Hydrodynamic Slip on DNA Observed by Optical Tweezers-Controlled Translocation Experiments with Solid-State and Lipid-Coated Nanopores

Threading Immobilized DNA Molecules through a Solid-State Nanopore at >100 μs per Base Rate

Changbae Hyun (1933108)
Harpreet Kaur (107427)
Ryan Rollings (1933111)
Min Xiao (320004)
Jiali Li (436886)

July 2013

In pursuit of developing solid-state nanopore-based DNA sequencing technology, we have designed and ...

Microscopic Kinetics of DNA Translocation through Synthetic Nanopores

Aksimentiev, Aleksij
Heng, Jiunn B.
Timp, Gregory
Schulten, Klaus

September 2004

AbstractWe have previously demonstrated that a nanometer-diameter pore in a nanometer-thick metal-ox...

Surface Charge Density-Dependent DNA Capture through Polymer Planar Nanopores

Zheng Jia (1861600)
Junseo Choi (5957801)
Sunggook Park (5957804)

November 2018

Surface charge density of nanopore walls plays a critical role in DNA capture in nanopore-based sens...

Hydrodynamic Slip on DNA Observed by Optical Tweezers- Controlled Translocation Experiments with Solid-State and Lipid- Coated Nanopores

Lukas Galla
Andreas J. Meyer
Andre Spiering
Andy Sischka
Michael Mayer
Adam R. Hall
Peter Reimann
Dario Anselmetti

January 2016

ABSTRACT: We use optical tweezers to investigate the threading force on a single dsDNA molecule insi...

Controlled translocation of DNA through nanopores in carbon nano-, silicon-nitride- and lipid-coated membranes

Sischka, Andy
Galla, Lukas
Meyer, Andreas
Spiering, André
Knust, Sebastian
Mayer, Michael
Hall, Adam R.
Beyer, André
Reimann, Peter
Gölzhäuser, Armin
Anselmetti, Dario

January 2015

Sischka A, Galla L, Meyer A, et al. Controlled translocation of DNA through nanopores in carbon nano...

Nanopore modifications with lipid bilayer membranes for optical tweezers DNA force measurements

Galla, Lukas

January 2015

Galla L. Nanopore modifications with lipid bilayer membranes for optical tweezers DNA force measurem...

Fundamental Applications of Nanopores: Controlled DNA Translocations to Nanofluidics

Davis, Sebastian James

October 2020

Nanopores are nanometer sized openings that are the connection between two electrolyte filled reserv...

Effective driving force applied on DNA inside a solid-state nanopore

Lu Bo
Hoogerheide David P
Zhao Qing
Yu Dapeng

January 2012

A detailed understanding of the origin of the electrophoretic force on DNA molecules in a solid-stat...

Direct force measurements of DNA in a solid-state nanopore

Ulrich F Keyser
STIJN VAN DORP Bernard N Koeleman
Diego Krapf
Ralph M M Smeets
Serge G Lemay
Nynke H Dekker
Cees Dekker

January 2006

A mong the variety of roles for nanopores in biology, an important one is enabling polymer transport...

Fast DNA translocation through a solid-state nanopore

Storm, AJ
Storm, C Kees
Chen, Jinghua
W. Zandbergen, Henny
Joanny, J-F
Dekker, C

January 2005

We report experiments and modeling of translocation of double-strand DNA through a siliconoxide nano...

Electrokinetic phenomena in nanopore transport

Laohakunakorn, Nadanai

October 2015

Nanopores are apertures of nanometric dimensions in an insulating matrix. They are routinely used to...

Direct, Concurrent Measurements of the Forces and Currents Affecting DNA in a Nanopore with Comparable Topography

Edward M. Nelson (1788211)
Hui Li (32376)
Gregory Timp (1420228)

June 2014

We report direct, concurrent measurements of the forces and currents associated with the translocati...

Forcing DNA and RNA through Artifical Nanopores

Van den Hout, M. (author)

October 2010

Biological molecules can be forced to pass through an aperture in a thin membrane of only several na...

Surface Charge Density-Dependent DNA Capture through Polymer Planar Nanopores

Zheng Jia (1861600)
Junseo Choi (5957801)
Sunggook Park (5957804)

November 2018

Surface charge density of nanopore walls plays a critical role in DNA capture in nanopore-based sens...

Surface Charge Density-Dependent DNA Capture through Polymer Planar Nanopores

Zheng Jia (1861600)
Junseo Choi (5957801)
Sunggook Park (5957804)

November 2018

Surface charge density of nanopore walls plays a critical role in DNA capture in nanopore-based sens...

Threading Immobilized DNA Molecules through a Solid-State Nanopore at >100 μs per Base Rate

Changbae Hyun (1933108)
Harpreet Kaur (107427)
Ryan Rollings (1933111)
Min Xiao (320004)
Jiali Li (436886)

July 2013

In pursuit of developing solid-state nanopore-based DNA sequencing technology, we have designed and ...

Microscopic Kinetics of DNA Translocation through Synthetic Nanopores

Aksimentiev, Aleksij
Heng, Jiunn B.
Timp, Gregory
Schulten, Klaus

September 2004

AbstractWe have previously demonstrated that a nanometer-diameter pore in a nanometer-thick metal-ox...

