Schematic of sensor function and in vitro characterization. A, mechanism for the sensor response to Zn2+. In the absence of Zn2+, the sensing domain is unstructured, whereas in the presence of Zn2+, it becomes structured leading to a change in the distance and orientation between CFP and YFP. B, emission spectrum of the His4 sensor as a function of Zn2+ upon excitation of CFP at 420 nm. The arrows indicate the decrease in CFP fluorescence intensity and an increase in YFP fluorescence intensity with increasing Zn2+ concentrations. The Zn2+ concentrations were as follows: 0 μm (long dash), 70 μm (short dash), 180 μm (medium dash), solid line (1000 μm). C and D, Zn2+ binding curves for the Cys2His2 (●), His4 (■), and Ala4 (♦) sensors. The FRET ratio change (R − Rmin) is plotted as a function of Zn2+ for each sensor. The lines represent fits to a single site binding equation and yield the following dissociation constants: K′d = 1.7 ± 0.2 μm (●) and 160 ± 4 μm (■). The FRET ratio (R) was calculated as Em529/Em475 upon 420-nm excitation.