A simple and accurate method is described for measurement of (1)J(C'N) spli
ttings in isotopically enriched proteins. The method is of the quantitative
J correlation type, and the (1)J(C'N) splitting is derived from the relati
ve intensity in two 3D TROSY-HNCO spectra with (1)J(C'N) dephasing interval
s of similar to1/(2(1)J(C'N)) (reference intensity) and similar to1/(1)J(C'
N) (residual intensity). If the two spectra are recorded under identical co
nditions and with the same number of scans, the random error in the (1)J(C'
N) value extracted in this manner is inversely related to the signal-to-noi
se (S/N) in the reference spectrum. A S/N of 30:1 in the reference spectrum
yields random errors of less than 0.2 Hz in the extracted (1)J(C'N) value.
Dipolar couplings obtained from the difference in (1)J(C'N) splitting in t
he isotropic and liquid crystalline phase for the C-terminal domain of calm
odulin are in excellent agreement with its 1.68-Angstrom crystal structure,
but agree considerably less with the 2.2-Angstrom structure.