Linda C. Johansson scite author profile

Structure determination of proteins and other macromolecules has historically required the growth of high-quality crystals sufficiently large to diffract x-rays efficiently while withstanding radiation damage. We applied serial femtosecond crystallography (SFX) using an x-ray free-electron laser (XFEL) to obtain high-resolution structural information from microcrystals (less than 1 micrometer by 1 micrometer by 3 micrometers) of the well-characterized model protein lysozyme. The agreement with synchrotron data demonstrates the immediate relevance of SFX for analyzing the structure of the large group of difficult-to-crystallize molecules.

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Natively Inhibited Trypanosoma brucei Cathepsin B Structure Determined by Using an X-ray Laser

Redecke

Nass

DePonte

et al. 2013

Science

403

389

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The Trypanosoma brucei cysteine protease cathepsin B (TbCatB), which is involved in host protein degradation, is a promising target to develop new treatments against sleeping sickness, a fatal disease caused by this protozoan parasite. The structure of the mature, active form of TbCatB has so far not provided sufficient information for the design of a safe and specific drug against T. brucei. By combining two recent innovations, in vivo crystallization and serial femtosecond crystallography, we obtained the room-temperature 2.1 angstrom resolution structure of the fully glycosylated precursor complex of TbCatB. The structure reveals the mechanism of native TbCatB inhibition and demonstrates that new biomolecular information can be obtained by the “diffraction-before-destruction” approach of x-ray free-electron lasers from hundreds of thousands of individual microcrystals.

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Virtual discovery of melatonin receptor ligands to modulate circadian rhythms

Stein

Kang

McCorvy

et al. 2020

Nature

205

210

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Structural basis of ligand recognition at the human MT1 melatonin receptor

Stauch

Johansson

McCorvy

et al. 2019

Nature

147

173

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Lipidic cubic phase serial millisecond crystallography using synchrotron radiation

Nogly¹,

James²,

Wang³

et al. 2015

Int Union Crystallogr J

197

175

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Time-resolved protein nanocrystallography using an X-ray free-electron laser

Aquila¹,

Hunter²,

Doak³

et al. 2012

Opt. Express

227

168

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We demonstrate the use of an X-ray free electron laser synchronized with an optical pump laser to obtain X-ray diffraction snapshots from the photoactivated states of large membrane protein complexes in the form of nanocrystals flowing in a liquid jet. Light-induced changes of Photosystem I-Ferredoxin co-crystals were observed at time delays of 5 to 10 μs after excitation. The result correlates with the microsecond kinetics of electron transfer from Photosystem I to ferredoxin. The undocking process that follows the electron transfer leads to large rearrangements in the crystals that will terminally lead to the disintegration of the crystals. We describe the experimental setup and obtain the first time-resolved femtosecond serial X-ray crystallography results from an irreversible photo-chemical reaction at the Linac Coherent Light Source. This technique opens the door to time-resolved structural studies of reaction dynamics in biological systems.

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Visualizing a protein quake with time-resolved X-ray scattering at a free-electron laser

et al. 2014

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A ‘protein quake’ describes the hypothesis that proteins rapidly dissipate energy through quake like structural motions. Here we measure ultrafast structural changes in the Blastochloris viridis photosynthetic reaction center following multi-photon excitation using time-resolved wide angle X-ray scattering at an X-ray free electron laser. A global conformational change arises within picoseconds, which precedes the propagation of heat through the protein. This motion is damped within a hundred picoseconds.

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XFEL structures of the human MT2 melatonin receptor reveal the basis of subtype selectivity

Johansson

Stauch

McCorvy

et al. 2019

Nature

111

130

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