[NMR paper] SRLS Analysis of 15N-1H NMR Relaxation from the Protein S100A1: Dynamic Structure, Calcium Binding, and Related Changes in Conformational Entropy.
Related ArticlesSRLS Analysis of 15N-1H NMR Relaxation from the Protein S100A1: Dynamic Structure, Calcium Binding, and Related Changes in Conformational Entropy.
J Phys Chem B. 2021 Jan 15;:
Authors: Mendelman N, Meirovitch E
Abstract
We report on amide (N-H) NMR relaxation from the protein S100A1 analyzed with the slowly relaxing local structure (SRLS) approach. S100A1 comprises two calcium-binding "EF-hands" (helix-loop-helix motifs) connected by a linker. The dynamic structure of this protein, in both calcium-free and calcium-bound form, is described as the restricted local N-H motion coupled to isotropic protein tumbling. The restrictions are given by a rhombic potential, u (~10 kT), the local motion by a diffusion tensor with rate constant D2 (~109 s-1), and principal axis tilted from the N-H bond at angle ? (10-20°). This parameter combination provides a physically insightful picture of the dynamic structure of S100A1 from the N-H bond perspective. Calcium binding primarily affects the C-terminal EF-hand, among others slowing down the motion of helices III and IV approximately 10-fold. Overall, it brings about significant changes in the shape of the local potential, u, and the orientation of the local diffusion axis, ?. Conformational entropy derived from u makes an unfavorable entropic contribution to the free energy of calcium binding estimated at 8.6 ± 0.5 kJ/mol. The N-terminal EF-hand undergoes moderate changes. These findings provide new insights into the calcium-binding process. The same data were analyzed previously with the extended model-free (EMF) method, which is a simple limit of SRLS. In that interpretation, the protein tumbles anisotropically. Locally, calcium binding increases ordering in the loops of S100A1 and conformational exchange (Rex) in the helices of its N-terminal EF-hand. These are very unusual features. We show that they most likely stem from problematic data-fitting, oversimplifications inherent in EMF, and experimental imperfections. Rex is shown to be mainly a fit parameter. By reanalyzing the experimental data with SRLS, which is largely free of these deficiencies, we obtain-as delineated above-physically-relevant structural, kinetic, geometric, and binding information.
PMID: 33449683 [PubMed - as supplied by publisher]
[NMR paper] Conformational entropy of FK506 binding to FKBP12 determined by NMR relaxation and molecular dynamics simulations.
Conformational entropy of FK506 binding to FKBP12 determined by NMR relaxation and molecular dynamics simulations.
Conformational entropy of FK506 binding to FKBP12 determined by NMR relaxation and molecular dynamics simulations.
Biochemistry. 2018 Feb 07;:
Authors: Solomentsev G, Diehl C, Akke M
Abstract
FKBP12 (FK506 binding protein 12 kDa) is an important drug target that attracts a great deal of interest as a model system for computational drug design and studies on the role of protein dynamics in ligand binding. NMR...
nmrlearner
Journal club
0
02-08-2018 04:32 PM
The Activation of Protein Kinase A by the Calcium-BindingProtein S100A1 Is Independent of Cyclic AMP
The Activation of Protein Kinase A by the Calcium-BindingProtein S100A1 Is Independent of Cyclic AMP
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/bichaw/0/bichaw.ahead-of-print/acs.biochem.7b00117/20170417/images/medium/bi-2017-001172_0007.gif
Biochemistry
DOI: 10.1021/acs.biochem.7b00117
http://feeds.feedburner.com/~ff/acs/bichaw?d=yIl2AUoC8zA
http://feeds.feedburner.com/~r/acs/bichaw/~4/3wJ-HfOOR0I
More...
nmrlearner
Journal club
0
04-18-2017 08:50 PM
[NMR paper] (15)N-H-Related Conformational Entropy Changes Entailed By Plexin-B1 RBD Dimerization: A Combined Molecular Dynamics/NMR Relaxation Approach.
(15)N-H-Related Conformational Entropy Changes Entailed By Plexin-B1 RBD Dimerization: A Combined Molecular Dynamics/NMR Relaxation Approach.
