Re-evaluation of protein neutron crystallography with and without X-ray/neutron joint refinement

Re-evaluation of protein neutron crystallography with and without X-ray/neutron joint refinement

Protein neutron crystallography is a powerful technique to determine the positions of H atoms, providing crucial biochemical information such as the protonation states of catalytic groups and the geometry of hydrogen bonds. Recently, the crystal structure of a bacterial copper amine oxidase was dete...

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Bibliographic Details
Published in:IUCrJ Vol. 9; no. Pt 3; pp. 342 - 348
Main Authors: Murakawa, Takeshi, Kurihara, Kazuo, Adachi, Motoyasu, Kusaka, Katsuhiro, Tanizawa, Katsuyuki, Okajima, Toshihide
Format: Journal Article
Language:English
Published: England International Union of Crystallography 01-05-2022
Subjects:
copper amine oxidases
Crystal structure
Crystallography
Deuterium
Electron density
Hydrogen bonds
neutron crystallography
Neutron diffraction
Neutron scattering
Neutrons
Proteins
Protonation
quinone cofactor
Research Letters
x-ray/neutron joint refinement
quinone cofactor
copper amine oxidases
X-ray/neutron joint refinement
neutron crystallography
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Summary:Protein neutron crystallography is a powerful technique to determine the positions of H atoms, providing crucial biochemical information such as the protonation states of catalytic groups and the geometry of hydrogen bonds. Recently, the crystal structure of a bacterial copper amine oxidase was determined by joint refinement using X-ray and neutron diffraction data sets at resolutions of 1.14 and 1.72 Å, respectively [Murakawa (2020 ▸). , , 10818-10824]. While joint refinement is effective for the determination of the accurate positions of heavy atoms on the basis of the electron density, the structural information on light atoms (hydrogen and deuterium) derived from the neutron diffraction data might be affected by the X-ray data. To unravel the information included in the neutron diffraction data, the structure determination was conducted again using only the neutron diffraction data at 1.72 Å resolution and the results were compared with those obtained in the previous study. Most H and D atoms were identified at essentially the same positions in both the neutron-only and the X-ray/neutron joint refinements. Nevertheless, neutron-only refinement was found to be less effective than joint refinement in providing very accurate heavy-atom coordinates that lead to significant improvement of the neutron scattering length density map, especially for the active-site cofactor. Consequently, it was confirmed that X-ray/neutron joint refinement is crucial for determination of the real chemical structure of the catalytic site of the enzyme.
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ISSN:2052-2525
2052-2525
DOI:10.1107/S2052252522003657