X-ray diffraction in temporally and spatially resolved biomolecular science

Abstract: Time-resolved Laue protein crystallography at the European Synchrotron Radiation Facility (ESRF) opened up the field of sub-nanosecond protein crystal structure analyses. There are a limited number of such time-resolved studies in the literature. Why is this? The X-ray laser now gives us femtosecond (fs) duration pulses, typically 10 fs up to ∼50 fs. Their use is attractive for the fastest time-resolved protein crystallography studies. It has been proposed that single molecules could even be studied with the a… Show more

“…During standard X-ray exposure of PSII-crystals Mn 4 is the prime target of radiation damage 66,67 (for radiation damage of metal markers for protein structural studies see Helliwell et al). 68 The reduction of Mn may inuence its ligation state. The lack of unequivocal structural models of the Mn 4 Ca-cluster in its sequential oxidation states is a major obstacle for a thorough understanding of the nal reaction cascade.…”

Spatio-temporal resolution of primary processes of photosynthesis

“…During standard X-ray exposure of PSII-crystals Mn 4 is the prime target of radiation damage 66,67 (for radiation damage of metal markers for protein structural studies see Helliwell et al). 68 The reduction of Mn may inuence its ligation state. The lack of unequivocal structural models of the Mn 4 Ca-cluster in its sequential oxidation states is a major obstacle for a thorough understanding of the nal reaction cascade.…”

Spatio-temporal resolution of primary processes of photosynthesis

Recent advances in protein metalation: structural studies