Unidirectional coherence transfer is highly efficient in intrinsically disordered proteins (IDPs). Their elevated ps-ns timescale dynamics ensures long transverse (T2) relaxation times allowing sophisticated coherence transfer pathway selection in comparison to folded proteins. 1Hα-detection ensures non-susceptibility to chemical exchange with the solvent and enables chemical shift assignment of consecutive proline residues, typically abundant in IDPs. However, many IDPs undergo a disorder-to-order transition upon interaction with their target protein, which leads to the loss of the favorable relaxation properties. Long coherence transfer routes now result in prohibitively large decrease in sensitivity. We introduce a novel 4D 1Hα-detected experiment HACANCOi, together with its 3D implementation, which warrant high sensitivity for the assignment of proline-rich regions in IDPs in complex with a globular protein. The experiment correlates 1Hαi, 13Cαi, 15Ni and \(^{13} C^{\prime}_{i}\) spins by transferring the magnetization concomitantly from 13Cαi to 15Ni and \(^{13} C^{\prime}_{i}\) . The B1 domain of protein G (GB1), and the enteropathogenic E.coli EspF in complex with human SNX9 SH3, serve as model systems to demonstrate the attainable sensitivity and successful sequential assignment.
Dispersion from C α or N H : 4D experiments for backbone resonance assignment of intrinsically disordered proteins
Dispersion from C α or N H : 4D experiments for backbone resonance assignment of intrinsically disordered proteins
Abstract
Resonance assignment of intrinsically disordered proteins is remarkably challenging due to scant chemical shift dispersion arising from conformational heterogeneity. The challenge is even greater if repeating segments are present in the amino acid sequence. To forward unambiguous resonance assignment of intrinsically disordered proteins, we present iHACANCO, HACACON and (HACA)CONCAHA, three Hα-detected 4D experiments with Cα...
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02-29-2020 09:52 PM
Five and four dimensional experiments for robust backbone resonance assignment of large intrinsically disordered proteins: application to Tau3x protein
Five and four dimensional experiments for robust backbone resonance assignment of large intrinsically disordered proteins: application to Tau3x protein
Abstract
New experiments dedicated for large IDPs backbone resonance assignment are presented. The most distinctive feature of all described techniques is the employment of MOCCA-XY16 mixing sequences to obtain effective magnetization transfers between carbonyl carbon backbone nuclei. The proposed 4 and 5 dimensional experiments provide a high dispersion of obtained signals making them suitable for use...
A six-dimensional alpha proton detection-based APSY experiment for backbone assignment of intrinsically disordered proteins
A six-dimensional alpha proton detection-based APSY experiment for backbone assignment of intrinsically disordered proteins
Abstract
Sequence specific resonance assignment is the prerequisite for the NMR-based analysis of the conformational ensembles and their underlying dynamics of intrinsically disordered proteins. However, rapid solvent exchange in intrinsically disordered proteins often complicates assignment strategies based on HN-detection. Here we present a six-dimensional alpha proton detection-based automated projection spectroscopy (APSY)...
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11-04-2014 01:02 AM
New 13C-detected experiments for the assignment of intrinsically disordered proteins
New 13C-detected experiments for the assignment of intrinsically disordered proteins
Abstract
NMR assignment of intrinsically disordered proteins (IDPs) by conventional HN-detected methods is hampered by the small dispersion of the amide protons chemical shifts and exchange broadening of amide proton signals. Therefore several alternative assignment strategies have been proposed in the last years. Attempting to seize that dispersion of 13Câ?² and 15N chemical shifts holds even in IDPs, we recently proposed two 13C-detected experiments to directly...
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06-19-2014 10:21 PM
[NMR paper] High-dimensionality (13)C direct-detected NMR experiments for the automatic assignment of intrinsically disordered proteins.
High-dimensionality (13)C direct-detected NMR experiments for the automatic assignment of intrinsically disordered proteins.
Related Articles High-dimensionality (13)C direct-detected NMR experiments for the automatic assignment of intrinsically disordered proteins.
J Biomol NMR. 2013 Nov 8;
Authors: Bermel W, Felli IC, Gonnelli L, Ko?mi?ski W, Piai A, Pierattelli R, Zawadzka-Kazimierczuk A
Abstract
We present three novel exclusively heteronuclear 5D (13)C direct-detected NMR experiments, namely (H(N-flip)N)CONCACON, (HCA)CONCACON and...
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11-11-2013 01:30 AM
High dimensional and high resolution pulse sequences for backbone resonance assignment of intrinsically disordered proteins
High dimensional and high resolution pulse sequences for backbone resonance assignment of intrinsically disordered proteins
Abstract Four novel 5D (HACA(N)CONH, HNCOCACB, (HACA)CON(CA)CONH, (H)NCO(NCA)CONH), and one 6D ((H)NCO(N)CACONH) NMR pulse sequences are proposed. The new experiments employ non-uniform sampling that enables achieving high resolution in indirectly detected dimensions. The experiments facilitate resonance assignment of intrinsically disordered proteins. The novel pulse sequences were successfully tested using δ subunit (20 kDa) of Bacillus subtilis RNA polymerase...
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02-21-2012 03:40 AM
HA-detected experiments for the backbone assignment of intrinsically disordered prote
Abstract We propose a new alpha proton detection based approach for the sequential assignment of natively unfolded proteins. The proposed protocol superimposes on following features: HA-detection (1) enables assignment of natively unfolded proteins at any pH, i.e., it is not sensitive to rapid chemical exchange undergoing in natively unfolded proteins even at moderately high pH. (2) It allows straightforward assignment of proline-rich polypeptides without additional proline-customized experiments. (3) It offers more streamlined and less ambiguous assignment based on solely intraresidual...
HACANCOi: a new H α -detected experiment for backbone resonance assignment of intrinsically disordered proteins
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