Related ArticlesInsights into Domain-Domain Motions in Proteins and RNA from Solution NMR.
Acc Chem Res. 2014 Aug 22;
Authors: Ravera E, Salmon L, Fragai M, Parigi G, Al-Hashimi H, Luchinat C
Abstract
Conspectus Many multidomain proteins and ribonucleic acids consist of domains that autonomously fold and that are linked together by flexible junctions. This architectural design allows domains to sample a wide range of positions with respect to one another, yet do so in a way that retains structural specificity, since the number of sampled conformations remains extremely small compared to the total conformations that would be sampled if the domains were connected by an infinitely long linker. This "tuned" flexibility in interdomain conformation is in turn used in many biochemical processes. There is great interest in characterizing the dynamic properties of multidomain systems, and moving beyond conventional descriptions in terms of static structures, toward the characterization of population-weighted ensembles describing a distribution of many conformations sampled in solution. There is also great interest in understanding the design principles and underlying physical and chemical interactions that specify the nature of interdomain flexibility. NMR spectroscopy is one of the most powerful techniques for characterizing motions in complex biomolecules and has contributed greatly toward our basic understanding of dynamics in proteins and nucleic acids and its role in folding, recognition, and signaling. Here, we review methods that have been developed in our laboratories to address these challenges. Our approaches are based on the ability of one domain of the molecule to self-align in a magnetic field, or to dominate the overall orientation of the molecule, so that the conformational freedom of other domains can be assessed by their degree of alignment induced by the aligned part. In turn, this self-alignment ability can be intrinsic or can be caused by tagging appropriate constructs to the molecule of interest. In general, self-alignment is due to magnetic susceptibility anisotropy. Nucleic acids with elongated helices have this feature, as well as several paramagnetic metal centers that can be found in, or attached to, a protein domain.
PMID: 25148413 [PubMed - as supplied by publisher]
NMR provides fresh atomic insights into a key protein that helps repair DNA - domain-B
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domain-B
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NMR provides fresh atomic insights into a key protein that helps repair DNA
domain-B
In a new study published in Nature Communications, two teams of scientists from Imperial College London and the University of Dundee have succeeded in visualising this flexible protein for the first time, using Nuclear Magnetic Resonance (NMR) ...
NMR provides fresh atomic insights into a key protein that helps repair DNA -...
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07-03-2014 06:13 PM
Solution NMR structure of Dsy0195 homodimer from Desulfitobacterium hafniense: first structure representative of the YabP domain family of proteins involved in spore coat assembly.
Solution NMR structure of Dsy0195 homodimer from Desulfitobacterium hafniense: first structure representative of the YabP domain family of proteins involved in spore coat assembly.
Solution NMR structure of Dsy0195 homodimer from Desulfitobacterium hafniense: first structure representative of the YabP domain family of proteins involved in spore coat assembly.
J Struct Funct Genomics. 2011 Sep 9;
Authors: Yang Y, Ramelot TA, Cort JR, Wang H, Ciccosanti C, Jiang M, Janjua H, Acton TB, Xiao R, Everett JK, Montelione GT, Kennedy MA
Abstract
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09-10-2011 06:51 PM
A segmental labeling strategy for unambiguous determination of domainâ??domain interactions of large multi-domain proteins
A segmental labeling strategy for unambiguous determination of domainâ??domain interactions of large multi-domain proteins
Abstract NMR structural determination of large multi-domain proteins is a challenging task due to significant spectral overlap with a particular difficulty in unambiguous identification of domainâ??domain interactions. Segmental labeling is a NMR strategy that allows for isotopically labeling one domain and leaves the other domain unlabeled. This significantly simplifies spectral overlaps and allows for quick identification of domainâ??domain interaction. Here, a...
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07-08-2011 07:01 PM
Insight into interactions of the von-Willebrand-factor-A-like domain 2 with the FNIII-like domain 9 of collagen VII by NMR and SPR.
Insight into interactions of the von-Willebrand-factor-A-like domain 2 with the FNIII-like domain 9 of collagen VII by NMR and SPR.
Insight into interactions of the von-Willebrand-factor-A-like domain 2 with the FNIII-like domain 9 of collagen VII by NMR and SPR.
FEBS Lett. 2011 May 9;
Authors: Leineweber S, Schönig S, Seeger K
Type VII collagen as component of anchoring fibrils plays an important role in skin architecture, however, no detailed structural information is available. Here, we describe the recombinant expression, isotope labeling, and...
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05-17-2011 06:21 PM
[NMR paper] Folding and domain-domain interactions of the chaperone PapD measured by 19F NMR.
Folding and domain-domain interactions of the chaperone PapD measured by 19F NMR.
Related Articles Folding and domain-domain interactions of the chaperone PapD measured by 19F NMR.
Biochemistry. 2004 Nov 2;43(43):13775-86
Authors: Bann JG, Frieden C
The folding of the two-domain bacterial chaperone PapD has been studied to develop an understanding of the relationship between individual domain folding and the formation of domain-domain interactions. PapD contains six phenylalanine residues, four in the N-terminal domain and two in the...
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11-24-2010 10:03 PM
[NMR paper] Real-time and equilibrium (19)F-NMR studies reveal the role of domain-domain interact
Real-time and equilibrium (19)F-NMR studies reveal the role of domain-domain interactions in the folding of the chaperone PapD.
Related Articles Real-time and equilibrium (19)F-NMR studies reveal the role of domain-domain interactions in the folding of the chaperone PapD.
Proc Natl Acad Sci U S A. 2002 Jan 22;99(2):709-14
Authors: Bann JG, Pinkner J, Hultgren SJ, Frieden C
PapD is a periplasmic chaperone essential for P pilus formation in pyelonephritic strains of E. coli. It is composed of two domains, each of which contains a tryptophan...
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11-24-2010 08:49 PM
[NMR paper] NMR solution structure of the isolated Apo Pin1 WW domain: comparison to the x-ray cr
NMR solution structure of the isolated Apo Pin1 WW domain: comparison to the x-ray crystal structures of Pin1.
Related Articles NMR solution structure of the isolated Apo Pin1 WW domain: comparison to the x-ray crystal structures of Pin1.
Biopolymers. 2002 Feb;63(2):111-21
Authors: Kowalski JA, Liu K, Kelly JW
The NMR solution structure of the isolated Apo Pin1 WW domain (6-39) reveals that it adopts a twisted three-stranded antiparallel beta-sheet conformation, very similar to the structure exhibited by the crystal of this domain in the...
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[NMR paper] Solution structure of GAP SH3 domain by 1H NMR and spatial arrangement of essential R
Solution structure of GAP SH3 domain by 1H NMR and spatial arrangement of essential Ras signaling-involved sequence.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--www.pubmedcentral.nih.gov-corehtml-pmc-pmcgifs-pubmed-pmc.gif Related Articles Solution structure of GAP SH3 domain by 1H NMR and spatial arrangement of essential Ras signaling-involved sequence.
EMBO J. 1994 Mar 15;13(6):1270-9
Authors: Yang YS, Garbay C, Duchesne M, Cornille F, Jullian N, Fromage N, Tocque B, Roques BP
Src homology 3 (SH3) domains are found in numerous...
Insights into Domain-Domain Motions in Proteins and RNA from Solution NMR.
Linear Mode
