Add to ORKGUltraviolet (UV) spectra of proteins originate from electronic excitations of their backbone chromophore and aromatic side chains and provide a sensitive probe of the secondary structure. Recently developed femtosecond lasers allow multidimensional spectroscopy to be extended into the UV regime. Two-dimensional UV (2DUV) techniques, with short pulses, provide a promising tool to study the structures and dynamics of proteins. We combined 2DUV spectroscopy and molecular dynamics generated free energy profiles to simulate the protein electronic transitions and UV photon echo signals to monitor the protein folding process of the small protein Beta3s. Near-ultraviolet (NUV) and far-ultraviolet (FUV) signals illustrate the variation of the 2D cor...
A protein’s folding and conformational energy landscape depends on a large number of molecular degre...
Two-dimensional (2D) optical spectroscopy techniques based on ultrashort laser pulses have been rece...
As ubiquitous and diverse biopolymers, proteins are dynamic molecules that are constantly engaging i...
ABSTRACT: The function of protein relies on their folding to assume the proper structure. Probing th...
Two-dimensional (2D) spectroscopy, originally developed for nuclear magnetic resonance, has been rec...
The function of protein relies on their folding to assume the proper structure. Probing the structur...
Probing the underlying free-energy landscape, pathway, and mechanism is the key to understanding pro...
Understanding the exciton dynamics in biological systems is crucial for the manipulation of their fu...
We propose to use infrared coherent two-dimensional correlation spectroscopy (2DCS) to characterize ...
ABSTRACT: Two-dimensional (2D) optical spectroscopy techniques based on ultrashort laser pulses have...
Two-dimensional (2D) optical spectroscopy techniques based on ultrashort laser pulses have been rece...
A protein’s folding and conformational energy landscape depends on a large number of molecular degre...
Two-dimensional (2D) optical spectroscopy techniques based on ultrashort laser pulses have been rece...
As ubiquitous and diverse biopolymers, proteins are dynamic molecules that are constantly engaging i...
ABSTRACT: The function of protein relies on their folding to assume the proper structure. Probing th...
Two-dimensional (2D) spectroscopy, originally developed for nuclear magnetic resonance, has been rec...
The function of protein relies on their folding to assume the proper structure. Probing the structur...
Probing the underlying free-energy landscape, pathway, and mechanism is the key to understanding pro...
Understanding the exciton dynamics in biological systems is crucial for the manipulation of their fu...
We propose to use infrared coherent two-dimensional correlation spectroscopy (2DCS) to characterize ...
ABSTRACT: Two-dimensional (2D) optical spectroscopy techniques based on ultrashort laser pulses have...
Two-dimensional (2D) optical spectroscopy techniques based on ultrashort laser pulses have been rece...
A protein’s folding and conformational energy landscape depends on a large number of molecular degre...
Two-dimensional (2D) optical spectroscopy techniques based on ultrashort laser pulses have been rece...
As ubiquitous and diverse biopolymers, proteins are dynamic molecules that are constantly engaging i...