Connectivity of proton and carbon spectra of the blue copper protein,plastocyanin, established by two-dimensional nuclear magnetic resonance

NMR studies of plastocyanin have centered on the ligands to the copper atom at the active site, particularly histidines-37 and -87. Heteronuclear (¹³C, ¹H) J-connectivity spectroscopy has enabled cross assignment of ¹H and ¹³C NMR resonances from the two copper-ligated histidines. In addition to providing assignments of the ¹³C resonances, the two-dimensional Fourier transform NMR results require the reversal of the original ¹H NMR assignments to the ring protons of histidine-37. The line widths of the ring protons of histidine-87 are field-dependent leading to determination of the reduced lifetime of the proton on the N_δ atom (about 400 μs).