Inter-subunit distances in full-length, dimeric, bacterial phytochrome Agp1, as measured by PELDOR between different spin label positions, remain unchanged upon photoconversion [Signal Transduction]

Bacterial phytochromes are dimeric light-regulated histidine kinases that convert red light into signaling events. Light absorption by the N-terminal photosensory core module (PCM) causes the proteins to switch between two spectrally distinct forms, Pr and Pfr, thus resulting in a conformational change that modulates the C-terminal histidine kinase region. To provide further insights into structural details of photoactivation, we investigated the full-length Agp1 bacteriophytochrome from the soil bacterium Agrobacterium fabrum using a combined spectroscopic and modeling approach. We generated seven mutants suitable for spin labeling to enable application of pulsed electron paramagnetic resonance (EPR) techniques. The distances between attached spin labels were measured using pulsed electron-electron double resonance (PELDOR) spectroscopy to probe the arrangement of the subunits within the dimer. We found very good agreement of experimental and calculated distances for the histidine-kinase region when both subunits are in a parallel orientation. However, experimental distance distributions surprisingly showed only limited agreement with either parallel- or antiparallel-arranged dimer structures when spin labels were placed into the PCM region. This observation indicates that the arrangements of the PCM subunits in the full-length protein dimer in solution differ significantly from that in the PCM crystals. The PELDOR data presented here revealed either no or only minor changes of distance distributions upon Pr-to-Pfr photoconversion.

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