Li, S.; Tamura, R.; Banzai, K.; Kamiyama, D.; Kner, P.

Superresolution microscopy enables imaging of subcellular structures and dynamics with nanoscale detail. Among the various superresolution techniques, structured illumination microscopy (SIM) stands out for its compatibility with live-cell imaging. Linear SIM is restricted to a resolution improvement of a factor of two, improving the resolution to about 100 nm. Nonlinear SIM (NSIM) utilizes reversibly switchable fluorescent proteins to generate a nonlinear response, allowing for the collection of higher spatial frequency information and theoretically extending the resolution without limit. By employing rsEGFP2 and patterned depletion illumination (PD) to generate the desired nonlinearity in the fluorescent response, we have successfully achieved 2D PD-NSIM imaging of actin in live U2OS cells with sub-80 nm resolution.