Add to ORKGThe photochemistry and photophysics of organic chromophores in photoresponsive proteins can be tuned by non-covalent protein-chromophore interactions, which are experimentally difficult to access with a temporal resolution. Here, we have combined classical molecular dynamics simulations and multiscale QM/MM(pol) calculations to study light-harvesting antennae from purple bacteria (LH2) and synthetic flavin-based fluorescent proteins (FbFPs), derived from plant LOV (light, oxygen, and voltage) sensing domains, with improved fluorescence (iLOV). For the LH2 complexes, we found out that the mechanisms that govern their adaptation (and spectral tuning) to different light conditions exploit the different H-bonding environment around the bacterio...
Blue light sensing using flavin (BLUF) protein photoreceptor domains change their hydrogen bond netw...
International audienceAmong the ultimate goals of protein physics, the complete, experimental descri...
The Fenna–Matthews–Oslon (FMO) light harvesting pigment–protein complex in green sulfur bacteria tra...
The light-harvesting in photosynthetic purple bacteria can be tuned in response to the light conditi...
Flavin is the cofactor for the large and diverse family of proteins called flavoproteins. Upon absor...
Flavin-based fluorescent proteins are a class of fluorescent reporters derived from light, oxygen, a...
Light-harvesting complex II (LHCII) is a pigment–protein complex present in higher plants and green ...
The fluorescence emission spectrum of single peripheral light-harvesting (LH2) complexes of the phot...
Purple photosynthetic bacteria achieve remarkably high light harvesting efficiency, thus reconciling...
AbstractThe bacterial (Rhodopseudomonas acidophila) photosynthetic peripheral light-harvesting compl...
High efficiency of light harvesting in photosynthetic pigment-protein complexes is governed by evolu...
Photoactive biological systems modify the optical properties of their chromophores, known as spectra...
Diatoms generate a large portion of the oxygen produced on earth due to their exceptional light-harv...
Thesis (Ph. D.)--University of Washington, 2002Protein-pigment complexes are integral to many bioche...
ABSTRACT: We have investigated the energy landscape of the bacterial photosynthetic peripheral light...
Blue light sensing using flavin (BLUF) protein photoreceptor domains change their hydrogen bond netw...
International audienceAmong the ultimate goals of protein physics, the complete, experimental descri...
The Fenna–Matthews–Oslon (FMO) light harvesting pigment–protein complex in green sulfur bacteria tra...
The light-harvesting in photosynthetic purple bacteria can be tuned in response to the light conditi...
Flavin is the cofactor for the large and diverse family of proteins called flavoproteins. Upon absor...
Flavin-based fluorescent proteins are a class of fluorescent reporters derived from light, oxygen, a...
Light-harvesting complex II (LHCII) is a pigment–protein complex present in higher plants and green ...
The fluorescence emission spectrum of single peripheral light-harvesting (LH2) complexes of the phot...
Purple photosynthetic bacteria achieve remarkably high light harvesting efficiency, thus reconciling...
AbstractThe bacterial (Rhodopseudomonas acidophila) photosynthetic peripheral light-harvesting compl...
High efficiency of light harvesting in photosynthetic pigment-protein complexes is governed by evolu...
Photoactive biological systems modify the optical properties of their chromophores, known as spectra...
Diatoms generate a large portion of the oxygen produced on earth due to their exceptional light-harv...
Thesis (Ph. D.)--University of Washington, 2002Protein-pigment complexes are integral to many bioche...
ABSTRACT: We have investigated the energy landscape of the bacterial photosynthetic peripheral light...
Blue light sensing using flavin (BLUF) protein photoreceptor domains change their hydrogen bond netw...
International audienceAmong the ultimate goals of protein physics, the complete, experimental descri...
The Fenna–Matthews–Oslon (FMO) light harvesting pigment–protein complex in green sulfur bacteria tra...