Litcius/Paper detail

Vibrational couplings between protein and cofactor in bacterial phytochrome Agp1 revealed by 2D-IR spectroscopy

David Buhrke, Norbert Michael, Peter Hamm

2022Proceedings of the National Academy of Sciences22 citationsDOIOpen Access PDF

Abstract

Phytochromes are ubiquitous photoreceptor proteins that undergo a significant refolding of secondary structure in response to initial photoisomerization of the chromophoric group. This process is important for the signal transduction through the protein and thus its regulatory function in different organisms. Here, we employ two-dimensional infrared absorption (2D-IR) spectroscopy, an ultrafast spectroscopic technique that is sensitive to vibrational couplings, to study the photoreaction of bacterial phytochrome Agp1. By calculating difference spectra with respect to the photoactivation, we are able to isolate sharp difference cross-peaks that report on local changes in vibrational couplings between different sites of the chromophore and the protein. These results indicate inter alia that a dipole coupling between the chromophore and the so-called tongue region plays a role in stabilizing the protein in the light-activated state.

Topics & Concepts

ChromophorePhytochromePhotoisomerizationPhotochemistrySpectroscopyChemistryInfrared spectroscopyInfraredMolecular vibrationBiophysicsRotational–vibrational couplingProtein structureCrystallographyBiochemistryBiologyMoleculeOpticsIsomerizationBotanyPhysicsOrganic chemistryRed lightQuantum mechanicsCatalysisLight effects on plantsPhotosynthetic Processes and MechanismsPhotoreceptor and optogenetics research