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A fundamental challenge in calcium imaging is to minimize the excitation laser power while still maintaining a sufficient signal-to-noise ratio to distinguish individual transients in the fluorescence traces. It is… Click to show full abstract
A fundamental challenge in calcium imaging is to minimize the excitation laser power while still maintaining a sufficient signal-to-noise ratio to distinguish individual transients in the fluorescence traces. It is important to characterize relative fluorescence (i.e., ΔF/F) dependence on the excitation wavelength in vivo where the environment cannot be controlled effectively during imaging. Leveraging time division multiplexing of two excitation beams to achieve nearly simultaneous 2-photon and 3-photon imaging of the calcium transients, we measured systematically the ΔF/F dependence on the excitation wavelength in 2-photon and 3-photon in vivo imaging of neuronal activity in mouse brain labeled with GCaMP6s. The technique can be applied to in vivo measurements of other fluorescence sensors.
Journal Title: Biomedical optics express
Year Published: 2019
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