Add to ORKGThe temperature dependence of nuclear magnetic resonance relaxation rates was investigated for the backbone of15N/13C labeled human ubiquitin in the temperature range of 20-50 °C. The15N autorelaxation rates give evidence that the potential energy functions for15N−HN bonds are not quadratic, in agreement with results for other proteins. Cross-correlation rates arising from correlated fluctuations of two15N−HN dipole-dipole interactions involving successive residues were obtained by the method of Pelupessy et al. (P. Pelupessy, S. Ravindranathan, G. Bodenhausen: J. Biomol. NMR 25, 265-280, 2003). The results suggest the presence of slow internal motions at 50 °
Intrinsically disordered proteins and intrinsically disordered regions (IDRs) are ubiquitous in the ...
13CC(-13C0 homonuclear NOE and 13CO T ~ relaxation were measured for a 20 kDa protein using triple-r...
International audienceCross correlations between the fluctuations of dipolar (13) C(α) -(1) H(α) int...
The temp. dependence of NMR relaxation rates was investigated for the backbone of 15N/13C labeled hu...
[[abstract]]The NMR spin-lattice relaxation rate (R-1) and the rotating-frame spin-lattice relaxatio...
AbstractThe temperature dependence of the internal dynamics of recombinant human ubiquitin has been ...
Understanding and describing the dynamics of proteins is one of the major challenges in biology. Her...
International audienceTransverse relaxation rate measurements in MAS solid-state NMR provide informa...
13 C α - 13 CO homonuclear NOE and 13 CO T 1 relaxation were measured for a 20 kDa protein using tri...
AbstractThe villin headpiece subdomain (HP36) is a widely used system for protein-folding studies. N...
Typically, protein dynamics involve a complex hierarchy of motions occurring on different time scale...
A comprehensive analysis of the dynamics of the SH3 domain of chicken alpha-spectrin is presented, b...
Since many biological processes occur on the μs to ms time scale, internal dynamics on that time sca...
The dominant dynamics of a partially folded A-state analogue of ubiquitin that give rise to NMR 15N ...
International audienceThe dynamic modes and time scales sampled by intrinsically disordered proteins...
Intrinsically disordered proteins and intrinsically disordered regions (IDRs) are ubiquitous in the ...
13CC(-13C0 homonuclear NOE and 13CO T ~ relaxation were measured for a 20 kDa protein using triple-r...
International audienceCross correlations between the fluctuations of dipolar (13) C(α) -(1) H(α) int...
The temp. dependence of NMR relaxation rates was investigated for the backbone of 15N/13C labeled hu...
[[abstract]]The NMR spin-lattice relaxation rate (R-1) and the rotating-frame spin-lattice relaxatio...
AbstractThe temperature dependence of the internal dynamics of recombinant human ubiquitin has been ...
Understanding and describing the dynamics of proteins is one of the major challenges in biology. Her...
International audienceTransverse relaxation rate measurements in MAS solid-state NMR provide informa...
13 C α - 13 CO homonuclear NOE and 13 CO T 1 relaxation were measured for a 20 kDa protein using tri...
AbstractThe villin headpiece subdomain (HP36) is a widely used system for protein-folding studies. N...
Typically, protein dynamics involve a complex hierarchy of motions occurring on different time scale...
A comprehensive analysis of the dynamics of the SH3 domain of chicken alpha-spectrin is presented, b...
Since many biological processes occur on the μs to ms time scale, internal dynamics on that time sca...
The dominant dynamics of a partially folded A-state analogue of ubiquitin that give rise to NMR 15N ...
International audienceThe dynamic modes and time scales sampled by intrinsically disordered proteins...
Intrinsically disordered proteins and intrinsically disordered regions (IDRs) are ubiquitous in the ...
13CC(-13C0 homonuclear NOE and 13CO T ~ relaxation were measured for a 20 kDa protein using triple-r...
International audienceCross correlations between the fluctuations of dipolar (13) C(α) -(1) H(α) int...