Surface Charge Density-Dependent DNA Capture through Polymer Planar Nanopores

Zheng Jia (1861600)
Junseo Choi (5957801)
Sunggook Park (5957804)

November 2018

Surface charge density of nanopore walls plays a critical role in DNA capture in nanopore-based sens...

Hydrodynamic Slip on DNA Observed by Optical Tweezers- Controlled Translocation Experiments with Solid-State and Lipid- Coated Nanopores

Lukas Galla
Andreas J. Meyer
Andre Spiering
Andy Sischka
Michael Mayer
Adam R. Hall
Peter Reimann
Dario Anselmetti

January 2016

ABSTRACT: We use optical tweezers to investigate the threading force on a single dsDNA molecule insi...

Controlled translocation of DNA through nanopores in carbon nano-, silicon-nitride- and lipid-coated membranes

Sischka, Andy
Galla, Lukas
Meyer, Andreas
Spiering, André
Knust, Sebastian
Mayer, Michael
Hall, Adam R.
Beyer, André
Reimann, Peter
Gölzhäuser, Armin
Anselmetti, Dario

January 2015

Sischka A, Galla L, Meyer A, et al. Controlled translocation of DNA through nanopores in carbon nano...

Nanopore modifications with lipid bilayer membranes for optical tweezers DNA force measurements

Galla, Lukas

January 2015

Galla L. Nanopore modifications with lipid bilayer membranes for optical tweezers DNA force measurem...

Fundamental Applications of Nanopores: Controlled DNA Translocations to Nanofluidics

Davis, Sebastian James

October 2020

Nanopores are nanometer sized openings that are the connection between two electrolyte filled reserv...

Effective driving force applied on DNA inside a solid-state nanopore

Lu Bo
Hoogerheide David P
Zhao Qing
Yu Dapeng

January 2012

A detailed understanding of the origin of the electrophoretic force on DNA molecules in a solid-stat...

Direct force measurements of DNA in a solid-state nanopore

Ulrich F Keyser
STIJN VAN DORP Bernard N Koeleman
Diego Krapf
Ralph M M Smeets
Serge G Lemay
Nynke H Dekker
Cees Dekker

January 2006

A mong the variety of roles for nanopores in biology, an important one is enabling polymer transport...

Fast DNA translocation through a solid-state nanopore

Storm, AJ
Storm, C Kees
Chen, Jinghua
W. Zandbergen, Henny
Joanny, J-F
Dekker, C

January 2005

We report experiments and modeling of translocation of double-strand DNA through a siliconoxide nano...

Electrokinetic phenomena in nanopore transport

Laohakunakorn, Nadanai

October 2015

Nanopores are apertures of nanometric dimensions in an insulating matrix. They are routinely used to...

Direct, Concurrent Measurements of the Forces and Currents Affecting DNA in a Nanopore with Comparable Topography

Edward M. Nelson (1788211)
Hui Li (32376)
Gregory Timp (1420228)

June 2014

We report direct, concurrent measurements of the forces and currents associated with the translocati...

Forcing DNA and RNA through Artifical Nanopores

Van den Hout, M. (author)

October 2010

Biological molecules can be forced to pass through an aperture in a thin membrane of only several na...

Surface Charge Density-Dependent DNA Capture through Polymer Planar Nanopores

Zheng Jia (1861600)
Junseo Choi (5957801)
Sunggook Park (5957804)

November 2018

Surface charge density of nanopore walls plays a critical role in DNA capture in nanopore-based sens...

Surface Charge Density-Dependent DNA Capture through Polymer Planar Nanopores

Zheng Jia (1861600)
Junseo Choi (5957801)
Sunggook Park (5957804)

November 2018

Surface charge density of nanopore walls plays a critical role in DNA capture in nanopore-based sens...

Threading Immobilized DNA Molecules through a Solid-State Nanopore at >100 μs per Base Rate

Changbae Hyun (1933108)
Harpreet Kaur (107427)
Ryan Rollings (1933111)
Min Xiao (320004)
Jiali Li (436886)

July 2013

In pursuit of developing solid-state nanopore-based DNA sequencing technology, we have designed and ...

Microscopic Kinetics of DNA Translocation through Synthetic Nanopores

Aksimentiev, Aleksij
Heng, Jiunn B.
Timp, Gregory
Schulten, Klaus

September 2004

AbstractWe have previously demonstrated that a nanometer-diameter pore in a nanometer-thick metal-ox...

Surface Charge Density-Dependent DNA Capture through Polymer Planar Nanopores

Zheng Jia (1861600)
Junseo Choi (5957801)
Sunggook Park (5957804)

November 2018

Surface charge density of nanopore walls plays a critical role in DNA capture in nanopore-based sens...

Hydrodynamic Slip on DNA Observed by Optical Tweezers-Controlled Translocation Experiments with Solid-State and Lipid-Coated Nanopores

Abstract

Extracted data

Hydrodynamic Slip on DNA Observed by Optical Tweezers-Controlled Translocation Experiments with Solid-State and Lipid-Coated Nanopores

Abstract

Extracted data

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