Anomalous and anisotropic nanoscale diffusion of hydration water molecules in fluid lipid membranes
(2015) In Soft Matter 11(42). p.8354-8371- Abstract
We have studied nanoscale diffusion of membrane hydration water in fluid-phase lipid bilayers made of 1,2-dimyristoyl-3-phosphocholine (DMPC) using incoherent quasi-elastic neutron scattering. Dynamics were fit directly in the energy domain using the Fourier transform of a stretched exponential. By using large, 2-dimensional detectors, lateral motions of water molecules and motions perpendicular to the membranes could be studied simultaneously, resulting in 2-dimensional maps of relaxation time, τ, and stretching exponent, β. We present experimental evidence for anomalous (sub-diffusive) and anisotropic diffusion of membrane hydration water molecules over nanometer distances. By combining molecular dynamics and Brownian dynamics... (More)
We have studied nanoscale diffusion of membrane hydration water in fluid-phase lipid bilayers made of 1,2-dimyristoyl-3-phosphocholine (DMPC) using incoherent quasi-elastic neutron scattering. Dynamics were fit directly in the energy domain using the Fourier transform of a stretched exponential. By using large, 2-dimensional detectors, lateral motions of water molecules and motions perpendicular to the membranes could be studied simultaneously, resulting in 2-dimensional maps of relaxation time, τ, and stretching exponent, β. We present experimental evidence for anomalous (sub-diffusive) and anisotropic diffusion of membrane hydration water molecules over nanometer distances. By combining molecular dynamics and Brownian dynamics simulations, the potential microscopic origins for the anomaly and anisotropy of hydration water were investigated. Bulk water was found to show intrinsic sub-diffusive motion at time scales of several picoseconds, likely related to caging effects. In membrane hydration water, however, the anisotropy of confinement and local dynamical environments leads to an anisotropy of relaxation times and stretched exponents, indicative of anomalous dynamics.
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- author
- Toppozini, Laura ; Roosen-Runge, Felix LU ; Bewley, Robert I. ; Dalgliesh, Robert M. ; Perring, Toby ; Seydel, Tilo ; Glyde, Henry R. ; García Sakai, Victoria and Rheinstädter, Maikel C.
- publishing date
- 2015-08-19
- type
- Contribution to journal
- publication status
- published
- in
- Soft Matter
- volume
- 11
- issue
- 42
- pages
- 18 pages
- publisher
- Royal Society of Chemistry
- external identifiers
-
- scopus:84945416157
- pmid:26338138
- ISSN
- 1744-683X
- DOI
- 10.1039/c5sm01713k
- language
- English
- LU publication?
- no
- id
- 7cc3fea2-5c92-43d1-aa02-1c524adb3387
- date added to LUP
- 2018-12-17 09:43:58
- date last changed
- 2024-03-18 21:22:25
@article{7cc3fea2-5c92-43d1-aa02-1c524adb3387, abstract = {{<p>We have studied nanoscale diffusion of membrane hydration water in fluid-phase lipid bilayers made of 1,2-dimyristoyl-3-phosphocholine (DMPC) using incoherent quasi-elastic neutron scattering. Dynamics were fit directly in the energy domain using the Fourier transform of a stretched exponential. By using large, 2-dimensional detectors, lateral motions of water molecules and motions perpendicular to the membranes could be studied simultaneously, resulting in 2-dimensional maps of relaxation time, τ, and stretching exponent, β. We present experimental evidence for anomalous (sub-diffusive) and anisotropic diffusion of membrane hydration water molecules over nanometer distances. By combining molecular dynamics and Brownian dynamics simulations, the potential microscopic origins for the anomaly and anisotropy of hydration water were investigated. Bulk water was found to show intrinsic sub-diffusive motion at time scales of several picoseconds, likely related to caging effects. In membrane hydration water, however, the anisotropy of confinement and local dynamical environments leads to an anisotropy of relaxation times and stretched exponents, indicative of anomalous dynamics.</p>}}, author = {{Toppozini, Laura and Roosen-Runge, Felix and Bewley, Robert I. and Dalgliesh, Robert M. and Perring, Toby and Seydel, Tilo and Glyde, Henry R. and García Sakai, Victoria and Rheinstädter, Maikel C.}}, issn = {{1744-683X}}, language = {{eng}}, month = {{08}}, number = {{42}}, pages = {{8354--8371}}, publisher = {{Royal Society of Chemistry}}, series = {{Soft Matter}}, title = {{Anomalous and anisotropic nanoscale diffusion of hydration water molecules in fluid lipid membranes}}, url = {{http://dx.doi.org/10.1039/c5sm01713k}}, doi = {{10.1039/c5sm01713k}}, volume = {{11}}, year = {{2015}}, }