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Experimental Evidence of the Existence of Interleaflet Coupled Nanodomains: An MC-FRET Study

2019; American Chemical Society; Volume: 10; Issue: 9 Linguagem: Inglês

10.1021/acs.jpclett.9b00390

1948-7185

Ivo S. Vinklárek, Lukáš Veľas, Petra Riegerová, Kristián Skála, Ilya Mikhalyov, N. M. Gretskaya, Martin Hof, Radek Šachl,

Advanced biosensing and bioanalysis techniques

Plasma membranes of living cells are compartmentalized into small submicroscopic structures (nanodomains) having potentially relevant biological functions. Despite this, structural features of these nanodomains remain elusive, primarily due to the difficulties in characterizing such small dynamic entities. It is unclear whether nanodomains found in the upper bilayer leaflet are transversally registered with those found in the lower leaflet. Experiments performed on larger microscopic domains indicate that the coupling between the leaflets is strong, forcing the domains to be in perfect registration, but can the same thing be said about the biologically more relevant nanodomains? This work provides experimental evidence that even small nanodomains of variable sizes between 10 and 160 nm are interleaflet coupled. Importantly, the alternative scenarios of partially registered, independent, or antiregistered nanodomains could be excluded.