Kálmán Hideg scite author profile

Thirty single cysteine substitution mutants of T4 lysozyme have been prepared and spin-labeled with a sulfhydryl-specific nitroxide reagent in order to systematically investigate the relationship between nitroxide side-chain mobility and protein structure. The perturbation caused by replacement of a native residue with a nitroxide amino acid was assessed from the resulting changes in biological activity, circular dichroism, and free energy of folding. The nitroxide produced context-dependent changes in stability and activity similar to those observed for substitution with natural amino acids at the same site but had little effect on the circular dichroism spectra. At solvent-exposed sites, the structural perturbation appears to be small at the level of the backbone fold. Nitroxide side-chain mobility faithfully reflects the protein tertiary fold at all sites investigated. The primary determinants of nitroxide side-chain mobility are tertiary interactions and backbone dynamics. Tertiary interactions constrain the side-chain mobility to an extent closely correlated with the degree of interaction. At interhelical loop sites, the side chains have a high mobility, consistent with high crystallographic thermal factors. On the exposed surfaces of alpha-helices, the side-chain mobility is not restricted by interactions with nearest neighbor side chains but appears to be determined by backbone dynamics. An unexpected result is a striking difference between the mobility of residues near the C- and N-termini of helices. These results provide the foundation for another dimension of information in site-directed spin-labeling experiments that can be interpreted in terms of the protein tertiary fold, its equilibrium dynamics and time-dependent conformational changes.

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Molecular Motion of Spin Labeled Side Chains in α-Helices: Analysis by Variation of Side Chain Structure

Columbus

et al. 2001

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Two single cysteine substitution mutants at helix surface sites in T4 lysozyme (D72C and V131C) have been modified with a series of nitroxide methanethiosulfonate reagents to investigate the structural and dynamical origins of their electron paramagnetic resonance spectra. The novel reagents include 4-substituted derivatives of either the pyrroline or pyrrolidine series of nitroxides. The spectral line shapes were analyzed as a function of side chain structure and temperature using a simulation method with a single order parameter and diffusion rates about three orthogonal axes as parameters. Taken together, the results provide strong support for an anisotropic motional model of the side chain, which was previously proposed from qualitative features of the spectra and crystal structures of spin labeled T4 lysozyme. Site-specific differences in apparent order parameter are interpreted in terms of backbone dynamics modes with characteristic correlation times in the nanosecond or faster time scale. The saturated 4-substituted pyrrolidine nitroxides are shown to be a suitable template for novel "functionalized" side chains designed to mimic salient features of the native side chains they replace.

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Estimation of Inter-Residue Distances in Spin Labeled Proteins at Physiological Temperatures: Experimental Strategies and Practical Limitations

et al. 2001

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Magnetic dipolar interactions between pairs of solvent-exposed nitroxide side chains separated by approximately one to four turns along an alpha-helix in T4 lysozyme are investigated. The interactions are analyzed both in frozen solution (rigid lattice conditions) and at room temperature as a function of solvent viscosity. At room temperature, a novel side chain with hindered internal motion is used, along with a more commonly employed nitroxide side chain. The results suggest that methods developed for rigid lattice conditions can be used to analyze dipolar interactions between nitroxides even in the presence of motion of the individual spins, provided the rotational correlation time of the interspin vector is sufficiently long. The distribution of distances observed for the various spin pairs is consistent with rotameric equilibria in the nitroxide side chain, as observed in crystal structures. The existence of such distance distributions places important constraints on the interpretation of internitroxide distances in terms of protein structure and structural changes.

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Kálmán Hideg

Motion of Spin-Labeled Side Chains in T4 Lysozyme. Correlation with Protein Structure and Dynamics

Molecular Motion of Spin Labeled Side Chains in α-Helices: Analysis by Variation of Side Chain Structure

Estimation of Inter-Residue Distances in Spin Labeled Proteins at Physiological Temperatures: Experimental Strategies and Practical Limitations

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