XFELs for structure and dynamics in biology
Category
Published on
Type
journal-article
Author
J. C. H. Spence
Citation
Spence, J.C.H., 2017. XFELs for structure and dynamics in biology. IUCrJ, 4(4), pp.322–339. Available at: http://dx.doi.org/10.1107/s2052252517005760.
Abstract
The development and application of the free-electron X-ray laser (XFEL) to structure and dynamics in biology since its inception in 2009 are reviewed. The research opportunities which result from the ability to outrun most radiation-damage effects are outlined, and some grand challenges are suggested. By avoiding the need to cool samples to minimize damage, the XFEL has permitted atomic resolution imaging of molecular processes on the 100 fs timescale under near-physiological conditions and in the correct thermal bath in which molecular machines operate. Radiation damage, comparisons of XFEL and synchrotron work, single-particle diffraction, fast solution scattering, pump–probe studies on photosensitive proteins, mix-and-inject experiments, caged molecules, pH jump and other reaction-initiation methods, and the study of molecular machines are all discussed. Sample-delivery methods and data-analysis algorithms for the various modes, from serial femtosecond crystallography to fast solution scattering, fluctuation X-ray scattering, mixing jet experiments and single-particle diffraction, are also reviewed.
DOI
Funding
NSF-STC Biology with X-ray Lasers (NSF-1231306)
