Determination of13Cαrelaxation times in uniformly13C/15N-enriched proteins

Internal motions play an important role in the biological function of proteins and NMR relaxation studies may characterize them over a wide range of frequencies. An experimental pulse scheme is proposed for the measurement of the 13C0-13C ~ cross-relaxation rate. For sensitivity reasons, this measur

The REDOR and CPMAS techniques are applied for measuring 13C-15N dipolar coupling constants in glycine. It is shown that the selective CP or SPECIFIC CP technique removes the coherent evolution of the spin system under homonuclear 13C-13C J couplings. While the large coupling constant (approximately

Sensitive three-dimensional NMR experiments, based on the E.COSY principle, are presented for the measurement of the 3J(HN, H~) and 3J(HN,C') coupling constants in uniformly 13C-and 15N-labeled proteins. They employ gradient coherence selection in combination with the sensitivity enhancement method

The precision of a protein structure determined by NMR spectroscopy is strongly influenced by the number of longrange NOE interactions per residue. Aromatic and methylcontaining residues are frequently located in the hydrophobic interior of proteins and yield long-range NOE interactions. Methyl grou