pore. | Q28769556 | ||
Single Carbon Nanotube Membranes: A Well-Defined Model for Studying Mass Transport through Nanoporous Materials | Q30051196 | ||
Probing distance and electrical potential within a protein pore with tethered DNA | Q30165001 | ||
Microscopic Kinetics of DNA Translocation through synthetic nanopores | Q30476446 | ||
Protein biosensors based on biofunctionalized conical gold nanotubes. | Q30986483 | ||
DNA molecules and configurations in a solid-state nanopore microscope | Q31155110 | ||
Lithography-free formation of nanopores in plastic membranes using laser heating | Q33262907 | ||
DNA molecule classification using feature primitives | Q33264195 | ||
Ionic conductivity of the aqueous layer separating a lipid bilayer membrane and a glass support | Q33264706 | ||
Sub-10 nm device fabrication in a transmission electron microscope | Q33282275 | ||
Nanopores and nucleic acids: prospects for ultrarapid sequencing | Q33877052 | ||
Orientation discrimination of single-stranded DNA inside the alpha-hemolysin membrane channel | Q33933830 | ||
Kinetics of duplex formation for individual DNA strands within a single protein nanopore | Q33949021 | ||
Ion-beam sculpting at nanometre length scales | Q33953560 | ||
Fabrication of solid-state nanopores with single-nanometre precision. | Q33967137 | ||
Sequence-specific detection of individual DNA strands using engineered nanopores. | Q34082659 | ||
PROBING SINGLE DNA MOLECULE TRANSPORT USING FABRICATED NANOPORES | Q34163106 | ||
Driven polymer translocation through a narrow pore | Q34171419 | ||
Dynamics of DNA molecules in a membrane channel probed by active control techniques | Q34180841 | ||
A nanosensor for transmembrane capture and identification of single nucleic Acid molecules | Q34186346 | ||
Sizing DNA using a nanometer-diameter pore | Q34187469 | ||
Nanopore unzipping of individual DNA hairpin molecules. | Q34187685 | ||
Imaging alpha-hemolysin with molecular dynamics: ionic conductance, osmotic permeability, and the electrostatic potential map | Q34190556 | ||
Formation of bimolecular membranes from lipid monolayers and a study of their electrical properties | Q34211339 | ||
The extracellular patch clamp: A method for resolving currents through individual open channels in biological membranes | Q34237703 | ||
Reconstitution of Cell Membrane Structure in vitro and its Transformation into an Excitable System | Q34263306 | ||
New DNA sequencing methods | Q34304575 | ||
Determination of RNA orientation during translocation through a biological nanopore | Q34352759 | ||
The electromechanics of DNA in a synthetic nanopore | Q34353128 | ||
Emerging technologies in DNA sequencing | Q34474513 | ||
Toward single molecule DNA sequencing: direct identification of ribonucleoside and deoxyribonucleoside 5'-monophosphates by using an engineered protein nanopore equipped with a molecular adapter | Q34489854 | ||
First-principles transversal DNA conductance deconstructed | Q34680449 | ||
Discrimination among individual Watson-Crick base pairs at the termini of single DNA hairpin molecules. | Q34771427 | ||
Characterization of nucleic acids by nanopore analysis | Q34962050 | ||
Rapid nanopore discrimination between single polynucleotide molecules | Q35003722 | ||
Cheminformatics methods for novel nanopore analysis of HIV DNA termini | Q35197733 | ||
Sequence-dependent gating of an ion channel by DNA hairpin molecules | Q35225466 | ||
High-speed DNA sequencing: an approach based upon fluorescence detection of single molecules | Q35541234 | ||
Multi-nanopore force spectroscopy for DNA analysis | Q35632999 | ||
Ionic effects on the elasticity of single DNA molecules | Q36181058 | ||
Discrete conductance fluctuations in lipid bilayer protein membranes | Q36387168 | ||
Developing nucleic acid-based electrical detection systems | Q36411756 | ||
Nanopore sequencing technology: research trends and applications | Q36630323 | ||
Stretching DNA using the electric field in a synthetic nanopore | Q36740273 | ||
Fast DNA sequencing via transverse electronic transport | Q36916801 | ||
Solid-state nanopores | Q37226480 | ||
