Computational approaches have to date failed to fully capture the large (about 0.4 eV) excitation energy tuning displayed by the nearly identical anionic chromophore in different green fluorescent protein (GFP) variants. Here, we present a thorough comparative study of a set of proteins in this sub-family, including the most red- (phiYFP) and blue-shifted (mTFP0.7) ones. We employ a classical polarisable embedding through induced dipoles and combine it with time-dependent density functional theory and multireference perturbation theory in order to capture both state-specific induction contributions and the coupling of the polarisation of the protein to the chromophore transition density. The obtained results show that only upon inclusion of...
Green fluorescent protein (GFP) and GFP-like fluorescent proteins owe their photophysical properties...
We present a detailed study of the protein environmental effects on the one- and two-photon absorpti...
The green fluorescent protein and its designed variants fluoresce efficiently. Because the isolated ...
Computational approaches have to date failed to fully capture the large (about 0.4 eV) excitation en...
Computational approaches have to date failed to fully capture the large (about 0.4 eV) excitation en...
The nature of the coupling of the photoexcited chromophore with the environment in a prototypical sy...
The nature of the coupling of the photoexcited chromophore with the environment in a prototypical sy...
The aim of this study is to identify the responsible molecular forms for the pH dependent optical pr...
The nature of the coupling of the photoexcited chromophore with the environment in a prototypical sy...
We present an extensive investigation of the vertical excitations of the anionic and neutral forms o...
We present an extensive investigation of the vertical excitations of the anionic and neutral forms o...
For many decades, simulating the excited state properties of complex systems has been an intriguing ...
Fluorescent proteins (FPs), featuring the same chromophore but different chromophore–protein interac...
The electronic circular dichroism (ECD) properties of the green fluorescent protein and other fluore...
The electronic circular dichroism (ECD) properties of the green fluorescent protein and other fluore...
Green fluorescent protein (GFP) and GFP-like fluorescent proteins owe their photophysical properties...
We present a detailed study of the protein environmental effects on the one- and two-photon absorpti...
The green fluorescent protein and its designed variants fluoresce efficiently. Because the isolated ...
Computational approaches have to date failed to fully capture the large (about 0.4 eV) excitation en...
Computational approaches have to date failed to fully capture the large (about 0.4 eV) excitation en...
The nature of the coupling of the photoexcited chromophore with the environment in a prototypical sy...
The nature of the coupling of the photoexcited chromophore with the environment in a prototypical sy...
The aim of this study is to identify the responsible molecular forms for the pH dependent optical pr...
The nature of the coupling of the photoexcited chromophore with the environment in a prototypical sy...
We present an extensive investigation of the vertical excitations of the anionic and neutral forms o...
We present an extensive investigation of the vertical excitations of the anionic and neutral forms o...
For many decades, simulating the excited state properties of complex systems has been an intriguing ...
Fluorescent proteins (FPs), featuring the same chromophore but different chromophore–protein interac...
The electronic circular dichroism (ECD) properties of the green fluorescent protein and other fluore...
The electronic circular dichroism (ECD) properties of the green fluorescent protein and other fluore...
Green fluorescent protein (GFP) and GFP-like fluorescent proteins owe their photophysical properties...
We present a detailed study of the protein environmental effects on the one- and two-photon absorpti...
The green fluorescent protein and its designed variants fluoresce efficiently. Because the isolated ...