6533b86ffe1ef96bd12ce82c

RESEARCH PRODUCT

Tracking Changes in Protonation and Conformation during Photoactivation of a Phytochrome Protein

subject

description

Phytochromes are photosensor proteins in plants and bacteria. The biological response is mediated by structural changes that follow photon absorption in the protein complex. The initial step is the photoisomerization of the biliverdin chromophore. How this leads to large-scale structural changes of the whole complex is, however, poorly understood. In this work, we use molecular dynamics (MD) simulations to investigate the structural changes after isomerization. In particular, we perform MD simulations at constant pH, using a recently developed method, to explore the effect of chromophore isomerization on the protonation (pKa) of nearby residues. In addition, we use a hybrid quantum mechanics/molecular mechanics approach to investigate the effect of isomerization, protonation and protein conformational changes on the absorption spectrum of the protein, for which experimental data are available. Here, we will first describe the constant pH MD simulations, and then compare the calculated spectra to experiment, and discuss the implications of our results for the photo-switching mechanism.