Add to ORKGAt its core, a nanopore detector has a nanometer-scale biological membrane across which a voltage is applied. The voltage draws a DNA molecule into an á-hemolysin channel in the membrane. Consequently, a distinctive channel current blockade signal is created as the molecule flexes and interacts with the channel. This flexing of the molecule is characterized by different blockade levels in the channel current signal. Previous experiments have shown that a nanopore detector is sufficiently sensitive such that nearly identical DNA molecules were classified successfully using machine learning techniques such as Hidden Markov Models and Support Vector Machines in a channel current based signal analysis platform [4-9]. In this paper, methods for ...
Translocation of DNA molecules through special membrane nanopores- under the application of electric...
International audienceSolid-State Nanopores made of 2-D materials such as MoS2 have emerged as one o...
The Nanopore Detector using á-hemolysin channel transcribes kinetics of a single molecule along the ...
Abstract Background A nanopore detector has a nanometer-scale trans-membrane channel across which a ...
International audienceSingle nanopore is a powerful platform to detect, discriminate and identify bi...
2D nanopores can be used to electrophoretically drive DNA molecules, which can in turn be identified...
Single biopolymers (DNA, RNA, or polypeptide) can be examined using an alpha-hemolysin channel dete...
Nanoscale a-hemolysin pores can be used to ana-lyze individual DNA or RNA molecules. Serial examinat...
Abstract Background Ionic current blockade signal processing, for use in nanopore detection, offers ...
Nanopores are powerful tools for measuring and probing single molecules. A nanopore is a nanometer-s...
Nanopore technology holds great promise for a wide range of applications such as biomedical sensing,...
International audienceSolid-State Nanopores made of 2-D materials such as MoS2 have emerged as one o...
Thesis (Ph.D.)--University of Washington, 2021Molecular sensing provides a window into the complex w...
International audienceSolid-State Nanopores made of 2-D materials such as MoS2 have emerged as one o...
International audienceSolid-State Nanopores made of 2-D materials such as MoS2 have emerged as one o...
Translocation of DNA molecules through special membrane nanopores- under the application of electric...
International audienceSolid-State Nanopores made of 2-D materials such as MoS2 have emerged as one o...
The Nanopore Detector using á-hemolysin channel transcribes kinetics of a single molecule along the ...
Abstract Background A nanopore detector has a nanometer-scale trans-membrane channel across which a ...
International audienceSingle nanopore is a powerful platform to detect, discriminate and identify bi...
2D nanopores can be used to electrophoretically drive DNA molecules, which can in turn be identified...
Single biopolymers (DNA, RNA, or polypeptide) can be examined using an alpha-hemolysin channel dete...
Nanoscale a-hemolysin pores can be used to ana-lyze individual DNA or RNA molecules. Serial examinat...
Abstract Background Ionic current blockade signal processing, for use in nanopore detection, offers ...
Nanopores are powerful tools for measuring and probing single molecules. A nanopore is a nanometer-s...
Nanopore technology holds great promise for a wide range of applications such as biomedical sensing,...
International audienceSolid-State Nanopores made of 2-D materials such as MoS2 have emerged as one o...
Thesis (Ph.D.)--University of Washington, 2021Molecular sensing provides a window into the complex w...
International audienceSolid-State Nanopores made of 2-D materials such as MoS2 have emerged as one o...
International audienceSolid-State Nanopores made of 2-D materials such as MoS2 have emerged as one o...
Translocation of DNA molecules through special membrane nanopores- under the application of electric...
International audienceSolid-State Nanopores made of 2-D materials such as MoS2 have emerged as one o...
The Nanopore Detector using á-hemolysin channel transcribes kinetics of a single molecule along the ...