Add to ORKGABSTRACT Proton pathways in green fluorescent protein (GFP) are more extended than previously reported. In the x-ray data of wild-type GFP, a two-step exit pathway exists from the active site to the protein surface, controlled by a threonine switch. A proton entry pathway begins at a glutamate-lysine cluster around Glu-5, and extends all the way to the buried Glu-222 near the active site. This structural evidence suggests that GFP may function as a portable light-driven proton-pump, with proton emitted in the excited state through the switchable exit pathway, and replenished from Glu-222 and the Glu-5 entry pathway in the ground state
The fluorescence properties of GFP are strongly influenced by the protonation states of its chromoph...
The photophysical properties of most green fluorescent protein mutants (GFPs) are strongly affected ...
The photophysical properties of most green fluorescent protein mutants (GFPs) are strongly affected ...
AbstractProton pathways in green fluorescent protein (GFP) are more extended than previously reporte...
Proton transfer is an elementary process in biology. Green fluorescent protein (GFP) has served as a...
Proton transfer is one of the most important elementary processes in biology. Green fluorescent prot...
The neutral form of the chromophore in wild-type green fluorescent protein (wtGFP) undergoes excited...
Proton transfer plays an important role in the optical properties of green fluorescent protein (GFP)...
Inside proteins, protons move on proton wires (PWs). Starting from the highest resolution X-ray stru...
We explore several models for the ground-state proton chain transfer pathway between the green fluor...
The green fluorescent protein is a key technology in bioimaging. In this critical review, we conside...
The photophysical properties of the wild type green fluorescent protein (wtGFP), the isolated GFP ch...
AbstractIn green fluorescent protein, photo-excitation leads to excited-state proton transfer from i...
In this paper we report the results of extensive quantum chemical reaction pathway calculations for ...
Green fluorescent protein variant S65T/H148D has been reported to host a photocycle involving the ph...
The fluorescence properties of GFP are strongly influenced by the protonation states of its chromoph...
The photophysical properties of most green fluorescent protein mutants (GFPs) are strongly affected ...
The photophysical properties of most green fluorescent protein mutants (GFPs) are strongly affected ...
AbstractProton pathways in green fluorescent protein (GFP) are more extended than previously reporte...
Proton transfer is an elementary process in biology. Green fluorescent protein (GFP) has served as a...
Proton transfer is one of the most important elementary processes in biology. Green fluorescent prot...
The neutral form of the chromophore in wild-type green fluorescent protein (wtGFP) undergoes excited...
Proton transfer plays an important role in the optical properties of green fluorescent protein (GFP)...
Inside proteins, protons move on proton wires (PWs). Starting from the highest resolution X-ray stru...
We explore several models for the ground-state proton chain transfer pathway between the green fluor...
The green fluorescent protein is a key technology in bioimaging. In this critical review, we conside...
The photophysical properties of the wild type green fluorescent protein (wtGFP), the isolated GFP ch...
AbstractIn green fluorescent protein, photo-excitation leads to excited-state proton transfer from i...
In this paper we report the results of extensive quantum chemical reaction pathway calculations for ...
Green fluorescent protein variant S65T/H148D has been reported to host a photocycle involving the ph...
The fluorescence properties of GFP are strongly influenced by the protonation states of its chromoph...
The photophysical properties of most green fluorescent protein mutants (GFPs) are strongly affected ...
The photophysical properties of most green fluorescent protein mutants (GFPs) are strongly affected ...