A rapid wavelength changer based on liquid crystal shutters for use in ratiometric microspectrophotometry.

Many of the fluorescent indicator molecules most useful for measuring intracellular concentrations of ions of biological importance, such as Ca2+ or H+, require illumination first at one wavelength, at which the fluorescence depends strongly on the concentration of the ion, and then at another wavelength (e.g. the isosbestic point), so that a ratio can be obtained. Existing wavelength changers are mechanical and involve moving filters, mirrors or gratings. These systems have the disadvantage that they introduce mechanical shocks that can interfere with simultaneous electrophysiological recording. In addition, they require special electrical driving systems and are relatively expensive, especially if they are capable of switching rapidly. We describe a new wavelength changer based on liquid crystal shutters which has the following advantages: (1) it has no mechanical moving parts; (2) it can switch rapidly (@1 ms) and in any desired pattern (off - on1 - off - on2 - off, etc.); (3) it is driven by a low-power 15-V pulse; and (4) it is substantially cheaper than existing wavelength changers. Its limitations are that it does not pass wavelengths shorter than about 400 nm and transmission in the range 430-700 nm is only 20-40%.