Related ArticlesFolding 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 C-terminal domain. To examine the folding properties of PapD, the protein was both uniformly and site-specifically labeled with p-fluoro-phenylalanine ((19)F-Phe) for (19)F NMR studies, in conjunction with those of circular dichroism and fluorescence. In equilibrium denaturation experiments monitored by (19)F NMR, the loss of (19)F-Phe native intensity for both the N- and C-terminal domains shows the same dependence on urea concentration. For the N-terminal domain the loss of native intensity is mirrored by the appearance of separate denatured resonances. For the C-terminal domain, which contains residues Phe 168 and Phe 205, intermediate as well as denatured resonances appear. These intermediate resonances persist at denaturant concentrations well beyond the loss of native resonance intensity and appear in kinetic refolding (19)F NMR experiments. In double-jump (19)F NMR experiments in which proline isomerization does not affect the refolding kinetics, the formation of domain-domain interactions is fast if the protein is denatured for only a short time. However, with increasing time of denaturation the native intensities of the N- and C-terminal domains decrease, and the denatured resonances of the N-terminal domain and the intermediate resonances of the C-terminal domain accumulate. The rate of loss of the N-terminal domain resonances is consistent with a cis to trans isomerization process, indicating that from an equilibrium denatured state the slow refolding of PapD is due to the trans to cis isomerization of one or both of the N-terminal cis proline residues. The data indicate that both the N- and C-terminal domains must fold into a native conformation prior to the formation of domain-domain interactions.
NMR relaxation unravels interdomain crosstalk of the two domain prolyl isomerase and chaperone SlyD.
NMR relaxation unravels interdomain crosstalk of the two domain prolyl isomerase and chaperone SlyD.
NMR relaxation unravels interdomain crosstalk of the two domain prolyl isomerase and chaperone SlyD.
Biochim Biophys Acta. 2011 Jul;1814(7):873-81
Authors: Kovermann M, Zierold R, Haupt C, Löw C, Balbach J
The dynamics of the two domain prolyl-peptidyl cis/trans isomerase and chaperone SlyD was studied on a ps-to-ns time scale to correlate dynamic changes with the catalytic function. (15)N transversal and longitudinal relaxation rates as well as...
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08-13-2011 12:57 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
Nonnative Interactions in the FF Domain Folding Pathway from an Atomic Resolution Structure of a Sparsely Populated Intermediate: An NMR Relaxation Dispersion Study
Nonnative Interactions in the FF Domain Folding Pathway from an Atomic Resolution Structure of a Sparsely Populated Intermediate: An NMR Relaxation Dispersion Study
Dmitry M. Korzhnev, Robert M. Vernon, Tomasz L. Religa, Alexandar L. Hansen, David Baker, Alan R. Fersht and Lewis E. Kay
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/jacsat/0/jacsat.ahead-of-print/ja203686t/aop/images/medium/ja-2011-03686t_0002.gif
Journal of the American Chemical Society
DOI: 10.1021/ja203686t
http://feeds.feedburner.com/~ff/acs/jacsat?d=yIl2AUoC8zA...
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06-29-2011 04:45 AM
Non-Native Interactions in the FF Domain Folding Pathway From an Atomic Resolution Structure of a Sparsely Populated Intermediate: An NMR Relaxation Dispersion Study.
Non-Native Interactions in the FF Domain Folding Pathway From an Atomic Resolution Structure of a Sparsely Populated Intermediate: An NMR Relaxation Dispersion Study.
Non-Native Interactions in the FF Domain Folding Pathway From an Atomic Resolution Structure of a Sparsely Populated Intermediate: An NMR Relaxation Dispersion Study.
J Am Chem Soc. 2011 Jun 6;
Authors: Korzhnev DM, Vernon RM, Religa TL, Hansen AL, Baker D, Fersht AR, Kay LE
Several all-helical single-domain proteins have been shown to fold rapidly (us timescale) to a compact...
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06-07-2011 11:05 AM
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] Solvent interaction of a Hsp70 chaperone substrate-binding domain investigated with w
Solvent interaction of a Hsp70 chaperone substrate-binding domain investigated with water-NOE NMR experiments.
Related Articles Solvent interaction of a Hsp70 chaperone substrate-binding domain investigated with water-NOE NMR experiments.
Biochemistry. 2003 Sep 30;42(38):11100-8
Authors: Cai S, Stevens SY, Budor AP, Zuiderweg ER
The interaction of solvent of the substrate binding domain of the bacterial heat shock 70 chaperone protein DnaK was studied in its apo form and with bound hydrophobic substrate peptide, using refined nuclear magnetic...
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11-24-2010 09:16 PM
[NMR paper] Val(659)-->Glu mutation within the transmembrane domain of ErbB-2: effects measured b
Val(659)-->Glu mutation within the transmembrane domain of ErbB-2: effects measured by (2)H NMR in fluid phospholipid bilayers.
Related Articles Val(659)-->Glu mutation within the transmembrane domain of ErbB-2: effects measured by (2)H NMR in fluid phospholipid bilayers.
Biochemistry. 2000 May 30;39(21):6572-80
Authors: Sharpe S, Barber KR, Grant CW
Certain point mutations within the hydrophobic transmembrane domains of class I receptor tyrosine kinases have been associated with oncogenic transformation in vitro and in vivo . An important...
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11-18-2010 09:15 PM
[NMR paper] NMR solution structure of the 21 kDa chaperone protein DnaK substrate binding domain:
NMR solution structure of the 21 kDa chaperone protein DnaK substrate binding domain: a preview of chaperone-protein interaction.
Related Articles NMR solution structure of the 21 kDa chaperone protein DnaK substrate binding domain: a preview of chaperone-protein interaction.
Biochemistry. 1998 Jun 2;37(22):7929-40
Authors: Wang H, Kurochkin AV, Pang Y, Hu W, Flynn GC, Zuiderweg ER
The solution structure of the 21 kDa substrate-binding domain of the Escherichia coli Hsp70-chaperone protein DnaK (DnaK 386-561) has been determined to a precision...
Folding and domain-domain interactions of the chaperone PapD measured by 19F NMR.
Linear Mode
