TIRF Microscopy for Superimposed Imaging

TIRF microscopy was performed as previously described (Trexler et al., 2016 (link)). Briefly, an inverted fluorescence microscope (IX-81; Olympus) with a 100×/1.45-numerical-aperture objective (Olympus) was used for TIRF imaging. Fluorescence was excited alternatively with 488-nm or 561-nm laser lines that were combined and passed through a 488/561DM filter cube (Semrock). Emission was spectrally separated using a 565DCXR dichroic mirror and projected side by side on an electron multiplying charge-coupled device electron multiplying charge-coupled devicecamera (DU 897; Andor) with a DualView image splitter (Photometrics) containing 525Q/50 and 605Q/55 filters. The green and red images were superimposed in postprocessing by acquiring an image of 100-nm yellow-green beads (Invitrogen) that were visible in both channels, mapping the position of six beads in both channels, and then superimposing the channels using projective image transform. This protocol was performed each day, and the image transform was used to superimpose cell images. Images were acquired with IQ2 software (Andor) successively in the green then red channels with an exposure time of 500 ms and a 500-ms pause between pairs of images. Pixel size was 160 nm.

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Stephens D.C., Osunsanmi N., Sochacki K.A., Powell T.W., Taraska J.W, & Harris D.A. (2019). Spatiotemporal organization and protein dynamics involved in regulated exocytosis of MMP-9 in breast cancer cells. The Journal of General Physiology, 151(12), 1386-1403.

Publication 2019

100×/1.45-numerical-aperture objective 488/561DM filter cube DU 897 yellow-green beads

Cell Device Electron Fluorescence Fluorescence microscope Microscopy

Corresponding Organization : Howard University

Other organizations : National Heart Lung and Blood Institute, National Institutes of Health

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Variable analysis

independent variables

Laser line wavelength (488 nm or 561 nm)

dependent variables

Fluorescence emission intensity

control variables

Inverted fluorescence microscope (IX-81; Olympus)
100×/1.45-numerical-aperture objective (Olympus)
488/561DM filter cube (Semrock)
565DCXR dichroic mirror
525Q/50 and 605Q/55 filters
Electron multiplying charge-coupled device camera (DU 897; Andor)
DualView image splitter (Photometrics)
Exposure time (500 ms)
Pause between image pairs (500 ms)
Pixel size (160 nm)

positive controls

100-nm yellow-green beads (Invitrogen) that were visible in both channels

negative controls

Not explicitly mentioned

Annotations

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