STRUCTURE OF POLYMER-SUPPORTED LIPID BILAYERS DERIVED FROM NATIVE CELL-MEMBRANE VESICLES
Recently a generic method for producing polymer-supported lipid bilayers (pSLBs) directly from cell-derived native membrane vesicles (NMVs) was discovered. These pSLBs contain essentially all the naturally occurring cell-membrane components of the donor cell line or organelle while still retaining transmembrane protein mobility and activity. These surfaces offer a new paradigm in SLB-based biomimetic surfaces and bioanalytical sensor design. While fluorescence microscopy studies have indicated that there is at minimum a 5 nm hydration layer between the pSLB and the underlying substrate, the use of neutron reflectivity is expected to provide better insight into the architecture of these complex hybrid pSLBs.
Please note that you will need to login with your ILL credentials to download the data.
Download DataThe recommended format for citing this dataset in a research publication is in the following format:
Hudson P. Pace; AGNARSSON Björn; Antonius Armanious; GERELLI YURI; HOOK Fredrik H; MICCIULLA Samantha and SCHNECK Emanuel. (2016). STRUCTURE OF POLYMER-SUPPORTED LIPID BILAYERS DERIVED FROM NATIVE CELL-MEMBRANE VESICLES. Institut Laue-Langevin (ILL) doi:10.5291/ILL-DATA.9-13-650
ILL has partnered with DataCite as the registration agency
for data persistent identifiers.