), and re-oxidized states at ∼1.8 Å resolution, capturing three points in a redox reaction. These results demonstrate that c-SerialED can track reversible changes at the redox-site, enabling future time-resolved studies. Comparison between c-SerialED structures and SFX diffraction and emission data confirmed minimal radiation damage. Furthermore, previously reported structures use mercury in the crystallization condition and show mercury-induced conformational changes. Here, we use mercury-free crystallization conditions and reveal a water molecule in the redox center of the reduced state, absent in the previous structures, making these structures more representative of the physiological state.
Pacoste et al. (Fri,) studied this question.