Related ArticlesRelaxation-optimized NMR spectroscopy of methylene groups in proteins and nucleic acids.
J Am Chem Soc. 2004 Sep 1;126(34):10560-70
Authors: Miclet E, Williams Jr DC, Clore GM, Bryce DL, Boisbouvier J, Bax A
A large fraction of hydrogens in proteins and nucleic acids is of the methylene type. Their detailed study, however, in terms of structure and dynamics by NMR spectroscopy is hampered by their fast relaxation properties, which give rise to low sensitivity and resolution. It is demonstrated that six different relaxation interference processes, involving 1H-13C and 1H-1H dipolar interactions and 1H and 13C chemical shift anisotropy, can be used simultaneously to mitigate these problems effectively. The approach is applicable to the majority of NMR experiments commonly used to study side chain and backbone conformation. For proteins, its efficiency is evaluated quantitatively for two samples: the third IgG-binding domain from Streptococcal Protein G and the protein calmodulin complexed with a 26-residue target peptide. Gains in both resolution and sensitivity by up to factors of 3.2 and 2.0, respectively, are observed for Gly residues at high magnetic field strengths, but even at much lower fields gains remain substantial. The resolution enhancement obtained for methylene groups makes possible a detailed analysis of spectral regions commonly considered inaccessible due to spectral crowding. For DNA, the high resolution now obtainable for C5' sites permits an H5'/H5''-based sequential NOE assignment procedure, complementary to the conventional base-H1'/H2'/H2'' pathway.
Specific Labeling of ThreonineMethyl Groups for NMR Studies of Protein–Nucleic Acid Complexes
Specific Labeling of ThreonineMethyl Groups for NMR Studies of Protein–Nucleic Acid Complexes
http://pubs.acs.org/appl/literatum/publisher/achs/journals/content/bichaw/0/bichaw.ahead-of-print/bi201496d/aop/images/medium/bi-2011-01496d_0001.gif
Biochemistry
DOI: 10.1021/bi201496d
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11-04-2011 03:17 AM
Translational diffusion of macromolecular assemblies measured using transverse relaxation-optimized PFG-NMR.
Translational diffusion of macromolecular assemblies measured using transverse relaxation-optimized PFG-NMR.
Translational diffusion of macromolecular assemblies measured using transverse relaxation-optimized PFG-NMR.
J Am Chem Soc. 2011 Sep 16;
Authors: Horst R, Horwich AL, Wüthrich K
Abstract
ABSTRACT In structural biology, pulsed field gradient (PFG) NMR for characterization of size and hydrodynamic parameters of macromolecular solutes has the advantage over other techniques that the measurements can be recorded with identical solution...
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09-17-2011 08:21 PM
An optimized isotopic labelling strategy of isoleucine-?(2) methyl groups for solution NMR studies of high molecular weight proteins.
An optimized isotopic labelling strategy of isoleucine-?(2) methyl groups for solution NMR studies of high molecular weight proteins.
An optimized isotopic labelling strategy of isoleucine-?(2) methyl groups for solution NMR studies of high molecular weight proteins.
Chem Commun (Camb). 2011 Jul 26;
Authors: Ayala I, Hamelin O, Amero C, Pessey O, Plevin MJ, Gans P, Boisbouvier J
An efficient synthetic route is proposed to produce 2-hydroxy-2-ethyl-3-oxobutanoate for the specific labelling of Ile methyl-?(2) groups in proteins. The (2)H,...
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07-28-2011 10:51 AM
Quantifying millisecond time-scale exchange in proteins by CPMG relaxation dispersion NMR spectroscopy of side-chain carbonyl groups
Quantifying millisecond time-scale exchange in proteins by CPMG relaxation dispersion NMR spectroscopy of side-chain carbonyl groups
Abstract A new pulse sequence is presented for the measurement of relaxation dispersion profiles quantifying millisecond time-scale exchange dynamics of side-chain carbonyl groups in uniformly 13C labeled proteins. The methodology has been tested using the 87-residue colicin E7 immunity protein, Im7, which is known to fold via a partially structured low populated intermediate that interconverts with the folded, ground state on the millisecond time-scale....
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06-20-2011 03:31 PM
Quantifying millisecond time-scale exchange in proteins by CPMG relaxation dispersion NMR spectroscopy of side-chain carbonyl groups.
Quantifying millisecond time-scale exchange in proteins by CPMG relaxation dispersion NMR spectroscopy of side-chain carbonyl groups.
Quantifying millisecond time-scale exchange in proteins by CPMG relaxation dispersion NMR spectroscopy of side-chain carbonyl groups.
J Biomol NMR. 2011 Jun 18;
Authors: Hansen AL, Kay LE
A new pulse sequence is presented for the measurement of relaxation dispersion profiles quantifying millisecond time-scale exchange dynamics of side-chain carbonyl groups in uniformly (13)C labeled proteins. The methodology has...
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06-18-2011 01:10 PM
Selective 1H-13C NMR spectroscopy of methyl groups in residually protonated samples of large proteins
Selective 1H-13C NMR spectroscopy of methyl groups in residually protonated samples of large proteins
Abstract Methyl 13CHD2 isotopomers of all methyl-containing amino-acids can be observed in residually protonated samples of large proteins obtained from -glucose/D2O-based bacterial media, with sensitivity sufficient for a number of NMR applications. Selective detection of some subsets of methyl groups (Alaβ, Thrγ2) is possible using simple â??out-and-backâ?? NMR methodology. Such selective methyl-detected â??out-and-backâ?? NMR experiments allow complete assignments of threonine γ2...
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01-09-2011 12:46 PM
[NMR paper] Cross-correlated relaxation enhanced 1H[bond]13C NMR spectroscopy of methyl groups in
Cross-correlated relaxation enhanced 1H13C NMR spectroscopy of methyl groups in very high molecular weight proteins and protein complexes.
Related Articles Cross-correlated relaxation enhanced 1H13C NMR spectroscopy of methyl groups in very high molecular weight proteins and protein complexes.
J Am Chem Soc. 2003 Aug 27;125(34):10420-8
Authors: Tugarinov V, Hwang PM, Ollerenshaw JE, Kay LE
A comparison of HSQC and HMQC pulse schemes for recording (1)H(13)C correlation maps of protonated methyl groups in highly deuterated proteins is presented....
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11-24-2010 09:16 PM
[NMR paper] Transverse relaxation-optimized NMR spectroscopy with the outer membrane protein OmpX
Transverse relaxation-optimized NMR spectroscopy with the outer membrane protein OmpX in dihexanoyl phosphatidylcholine micelles.
Related Articles Transverse relaxation-optimized NMR spectroscopy with the outer membrane protein OmpX in dihexanoyl phosphatidylcholine micelles.
Proc Natl Acad Sci U S A. 2001 Feb 27;98(5):2358-63
Authors: Fernández C, Adeishvili K, Wüthrich K
The (2)H,(13)C,(15)N-labeled, 148-residue integral membrane protein OmpX from Escherichia coli was reconstituted with dihexanoyl phosphatidylcholine (DHPC) in mixed micelles...
Relaxation-optimized NMR spectroscopy of methylene groups in proteins and nucleic aci
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