Abstract
Second Harmonic Generation (SHG) microscopy is an effective tool for studying the order of symmetry-breaking interfaces, such as lipid bilayers. Recently, we have shown that disruptions in the interfacial nature of the membrane can be studied with the addition of lipophilic SHG probes, specifically Di-4-ANEPPDHQ (Di-4). In addition to the conformational information provided by the SHG signal, this particular probe can be used to determine lipid phase and transmembrane voltage through the dye's fluorescence behavior. We now strengthen our technique by changing the polarity of the incident laser beam from linear to circular polarization. The modification provides SHG signal around the circumference of the cell in every optical slice, while maintaining a sufficient signal-to-noise ratio. Utilizing nanosecond pulsed electric fields (nsPEFs) of varying pulse widths and intensities as a tool for provoking spatially and temporally minute perturbations in the cell membrane, we observe membrane poration on the nano-scale. To verify our results, we adapted a previously-published electrical membrane model to map the theoretical angular area affected by these nsPEFs. The tests further establish the effectiveness of SHG probes, in our case Di-4, as a tool for observing subtle membrane alterations and document the extent to which electric fields of varying pulse parameters affect the cellular membrane.
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