Related Articles (15)N-H-Related Conformational Entropy Changes Entailed By Plexin-B1 RBD Dimerization: A Combined Molecular Dynamics/NMR Relaxation Approach.
J Phys Chem B. 2017 Mar 10;:
Authors: Zerbetto M, Meirovitch E
Abstract
We report on a new method for determining function-related conformational entropy changes in proteins. Plexin-B1 RBD dimerization serves as example, and...
nmrlearner
Journal club
0
03-11-2017 05:12 PM
[NMR paper] Conformational Entropy from NMR Relaxation in Proteins: the SRLS Perspective.
Conformational Entropy from NMR Relaxation in Proteins: the SRLS Perspective.
Related Articles Conformational Entropy from NMR Relaxation in Proteins: the SRLS Perspective.
J Phys Chem B. 2017 Jan 06;:
Authors: Tchaicheeyan O, Meirovitch E
Abstract
Conformational entropy changes associated with bond-vector motions in proteins contribute to the free energy of ligand binding. To derive such contributions we apply the slowly relaxing local structure (SRLS) approach to NMR relaxation from (15)N-H bonds or C-CDH2 moieties of several...
nmrlearner
Journal club
0
01-07-2017 01:27 PM
[NMR paper] Microscopic insights into the NMR relaxation based protein conformational entropy meter.
Microscopic insights into the NMR relaxation based protein conformational entropy meter.
Microscopic insights into the NMR relaxation based protein conformational entropy meter.
J Am Chem Soc. 2013 Sep 6;
Authors: Kasinath V, Sharp KA, Wand AJ
Abstract
Conformational entropy is a potentially important thermodynamic parameter contributing to protein function. Quantitative measures of conformational entropy are necessary for an understanding of its role but have been difficult to obtain. An empirical method that utilizes changes in...
nmrlearner
Journal club
0
09-07-2013 09:54 PM
[NMR paper] Impact of calcium binding and thionylation of S100A1 protein on its NMR derived structure and backbone dynamics.
Impact of calcium binding and thionylation of S100A1 protein on its NMR derived structure and backbone dynamics.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--pubs.acs.org-images-pubmed-acspubs.jpg Related Articles Impact of calcium binding and thionylation of S100A1 protein on its NMR derived structure and backbone dynamics.
Biochemistry. 2013 Jan 25;
Authors: Nowakowski ME, Ruszczynska-Bartnik K, Budzinska M, Jaremko L, Jaremko M, Zdanowski K, Bierzynski AJ, Ejchart A
Abstract
S100 proteins play a crucial role in multiple...
nmrlearner
Journal club
0
02-03-2013 10:19 AM
[NMR paper] Three-dimensional solution structure of the calcium-signaling protein apo-S100A1 as d
Three-dimensional solution structure of the calcium-signaling protein apo-S100A1 as determined by NMR.
Related Articles Three-dimensional solution structure of the calcium-signaling protein apo-S100A1 as determined by NMR.
Biochemistry. 2002 Jan 22;41(3):788-96
Authors: Rustandi RR, Baldisseri DM, Inman KG, Nizner P, Hamilton SM, Landar A, Landar A, Zimmer DB, Weber DJ
S100A1, a member of the S100 protein family, is an EF-hand containing Ca(2+)-binding protein (93 residues per subunit) with noncovalent interactions at its dimer interface. Each...
nmrlearner
Journal club
0
11-24-2010 08:49 PM
[NMR paper] NMR relaxation studies of the role of conformational entropy in protein stability and
NMR relaxation studies of the role of conformational entropy in protein stability and ligand binding.
Related Articles NMR relaxation studies of the role of conformational entropy in protein stability and ligand binding.
Acc Chem Res. 2001 May;34(5):379-88
Authors: Stone MJ
Recent advances in the measurement and analysis of protein NMR relaxation data have made it possible to characterize the dynamical properties of many backbone and side chain groups. With certain caveats, changes in flexibility that occur upon ligand binding, mutation, or...
SRLS Analysis of 15N-1H NMR Relaxation from the Protein S100A1: Dynamic Structure, Calcium Binding, and Related Changes in Conformational Entropy.
Linear Mode