Nanopore cheminformatics | Q38333395 | ||
Stochastic detection of monovalent and bivalent protein-ligand interactions | Q38344967 | ||
Atomic Layer Deposition to Fine-Tune the Surface Properties and Diameters of Fabricated Nanopores | Q41520967 | ||
An absolute method for the determination of the persistence length of native DNA from electron micrographs | Q41726080 | ||
Simulating Physics with Computers | Q42307875 | ||
Slowing DNA translocation in a solid-state nanopore | Q42596414 | ||
Single DNA rotaxanes of a transmembrane pore protein | Q42796877 | ||
DNA translocation in inorganic nanotubes | Q44223523 | ||
Discreteness of Conductance Change in Bimolecular Lipid Membranes in the Presence of Certain Antibiotics | Q44509313 | ||
Monovalent cations affect the free solution mobility of DNA by perturbing the hydrogen-bonded structure of water | Q45288404 | ||
Hydrogel-encapsulated lipid membranes | Q46293925 | ||
Rapid discrimination among individual DNA hairpin molecules at single-nucleotide resolution using an ion channel | Q46521618 | ||
Solid-state nanopore channels with DNA selectivity. | Q47432541 | ||
Resistive-pulse DNA detection with a conical nanopore sensor. | Q51100295 | ||
DNA counterion current and saturation examined by a MEMS-based solid state nanopore sensor. | Q51173379 | ||
A storable encapsulated bilayer chip containing a single protein nanopore. | Q51581011 | ||
Evaluation of nanopores as candidates for electronic analyte detection. | Q51601273 | ||
Fabrication of nanopores in silicon chips using feedback chemical etching. | Q53578431 | ||
Quantum Computation | Q56060100 | ||
Counting and Sizing of Submicron Particles by the Resistive Pulse Technique | Q57186057 | ||
Electrical signatures of single-stranded DNA with single base mutations in a nanopore capacitor | Q57876750 | ||
Simulation of the electric response of DNA translocation through a semiconductor nanopore–capacitor | Q57876769 | ||
Beyond the Gene Chip | Q57876794 | ||
Equilibrium and irreversible unzipping of DNA in a nanopore | Q57905492 | ||
Rapid Fabrication of Uniformly Sized Nanopores and Nanopore Arrays for Parallel DNA Analysis | Q57905500 | ||
Dynamics of polynucleotide transport through nanometre-scale pores | Q57905517 | ||
Voltage-Driven DNA Translocations through a Nanopore | Q57905521 | ||
Direct force measurements on DNA in a solid-state nanopore | Q57938666 | ||
Optical tweezers for force measurements on DNA in nanopores | Q57938700 | ||
Salt Dependence of Ion Transport and DNA Translocation through Solid-State Nanopores | Q57938707 | ||
Fast DNA Translocation through a Solid-State Nanopore | Q57938777 | ||
Translocation of double-strand DNA through a silicon oxide nanopore | Q57938836 | ||
DNA Translocation Across Planar Bilayers ContainingBacillus subtilisIon Channels | Q58022753 | ||
Counting polymers moving through a single ion channel | Q59066010 | ||
P433 | issue | 4 | |
P921 | main subject | nucleic acid sequence analysis | Q62088658 |
P304 | page(s) | 459-481 | |
P577 | publication date | 2007-08-01 | |
P1433 | published in | Nanomedicine | Q15817508 |
P1476 | title | Nanopore-based single-molecule DNA analysis | |
P478 | volume | 2 |
Q35721009 | A long DNA segment in a linear nanoscale Paul trap |
Q35720991 | A molecular dynamics simulation study on trapping ions in a nanoscale Paul trap |
Q35063550 | Applications of biological pores in nanomedicine, sensing, and nanoelectronics |
Q38367510 | Applications of tunable resistive pulse sensing |
Q21563842 | Artificial Brownian motors: Controlling transport on the nanoscale |
Q40318260 | Channel of viral DNA packaging motor for real time kinetic analysis of peptide oxidation states |
Q35141014 | Coarse-grained molecular dynamics simulation of DNA translocation in chemically modified nanopores |
Q51452225 | Continuous high throughput nanofluidic separation through tangential-flow vertical nanoslit arrays. |
Q37895786 | Controlling molecular transport through nanopores |
Q34460060 | DNA sequencing and bar-coding using solid-state nanopores |
