The folding of RNA into a wide range of structures is essential for its diverse biological functions from enzymatic catalysis to ligand binding and gene regulation. The unfolding and refolding of individual RNA molecules can be probed by single-molecule force spectroscopy (SMFS), enabling detailed characterization of the conformational dynamics of the molecule as well as the free-energy landscape underlying folding. Historically, high-precision SMFS studies of RNA have been limited to custom-built optical traps. Although commercial atomic force microscopes (AFMs) are widely deployed and offer significant advantages in ease-of-use over custom-built optical traps, traditional AFM-based SMFS lacks the sensitivity and stability to characterize ...
The folding energy landscapes of RNA and proteins have been studied using experiments and molecular ...
AbstractExperimental variables of optical tweezers instrumentation that affect RNA folding/unfolding...
Understanding the folding mechanism of RNAs is critical for studying their structure-function relati...
AbstractMechanical unfolding and refolding of single RNA molecules have previously been observed in ...
Precise, controllable single-molecule force spectroscopy studies of RNA and RNA-dependent processes ...
In the past 30 years, the atomic force microscope (AFM) has become a true enabling platform in the l...
Much of the dynamics information is lost in bulk measurements because of the population averaging. S...
AbstractBy exerting mechanical force, it is possible to unfold/refold RNA molecules one at a time. I...
The atomic force microscope (AFM) has become a powerful tool for the visualization, probing and mani...
AbstractGiven the essential cellular roles for ribonucleic acids (RNAs) it is important to understan...
AbstractMechanical unfolding of RNA structures, ranging from hairpins to ribozymes, using laser opti...
AbstractNanomanipulation of individual RNA molecules, using laser optical tweezers, has made it poss...
Many reports have witnessed the potential of the atomic force microscope as a force sensor for probi...
ABSTRACT Nanomanipulation of individual RNA molecules, using laser optical tweezers, has made it pos...
: Single-molecule force spectroscopy (SMFS) measurements allow for quantification of the molecular f...
The folding energy landscapes of RNA and proteins have been studied using experiments and molecular ...
AbstractExperimental variables of optical tweezers instrumentation that affect RNA folding/unfolding...
Understanding the folding mechanism of RNAs is critical for studying their structure-function relati...
AbstractMechanical unfolding and refolding of single RNA molecules have previously been observed in ...
Precise, controllable single-molecule force spectroscopy studies of RNA and RNA-dependent processes ...
In the past 30 years, the atomic force microscope (AFM) has become a true enabling platform in the l...
Much of the dynamics information is lost in bulk measurements because of the population averaging. S...
AbstractBy exerting mechanical force, it is possible to unfold/refold RNA molecules one at a time. I...
The atomic force microscope (AFM) has become a powerful tool for the visualization, probing and mani...
AbstractGiven the essential cellular roles for ribonucleic acids (RNAs) it is important to understan...
AbstractMechanical unfolding of RNA structures, ranging from hairpins to ribozymes, using laser opti...
AbstractNanomanipulation of individual RNA molecules, using laser optical tweezers, has made it poss...
Many reports have witnessed the potential of the atomic force microscope as a force sensor for probi...
ABSTRACT Nanomanipulation of individual RNA molecules, using laser optical tweezers, has made it pos...
: Single-molecule force spectroscopy (SMFS) measurements allow for quantification of the molecular f...
The folding energy landscapes of RNA and proteins have been studied using experiments and molecular ...
AbstractExperimental variables of optical tweezers instrumentation that affect RNA folding/unfolding...
Understanding the folding mechanism of RNAs is critical for studying their structure-function relati...