Nitrous Oxide Vibrational Energy Relaxation Is a Probe of Interfacial Water in Lipid Bilayers

Citations Over TimeTop 22% of 2008 papers

Abstract

Ultrafast infrared spectroscopy of N 2O is shown to be a sensitive probe of hydrophobic and aqueous sites in lipid bilayers. Distinct rates of VER of the nu 3 antisymmetric stretching mode of N 2O can be distinguished for N 2O solvated in the acyl tail, interfacial water, and bulk water regions of hydrated dioleoylphosphatidylcholine (DOPC) bilayers. The lifetime of the interfacial N 2O population is hydration-dependent. This effect is attributed to changes in the density of intermolecular states resonant with the nu 3 band ( approximately 2230 cm (-1)) resulting from oriented interfacial water molecules near the lipid phosphate. Thus, the N 2O VER rate becomes a novel and experimentally convenient tool for reporting on the structure and dynamics of interfacial water in lipids and, potentially, in other biological systems.

Related Papers

• → Interaction of an Antimicrobial Peptide with a Model Lipid Bilayer Using Molecular Dynamics Simulation(2009)28 cited
• → Effect of the structural difference between Bax-α5 and Bcl-xL-α5 on their interactions with lipid bilayers(2013)6 cited
• To Study the Height and Topography of Lipid Bilayer by AFM(2007)
• → Shippable And Indefinitely Storable Lipid Bilayer Precursor(2009)
• → The Role of Bilayer Edges in Supported Lipid Bilayer Formation at Low Lipid Concentrations(2009)