We have studied the dynamics of certain key processes near the plasma membrane inside two types of chemically-triggerable living cells using total internal reflection fluorescence microscopy (TIRFM). In TIRFM, a laser beam is incident upon the cell/glass-substrate interface from the glass side at an angle greater than the critical angle for total internal reflection. This creates an exponentially decaying evanescent field in the cell medium (with a characteristic depth of > 100 nm) capable of exciting fluorescence selectively from the membrane-proximal regions at cell/substrate contacts. Various ways of setting up the optics for such a system are discussed, involving the use of either prisms or very high aperture objectives.

In one application of TIRFM, the motion of adrenalin-containing secretory granules in the immediate submembrane region of chromaffin cells is examined before and after chemical stimulation that causes the granules to release their contents to the cell exterior.