Brandon Hayes scite author profile

In this work, a concentric-flow electrokinetic injector delivered microcrystals of Geobacillus stearothermophilus thermolysin (2.2 Å structure), Thermosynechococcus elongatus photosystem II (< 3 Å diffraction) and Thermus thermophilus small ribosomal subunit (3.4 Å structure). The first ambient-temperature X-ray crystal structure of the 30S subunit bound to the antibiotic paromomycin was obtained in its native mother liquor. Compared to previous cryo-cooled structures, this new structure showed that paromomycin binds to the decoding center in a different conformation.

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Mix-and-inject XFEL crystallography reveals gated conformational dynamics during enzyme catalysis

Dasgupta

Budday

Oliveira

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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How changes in enzyme structure and dynamics facilitate passage along the reaction coordinate is a fundamental unanswered question. Here, we use time-resolved mix-and-inject serial crystallography (MISC) at an X-ray free electron laser (XFEL), ambient-temperature X-ray crystallography, computer simulations, and enzyme kinetics to characterize how covalent catalysis modulates isocyanide hydratase (ICH) conformational dynamics throughout its catalytic cycle. We visualize this previously hypothetical reaction mechanism, directly observing formation of a thioimidate covalent intermediate in ICH microcrystals during catalysis. ICH exhibits a concerted helical displacement upon active-site cysteine modification that is gated by changes in hydrogen bond strength between the cysteine thiolate and the backbone amide of the highly strained Ile152 residue. These catalysis-activated motions permit water entry into the ICH active site for intermediate hydrolysis. Mutations at a Gly residue (Gly150) that modulate helical mobility reduce ICH catalytic turnover and alter its pre-steady-state kinetic behavior, establishing that helical mobility is important for ICH catalytic efficiency. These results demonstrate that MISC can capture otherwise elusive aspects of enzyme mechanism and dynamics in microcrystalline samples, resolving long-standing questions about the connection between nonequilibrium protein motions and enzyme catalysis.

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Chemical crystallography by serial femtosecond X-ray diffraction

Schriber

Paley

Bolotovsky

et al. 2022

Nature

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Inorganic–organic hybrid materials represent a large share of newly reported structures, owing to their simple synthetic routes and customizable properties1. This proliferation has led to a characterization bottleneck: many hybrid materials are obligate microcrystals with low symmetry and severe radiation sensitivity, interfering with the standard techniques of single-crystal X-ray diffraction2,3 and electron microdiffraction4–11. Here we demonstrate small-molecule serial femtosecond X-ray crystallography (smSFX) for the determination of material crystal structures from microcrystals. We subjected microcrystalline suspensions to X-ray free-electron laser radiation12,13 and obtained thousands of randomly oriented diffraction patterns. We determined unit cells by aggregating spot-finding results into high-resolution powder diffractograms. After indexing the sparse serial patterns by a graph theory approach14, the resulting datasets can be solved and refined using standard tools for single-crystal diffraction data15–17. We describe the ab initio structure solutions of mithrene (AgSePh)18–20, thiorene (AgSPh) and tethrene (AgTePh), of which the latter two were previously unknown structures. In thiorene, we identify a geometric change in the silver–silver bonding network that is linked to its divergent optoelectronic properties20. We demonstrate that smSFX can be applied as a general technique for structure determination of beam-sensitive microcrystalline materials at near-ambient temperature and pressure.

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Brandon Hayes

Concentric-flow electrokinetic injector enables serial crystallography of ribosome and photosystem II

Mix-and-inject XFEL crystallography reveals gated conformational dynamics during enzyme catalysis

Chemical crystallography by serial femtosecond X-ray diffraction

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