Q34539658 | DNA strands attached inside single conical nanopores: ionic pore characteristics and insight into DNA biophysics |
Q36957459 | DNA translocation governed by interactions with solid-state nanopores. |
Q35200224 | Detecting DNA depurination with solid-state nanopores |
Q61797652 | Diagnosis and characterization of canine distemper virus through sequencing by MinION nanopore technology |
Q37331846 | Diffusion in confined geometries |
Q39812761 | Distinguishable populations report on the interactions of single DNA molecules with solid-state nanopores |
Q50583731 | Effective diffusion in the region between two surfaces. |
Q34003630 | Electromechanical unzipping of individual DNA molecules using synthetic sub-2 nm pores. |
Q41920145 | Engineered nanopore of Phi29 DNA-packaging motor for real-time detection of single colon cancer specific antibody in serum |
Q37697552 | Engineered voltage-responsive nanopores. |
Q40609620 | Enhanced Single-Molecule Detection using Porous Silver Membrane |
Q37310245 | Fabrication and characterization of nanopores with insulated transverse nanoelectrodes for DNA sensing in salt solution |
Q39309977 | Fingerprinting of Peptides with a Large Channel of Bacteriophage Phi29 DNA Packaging Motor |
Q50673325 | Fluoride-induced modulation of ionic transport in asymmetric nanopores functionalized with "caged" fluorescein moieties. |
Q42787771 | Incorporation of a viral DNA-packaging motor channel in lipid bilayers for real-time, single-molecule sensing of chemicals and double-stranded DNA. |
Q38064813 | Mapping and sequencing DNA using nanopores and nanodetectors. |
Q34008130 | Molecular control of ionic conduction in polymer nanopores |
Q37844004 | Mutation detection in plasmid-based biopharmaceuticals. |
Q35790382 | Nanomaterial-assisted signal enhancement of hybridization for DNA biosensors: a review. |
Q37934480 | Nanopore sensors for nucleic acid analysis |
Q58909546 | Nanopore-Based DNA Analysis via Graphene Electrodes |
Q44844492 | Nernst-Planck model of photo-triggered, pH-tunable ionic transport through nanopores functionalized with "caged" lysine chains |
Q29547447 | Next-generation DNA sequencing |
Q36981684 | Nonexponential kinetics of DNA escape from alpha-hemolysin nanopores |
Q51541631 | Numerical and theoretical study on the mechanism of biopolymer translocation process through a nano-pore. |
Q24596174 | Optical recognition of converted DNA nucleotides for single-molecule DNA sequencing using nanopore arrays |
Q35031122 | Optoelectronic control of surface charge and translocation dynamics in solid-state nanopores |
Q90678741 | Phosphoprotein Detection with a Single Nanofluidic Diode Decorated with Zinc Chelates |
Q50965717 | Polymer translocation in solid-state nanopores: dependence of scaling behavior on pore dimensions and applied voltage. |
Q39758062 | Porous biomimetic membranes: fabrication, properties and future applications |
Q36965213 | Probing mercury(II)-DNA interactions by nanopore stochastic sensing |
Q92940672 | Push-Button Method To Create Nanopores Using a Tesla-Coil Lighter |
Q45197037 | Rectification properties of conically shaped nanopores: consequences of miniaturization |
Q46234050 | Resistive-pulse detection of short dsDNAs using a chemically functionalized conical nanopore sensor |
Q35516808 | Single pore translocation of folded, double-stranded, and tetra-stranded DNA through channel of bacteriophage phi29 DNA packaging motor |
Q34153166 | Size evolution and surface characterization of solid-state nanopores in different aqueous solutions |
Q36680392 | Solid-State and Biological Nanopore for Real-Time Sensing of Single Chemical and Sequencing of DNA. |
Q37038845 | Solid-state nanopore technologies for nanopore-based DNA analysis. |
Q24658512 | The potential and challenges of nanopore sequencing |
Q44866646 | Tuning nanopore surface polarity and rectification properties through enzymatic hydrolysis inside nanoconfined geometries |
Q37482183 | Versatile ultrathin nanoporous silicon nitride membranes |
Q33783513 | Whole transcriptome analysis: what are we still missing? |
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