Measuring Protein Insertion Areas in Lipid Monolayers by Fluorescence Correlation Spectroscopy

Abstract: The insertion of protein domains into membranes is an important step in many membrane remodeling processes, for example in vesicular transport. The membrane area taken up by the protein insertion influences the protein binding affinity as well as the mechanical stress induced in the membrane and thereby its curvature. Total area changes in lipid monolayers can be measured on a Langmuir film balance. Finding the area per inserted protein however proves challenging for two reasons: The number of inserted protein… Show more

“…Compared to lsFCS, this approach is more suitable for obtaining the required physical parameters for flat lipid systems (e.g. monolayers or bilayers) parallel to the focal plane 50,65 .…”

“…1 µm below the monolayer to allow the focal plane to move in the opposite z-direction and the measurement time was kept short (ca. 4 seconds) to get a quasi-constant and maximized signal 65 . Each data set was analysed in MATLAB using custom-written code 66 .…”

“…seconds) to get a quasi-constant and maximized signal 65 . Each data set was analysed in MATLAB using custom-written code 66 .…”

A comparison of lipid diffusive dynamics in monolayers and bilayers in the context of interleaflet coupling

“…Compared to lsFCS, this approach is more suitable for obtaining the required physical parameters for flat lipid systems (e.g. monolayers or bilayers) parallel to the focal plane 50,65 .…”

“…1 µm below the monolayer to allow the focal plane to move in the opposite z-direction and the measurement time was kept short (ca. 4 seconds) to get a quasi-constant and maximized signal 65 . Each data set was analysed in MATLAB using custom-written code 66 .…”

“…seconds) to get a quasi-constant and maximized signal 65 . Each data set was analysed in MATLAB using custom-written code 66 .…”

A comparison of lipid diffusive dynamics in monolayers and bilayers in the context of interleaflet coupling