The Innovation (Jan 2022)

Experimental mapping of short-wavelength phonons in proteins

  • Utsab R. Shrestha,
  • Eugene Mamontov,
  • Hugh M. O'Neill,
  • Qiu Zhang,
  • Alexander I. Kolesnikov,
  • Xiangqiang Chu

Journal volume & issue
Vol. 3, no. 1
p. 100199

Abstract

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Phonons are quasi-particles, observed as lattice vibrations in periodic materials, that often dampen in the presence of structural perturbations. Nevertheless, phonon-like collective excitations exist in highly complex systems, such as proteins, although the origin of such collective motions has remained elusive. Here we present a picture of temperature and hydration dependence of collective excitations in green fluorescent protein (GFP) obtained by inelastic neutron scattering. Our results provide evidence that such excitations can be used as a measure of flexibility/softness and are possibly associated with the protein’s activity. Moreover, we show that the hydration water in GFP interferes with the phonon propagation pathway, enhancing the structural rigidity and stability of GFP.

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