Structure and diffusive dynamics of aspartate α-decarboxylase (ADC) liganded with d-serine in aqueous solution
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2022-08Author
Raskar, T.Niebling, S.
Devos, J.M.
Yorke, Briony A.
Hartlein, M.
Huse, N.
Forsyth, V.T.
Seydel, T.
Pearson, A.R.
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This article is licensed under a Creative Commons Attribution 3.0 Unported Licence.Peer-Reviewed
YesOpen Access status
openAccessAccepted for publication
2022-08-08
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Incoherent neutron spectroscopy, in combination with dynamic light scattering, was used to investigate the effect of ligand binding on the center-of-mass self-diffusion and internal diffusive dynamics of Escherichia coli aspartate α-decarboxylase (ADC). The X-ray crystal structure of ADC in complex with the D-serine inhibitor was also determined, and molecular dynamics simulations were used to further probe the structural rearrangements that occur as a result of ligand binding. These experiments reveal that D-serine forms hydrogen bonds with some of the active site residues, that higher order oligomers of the ADC tetramer exist on ns–ms time-scales, and also show that ligand binding both affects the ADC internal diffusive dynamics and appears to further increase the size of the higher order oligomers.Version
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Raskar T, Niebling S, Devos JM et al (2022) Structure and diffusive dynamics of aspartate α-decarboxylase (ADC) liganded with d-serine in aqueous solution. Physical Chemistry Chemical Physics. 34(24): 20336-20347.Link to Version of Record
https://doi.org/10.1039/D2CP02063GType
Articleae974a485f413a2113503eed53cd6c53
https://doi.org/10.1039/D2CP02063G