T. Moreno-Chicano scite author profile

Proteins performing multiple biochemical functions are called "moonlighting proteins" or extreme multifunctional (EMF) proteins. Mitochondrial cytochrome c is an EMF protein that binds multiple partner proteins to act as a signaling molecule, transfers electrons in the respiratory chain, and acts as a peroxidase in apoptosis. Mutations in the cytochrome c gene lead to the disease thrombocytopenia, which is accompanied by enhanced apoptotic activity. The Y48H variant arises from one such mutation and is found in the 40-57 Ω-loop, the lowest-unfolding free energy substructure of the cytochrome c fold. A 1.36 Å resolution X-ray structure of the Y48H variant reveals minimal structural changes compared to the wild-type structure, with the axial Met80 ligand coordinated to the heme iron. Despite this, the intrinsic peroxidase activity is enhanced, implying that a pentacoordinate heme state is more prevalent in the Y48H variant, corroborated through determination of a Met80 "off rate" of >125 s compared to a rate of ∼6 s for the wild-type protein. Heteronuclear nuclear magnetic resonance measurements with the oxidized Y48H variant reveal heightened dynamics in the 40-57 Ω-loop and the Met80-containing 71-85 Ω-loop relative to the wild-type protein, illustrating communication between these substructures. Placed into context with the G41S cytochrome c variant, also implicated in thrombocytopenia, a dynamic picture associated with this disease relative to cytochrome c is emerging whereby increasing dynamics in substructures of the cytochrome c fold serve to facilitate an increased population of the peroxidatic pentacoordinate heme state in the following order: wild type < G41S < Y48H.

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Dose-resolved serial synchrotron and XFEL structures of radiation-sensitive metalloproteins

Ebrahim

Moreno-Chicano

Appleby

et al. 2019

IUCrJ

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An approach is demonstrated to obtain, in a sample- and time-efficient manner, multiple dose-resolved crystal structures from room-temperature protein microcrystals using identical fixed-target supports at both synchrotrons and X-ray free-electron lasers (XFELs). This approach allows direct comparison of dose-resolved serial synchrotron and damage-free XFEL serial femtosecond crystallography structures of radiation-sensitive proteins. Specifically, serial synchrotron structures of a heme peroxidase enzyme reveal that X-ray induced changes occur at far lower doses than those at which diffraction quality is compromised (the Garman limit), consistent with previous studies on the reduction of heme proteins by low X-ray doses. In these structures, a functionally relevant bond length is shown to vary rapidly as a function of absorbed dose, with all room-temperature synchrotron structures exhibiting linear deformation of the active site compared with the XFEL structure. It is demonstrated that extrapolation of dose-dependent synchrotron structures to zero dose can closely approximate the damage-free XFEL structure. This approach is widely applicable to any protein where the crystal structure is altered by the synchrotron X-ray beam and provides a solution to the urgent requirement to determine intact structures of such proteins in a high-throughput and accessible manner.

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Successful sample preparation for serial crystallography experiments

et al. 2019

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Photoreduction and validation of haem–ligand intermediate states in protein crystals byin situsingle-crystal spectroscopy and diffraction

Kekilli

Moreno-Chicano

Chaplin

et al. 2017

Int Union Crystallogr J

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Powerful synergies are available from the combination of multiple methods to study proteins in the crystalline form. Spectroscopies which probe the same region of the crystal from which X-ray crystal structures are determined can give insights into redox, ligand and spin states to complement the information gained from the electron-density maps. The correct assignment of crystal structures to the correct protein redox and ligand states is essential to avoid the misinterpretation of structural data. This is a particular concern for haem proteins, which can occupy a wide range of redox states and are exquisitely sensitive to becoming reduced by solvated electrons generated from interactions of X-rays with water molecules in the crystal. Here, single-crystal spectroscopic fingerprinting has been applied to investigate the laser photoreduction of ferric haem in cytochrome c 0 . Furthermore, in situ X-ray-driven generation of haem intermediates in crystals of the dye-decolourizing-type peroxidase A (DtpA) from Streptomyces lividans is described.

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High-throughput structures of protein–ligand complexes at room temperature using serial femtosecond crystallography

Moreno-Chicano

Ebrahim

Axford

et al. 2019

IUCrJ

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The ability to rapidly obtain structures of protein–ligand complexes using X-ray crystallography is central to drug discovery, but the typical cryocooling of samples and the effects of the X-ray beam may distort the observed ligand binding. X-ray free-electron lasers (XFELs) have the promise to solve these issues, but methods to rapidly produce structures of protein–ligand complexes at XFELs have not yet been realized. Here, an efficient solution using high-throughput, fixed-target serial femtosecond crystallography at an XFEL is demonstrated.

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T. Moreno-Chicano

Heightened Dynamics of the Oxidized Y48H Variant of Human Cytochrome c Increases Its Peroxidatic Activity

Dose-resolved serial synchrotron and XFEL structures of radiation-sensitive metalloproteins

Successful sample preparation for serial crystallography experiments

Photoreduction and validation of haem–ligand intermediate states in protein crystals byin situsingle-crystal spectroscopy and diffraction

High-throughput structures of protein–ligand complexes at room temperature using serial femtosecond crystallography

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