We present a dynamically adjustable nanofluidic platform for formatting the conformations of and visualizing the interaction kinetics between biomolecules in solution, offering new time resolution and control of the reaction processes. This platform extends convex lens-induced confinement (CLiC), a technique for imaging molecules under confinement, by introducing a system for in situ modification of the chemical environment; this system uses a deep microchannel to diffusively exchange reagents within the nanoscale imaging region, whose height is fixed by a nanopost array. To illustrate, we visualize and manipulate salt-induced, surfactant-induced, and enzyme-induced reactions between small-molecule reagents and DNA molecules, where the conf...
This paper uses computer simulations to reveal unprecedented details about linearization of deoxyrib...
Contains fulltext : 157606.pdf (publisher's version ) (Open Access)Physicist Masou...
The successful design of nanofluidic devices for the manipulation of biopolymers requires an underst...
As biological physics develops at the level of single-molecule studies, new tools are required to ma...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2008.Includes...
Single-molecule detection schemes offer powerful means to overcome static and dynamic heterogeneity ...
Single-molecule DNA experiments dealing with statics and dynamics in nanoconfined systems are typica...
Understanding the biophysics of DNA and RNA at the single-molecule level is critical to advancing th...
A pneumatically-actuated nanofluidic platform that has the capability of dynamically controlling the...
Using laser fluorescence microscopy, we study the shape and dynamics of individual DNA molecules in ...
Fluorescence imaging is used to study the dynamics of a wide variety of single molecules in solution...
We report an approach to study the in situ conformational response of single biomolecules such as DN...
Single DNA molecule techniques have revolutionized our understanding of DNA-protein interactions. Tr...
We directly measure the free energy of confinement for semiflexible polymers from the nanoscale to b...
Single-molecule fluorescence microscopy is crucial for molecular biology studies, and traditional si...
This paper uses computer simulations to reveal unprecedented details about linearization of deoxyrib...
Contains fulltext : 157606.pdf (publisher's version ) (Open Access)Physicist Masou...
The successful design of nanofluidic devices for the manipulation of biopolymers requires an underst...
As biological physics develops at the level of single-molecule studies, new tools are required to ma...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Chemical Engineering, 2008.Includes...
Single-molecule detection schemes offer powerful means to overcome static and dynamic heterogeneity ...
Single-molecule DNA experiments dealing with statics and dynamics in nanoconfined systems are typica...
Understanding the biophysics of DNA and RNA at the single-molecule level is critical to advancing th...
A pneumatically-actuated nanofluidic platform that has the capability of dynamically controlling the...
Using laser fluorescence microscopy, we study the shape and dynamics of individual DNA molecules in ...
Fluorescence imaging is used to study the dynamics of a wide variety of single molecules in solution...
We report an approach to study the in situ conformational response of single biomolecules such as DN...
Single DNA molecule techniques have revolutionized our understanding of DNA-protein interactions. Tr...
We directly measure the free energy of confinement for semiflexible polymers from the nanoscale to b...
Single-molecule fluorescence microscopy is crucial for molecular biology studies, and traditional si...
This paper uses computer simulations to reveal unprecedented details about linearization of deoxyrib...
Contains fulltext : 157606.pdf (publisher's version ) (Open Access)Physicist Masou...
The successful design of nanofluidic devices for the manipulation of biopolymers requires an underst...