The Detection of Nanoscale Membrane Bending with Polarized Localization Microscopy
Abir Maarouf Kabbani, Christopher V. Kelly

TL;DR
This paper introduces Polarized Localization Microscopy (PLM), a novel super-resolution imaging technique that detects nanoscale membrane curvature with high sensitivity and speed, revealing molecular dynamics related to membrane topology.
Contribution
PLM combines polarized TIRFM and single-molecule localization microscopy to detect membrane curvature faster and with higher sensitivity than existing methods, without PSF manipulation.
Findings
PLM detects nanoscale membrane curvature with >10x signal-to-noise ratio.
Curvature detection is 10x faster than 3D single-molecule localization microscopy.
Diffusion of lipophilic molecules varies with membrane topology, with higher diffusion in flat regions.
Abstract
The curvature of biological membranes at the nanometer scale is critically important for vesicle trafficking, organelle morphology, and disease propagation. This manuscript reports the development of Polarized Localization Microscopy (PLM), a pointillist optical imaging technique for the detection of nanoscale membrane curvature in correlation with single-molecule dynamics and molecular sorting. PLM combines polarized total internal reflection fluorescence microscopy (TIRFM) and single-molecule localization microscopy to reveal membrane orientation with sub-diffraction-limited resolution without reducing localization precision by point spread function (PSF) manipulation. Further, membrane curvature detection with PLM requires fewer localization events to detect curvature than 3D single-molecule localization microscopy (e.g., PALM or STORM), which enables curvature detection 10x faster…
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Taxonomy
TopicsAdvanced Fluorescence Microscopy Techniques · Advanced biosensing and bioanalysis techniques · RNA Interference and Gene Delivery
