Abstract
Ultrafast motion of molecules, particularly the coherent motion, has been intensively investigated as a key factor guiding the reaction pathways. Recently, X-ray free-electron lasers (XFELs) have been utilized to elucidate the ultrafast motion of molecules. However, the studies on proteins using XFELs have been typically limited to the crystalline phase, and proteins in solution have rarely been investigated. Here we applied femtosecond time-resolved X-ray solution scattering (fs-TRXSS) and a structure refinement method to visualize the ultrafast motion of a protein. We succeeded in revealing detailed ultrafast structural changes of homodimeric hemoglobin involving the coherent motion. In addition to the motion of the protein itself, the time-dependent change of electron density of the hydration shell was tracked. Besides, the analysis on the fs-TRXSS data of myoglobin allows for observing the effect of the oligomeric state on the ultrafast coherent motion.
Highlights
Ultrafast motion of molecules, the coherent motion, has been intensively investigated as a key factor guiding the reaction pathways
Time-resolved experimental techniques such as timeresolved optical spectroscopy[9,10,11,12], time-resolved X-ray crystallography (TRXC)[13,14,15], and time-resolved X-ray solution scattering (TRXSS)[16,17,18], which is known as time-resolved X-ray liquidography, have been applied to HbI and its mutants to elucidate the structural transition of HbI upon ligand dissociation
In spite of its strong potential, fs-TRXSS has been applied to a limited number of model protein systems such as myoglobin (Mb) and photosynthetic reaction center unlike time-resolved serial femtosecond X-ray crystallography (TR-SFX), which has been used for various protein systems[28,29,30,31,32,33,34]
Summary
The coherent motion, has been intensively investigated as a key factor guiding the reaction pathways. The hydration shell of the protein structures obtained from the WAXS analysis was refined using the signal in the SAXS region.
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