Tek Narsingh Malla scite author profile

Here, we illustrate what happens inside the catalytic cleft of an enzyme when substrate or ligand binds on single-millisecond timescales. The initial phase of the enzymatic cycle is observed with near-atomic resolution using the most advanced X-ray source currently available: the European XFEL (EuXFEL). The high repetition rate of the EuXFEL combined with our mix-and-inject technology enables the initial phase of ceftriaxone binding to the Mycobacterium tuberculosis β-lactamase to be followed using time-resolved crystallography in real time. It is shown how a diffusion coefficient in enzyme crystals can be derived directly from the X-ray data, enabling the determination of ligand and enzyme–ligand concentrations at any position in the crystal volume as a function of time. In addition, the structure of the irreversible inhibitor sulbactam bound to the enzyme at a 66 ms time delay after mixing is described. This demonstrates that the EuXFEL can be used as an important tool for biomedically relevant research.

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High-resolution crystal structures of transient intermediates in the phytochrome photocycle

Carrillo

Pandey

Sanchez

et al. 2021

Structure

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Pump-Probe Time-Resolved Serial Femtosecond Crystallography at X-Ray Free Electron Lasers

2020

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With time-resolved crystallography (TRX), it is possible to follow the reaction dynamics in biological macromolecules by investigating the structure of transient states along the reaction coordinate. X-ray free electron lasers (XFELs) have enabled TRX experiments on previously uncharted femtosecond timescales. Here, we review the recent developments, opportunities, and challenges of pump-probe TRX at XFELs.

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Transient state measurements on proteins by time-resolved crystallography

Malla

Schmidt

2022

Current Opinion in Structural Biology

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High-resolution Crystal Structures of Transient Intermediates in the Phytochrome Photocycle

Carrillo

Pandey

Sanchez

et al. 2020

Preprint

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Phytochromes are red/far-red light photoreceptors in bacteria to plants, which elicit a variety of important physiological responses. They display a reversible photocycle between the resting (dark) Pr state and the light activated Pfr state, in which light signals are received and transduced as structural change through the entire protein to modulate the activity of the protein. It is unknown how the Pr-to-Pfr interconversion occurs as the structure of intermediates remain notoriously elusive. Here, we present short-lived crystal structures of the classical phytochrome from myxobacterium Stigmatella aurantiaca captured by an X-ray Free Electron Laser 5 ns and 33ms after light illumination of the Pr state. We observe large structural displacements of the covalently bound bilin chromophore, which trigger a bifurcated signaling pathway. The snapshots show with atomic precision how the signal progresses from the chromophore towards the output domains, explaining how plants, bacteria and fungi sense red light.

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