Vikram Bhatia scite author profile

Lipids and several specialized proteins are thought to be able to sense the curvature of membranes (MC). Here we used quantitative fluorescence microscopy to measure curvature-selective binding of amphipathic motifs on single liposomes 50-700 nm in diameter. Our results revealed that sensing is predominantly mediated by a higher density of binding sites on curved membranes instead of higher affinity. We proposed a model based on curvature-induced defects in lipid packing that related these findings to lipid sorting and accurately predicted the existence of a new ubiquitous class of curvature sensors: membrane-anchored proteins. The fact that unrelated structural motifs such as alpha-helices and alkyl chains sense MC led us to propose that MC sensing is a generic property of curved membranes rather than a property of the anchoring molecules. We therefore anticipate that MC will promote the redistribution of proteins that are anchored in membranes through other types of hydrophobic moieties.

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Long-period fiber gratings as band-rejection filters

Vengsarkar

et al. 1995

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Expanding the Optical Trapping Range of Gold Nanoparticles

et al. 2005

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We demonstrate stable three-dimensional (3D) single-beam optical trapping of gold nanoparticles with diameters between 18 and 254 nm. Three-dimensional power spectral analysis reveals that, for nanoparticles with diameters less than 100 nm, the trap stiffness is proportional to the volume of the particle. For larger particles, the trap stiffness still increases with size, however, less steeply. Finally, we provide numbers for the largest forces exertable on gold nanoparticles.

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Optical fiber long-period grating sensors

Bhatia

Vengsarkar²

1996

Opt. Lett.

1,086

382

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Long-period fiber gratings as band-rejection filters

Vengsarkar

Lemaire

Judkins

et al. 1996

J. Lightwave Technol.

1,744

357

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Vikram Bhatia

How curved membranes recruit amphipathic helices and protein anchoring motifs

Long-period fiber gratings as band-rejection filters

Expanding the Optical Trapping Range of Gold Nanoparticles

Optical fiber long-period grating sensors

Long-period fiber gratings as band-rejection filters

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