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Default Microsecond Time Scale Mobility in a Solid Protein As Studied by the (15)N R(1rho) Si

Microsecond Time Scale Mobility in a Solid Protein As Studied by the (15)N R(1rho) Site-Specific NMR Relaxation Rates.

Related Articles Microsecond Time Scale Mobility in a Solid Protein As Studied by the (15)N R(1rho) Site-Specific NMR Relaxation Rates.

J Am Chem Soc. 2010 Aug 6;

Authors: Krushelnitsky A, Zinkevich T, Reichert D, Chevelkov V, Reif B

For the first time, we have demonstrated the site-resolved measurement of reliable (i.e., free of interfering effects) (15)N R(1rho) relaxation rates from a solid protein to extract dynamic information on the microsecond time scale. (15)N R(1rho) NMR relaxation rates were measured as a function of the residue number in a (15)N,(2)H-enriched (with 10-20% back-exchanged protons at labile sites) microcrystalline SH3 domain of chicken alpha-spectrin. The experiments were performed at different temperatures and at different spin-lock frequencies, which were realized by on- and off-resonance spin-lock irradiation. The results obtained indicate that the interfering spin-spin contribution to the R(1rho) rate in a perdeuterated protein is negligible even at low spin-lock fields, in contrast to the case for normal protonated samples. Through correlation plots, the R(1rho) rates were compared with previous data for the same protein characterizing different kinds of internal mobility.

PMID: 20690699 [PubMed - as supplied by publisher]



Source: PubMed
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