A Gradient 13C NOESY-HSQC Experiment for Recording NOESY Spectra of 13C-Labeled Proteins Dissolved in H2O

The determination of protein structures using NMR achieved using the WATERGATE technique ( 17) . Water saturation is minimized by keeping some of the water spectroscopy relies heavily on the evaluation of interpromagnetization along the z axis during acquisition with the ton distances that are deriv

We present three experiments which serve to identify carbon and proton sidechain resonances in 13 C-labeled proteins. The first is an improvement on the previously published H(C)CH-COSY experiment and comprises the application of gradients for coherence selection and a reduction in the phase cycle.

We thank Alex Singer for preparing the PLC \(_{\gamma 1}\) SH2 \(_{2}\) sample used in this study and Steve Shoelson. Harvard University, for the generous gift of the pY 1021 phosphopeptide. This work was supported through grants from the Natural Sciences and Engineering Research Council of Canada (

A triple-resonance pulse sequence is presented for the quantitative measurement of 1 H ␣ -13 C ␣ single-bond couplings in 15 N, 13 C uniformly labeled proteins. This 1 J CH -modulated (HACACO)NH experiment yields 1 H N -15 N-correlated 2D spectra in which the amplitude of each peak is modulated by t