415834 Real-Time Measurements of Lipid Domain Rearrangements, Membrane Thickness, and Intermembrane Forces during the Membrane Hemifusion Using a Fluorescence Surface Forces Apparatus (FL-SFA)

Tuesday, November 10, 2015: 5:23 PM
Canyon B (Hilton Salt Lake City Center)
Dong Woog Lee1, Kai Kristiansen1, Stephen H. Donaldson Jr.1, Nicholas Cadirov2, Xavier Banquy3 and Jacob Israelachvili1, (1)Chemical Engineering, University of California, Santa Barbara, Santa Barbara, CA, (2)Chemical Engineering, University of California, Santa Barbara, Santa barbara, CA, (3)Pharmacy, University of Montreal, Montreal, QC, Canada

We developed a Fluorescence Surface Forces Apparatus (FL-SFA), which can fluorescently image the surfaces while measuring interaction forces and distance between surfaces in real-time. Using the FL-SFA, hemifusion of two supported model lipid bilayers was monitored. At the membrane-membrane contact, the localization of liquid disordered phases and depletion of liquid ordered domains are observed during lipid membrane hemifusion. Interaction forces and lipid membrane thicknesses are simultaneously measured together with the fluorescence images of model membranes. The results show that the domain rearrangements (i) decrease the energy barrier to fusion, and (2) stabilize the hemifused stalk structure, illustrating the significance of dynamic domain transformations in membrane fusion processes. Importantly, the FL-SFA can unambiguously correlate interaction forces and in situ imaging in many dynamic interfacial systems.

Extended Abstract: File Not Uploaded