Calibrating evanescent-wave penetration depths for biological TIRF microscopy
Martin Oheim, Adi Salomon, Adam Weissman, Maia Brunstein, and Ute, Becherer

TL;DR
This paper reviews techniques for calibrating evanescent-wave penetration depths in TIRF microscopy, enabling more accurate quantitative analysis of near-membrane biological processes.
Contribution
It provides a comprehensive review and comparison roadmap for existing methods to characterize evanescent fields in TIRF microscopy.
Findings
Summarizes current techniques for evanescent wave calibration.
Provides a standardized approach for comparing TIRF data.
Enhances quantitative interpretation of near-membrane fluorescence imaging.
Abstract
Roughly half of a cells proteins are located at or near the plasma membrane. In this restricted space the cell senses its environment, signals to its neighbors and ex-changes cargo through exo- and endocytotic mechanisms. Ligands bind to receptors, ions flow across channel pores, and transmitters and metabolites are transported against con-centration gradients. Receptors, ion channels, pumps and transporters are the molecular substrates of these biological processes and they constitute important targets for drug discovery. Total internal reflection fluorescence microscopy suppresses background from cell deeper layers and provides contrast for selectively imaging dynamic processes near the basal membrane of live-cells. The optical sectioning of total internal reflection fluorescence is based on the excitation confinement of the evanescent wave generated at the glass-cell interface. How…
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