Ligand Proton Pseudocontact Shifts Determined from Paramagnetic Relaxation Dispersion in the Limit of NMR Intermediate Exchange.
J Phys Chem Lett. 2018 Jun 04;:
Authors: Xu D, Li B, Gao J, Liu Z, Niu X, Nshogoza G, Zhang J, Wu J, Su XC, He W, Ma R, Yang D, Ruan K
Abstract
Delineation of protein-ligand interaction modes is key for rational drug discovery. The availability of complex crystal structures is often limited by the aqueous solubility of the compounds, while lead-like compounds with micromolar affinities normally fall into the NMR intermediate exchange regime, in which severe line broadening to beyond the detection of interfacial resonances limits NMR applications. Here, we developed a new method to retrieve low-populated bound-state 1H pseudocontact shifts (PCSs) using paramagnetic relaxation dispersion (RD). We evaluated using a 1H PCS-RD approach in a BRM bromodomain lead-like inhibitor to filter molecular docking poses using multiple intermolecular structural restraints. Considering the universal presence of proton atoms in drug-like compounds, our work will have wide application in structure-guided drug discovery even under an extreme condition of NMR intermediate exchange and low aqueous solubility of ligands.
PMID: 29864276 [PubMed - as supplied by publisher]
[NMR paper] Use of Fluorine Pseudocontact Shifts to Characterize the Protein-Ligand Interaction Mode in the Limit of NMR Intermediate Exchange.
Use of Fluorine Pseudocontact Shifts to Characterize the Protein-Ligand Interaction Mode in the Limit of NMR Intermediate Exchange.
Use of Fluorine Pseudocontact Shifts to Characterize the Protein-Ligand Interaction Mode in the Limit of NMR Intermediate Exchange.
Angew Chem Int Ed Engl. 2017 Aug 28;:
Authors: Gao J, Liang E, Ma R, Li F, Liu Y, Liu J, Jiang L, Li C, Dai H, Wu J, Su X, He W, Ruan K
Abstract
The characterization of protein-ligand interaction modes becomes recalcitrant in the NMR intermediate exchange regime as the...
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08-29-2017 05:35 PM
[NMR paper] Use of Fluorine Pseudocontact Shifts to Characterize the Protein-Ligand Interaction Mode in the Limit of NMR Intermediate Exchange
Use of Fluorine Pseudocontact Shifts to Characterize the Protein-Ligand Interaction Mode in the Limit of NMR Intermediate Exchange
The characterization of protein-ligand interaction modes becomes recalcitrant in the NMR intermediate exchange regime as the interface resonances are broadened beyond detection. Here, we determined the 19F low-populated bound-state pseudocontact shifts (PCSs) of mono- and di-fluorinated inhibitors of the BRM bromodomain using a highly-skewed protein/ligand ratio. The bound-state 19F PCSs were retrieved from 19F chemical exchange saturation transfer (CEST) in...
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08-29-2017 01:33 AM
[NMR paper] Pseudocontact shifts in biomolecular NMR using paramagnetic metal tags.
Pseudocontact shifts in biomolecular NMR using paramagnetic metal tags.
Related Articles Pseudocontact shifts in biomolecular NMR using paramagnetic metal tags.
Prog Nucl Magn Reson Spectrosc. 2017 Feb;98-99:20-49
Authors: Nitsche C, Otting G
PMID: 28283085
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03-12-2017 12:32 PM
[NMR paper] Probing Conformational Exchange Dynamics in a Short-Lived Protein Folding Intermediate by Real-Time Relaxation-Dispersion NMR.
Probing Conformational Exchange Dynamics in a Short-Lived Protein Folding Intermediate by Real-Time Relaxation-Dispersion NMR.
http://www.bionmr.com//www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--pubs.acs.org-images-pubmed-acspubs.jpg Related Articles Probing Conformational Exchange Dynamics in a Short-Lived Protein Folding Intermediate by Real-Time Relaxation-Dispersion NMR.
J Am Chem Soc. 2017 Jan 11;:
Authors: Franco R, Gil-Caballero S, Ayala I, Favier A, Brutscher B
Abstract
NMR spectroscopy is a powerful tool for studying...
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01-12-2017 03:48 AM
Pseudocontact shifts in biomolecular NMR using paramagnetic metal tags
Pseudocontact shifts in biomolecular NMR using paramagnetic metal tags
Publication date: Available online 1 December 2016
Source:Progress in Nuclear Magnetic Resonance Spectroscopy</br>
Author(s): Christoph Nitsche, Gottfried Otting</br>
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12-02-2016 07:45 AM
Towards interpretation of intermolecular paramagnetic relaxation enhancement outside the fast exchange limit
Towards interpretation of intermolecular paramagnetic relaxation enhancement outside the fast exchange limit
Abstract
In an exchanging system between major and minor species, the transverse paramagnetic relaxation enhancement rate observed on the resonances of the major species (Î? 2 app ) is dependent upon the exchange regime between the species. Quantitative analysis of PRE data in such systems typically assumes that the overall exchange rate k ex between the...
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08-24-2016 04:39 PM
[NMR paper] PARAssign-paramagnetic NMR assignments of protein nuclei on the basis of pseudocontact shifts.
PARAssign-paramagnetic NMR assignments of protein nuclei on the basis of pseudocontact shifts.
Related Articles PARAssign-paramagnetic NMR assignments of protein nuclei on the basis of pseudocontact shifts.
J Biomol NMR. 2013 Mar 23;
Authors: Skinner SP, Moshev M, Hass MA, Ubbink M
Abstract
The use of paramagnetic NMR data for the refinement of structures of proteins and protein complexes is widespread. However, the power of paramagnetism for protein assignment has not yet been fully exploited. PARAssign is software that uses...
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03-26-2013 01:30 PM
Water-Proton-Spin-Lattice-Relaxation Dispersion of Paramagnetic Protein Solutions
Water-Proton-Spin-Lattice-Relaxation Dispersion of Paramagnetic Protein Solutions
Publication year: 2010
Source: Journal of Magnetic Resonance, In Press, Accepted Manuscript, Available online 10 November 2010</br>
Galina, Diakova , Yanina, Goddard , Jean-Pierre, Korb , Robert G., Bryant</br>
The paramagnetic contributions to water proton spin-lattice relaxation rate constants in protein systems spin-labeled with nitroxide radicals were re-examined. As noted by others, the strength of the dipolar coupling between water protons and the protein-bound nitroxide radical often appears to...
Ligand Proton Pseudocontact Shifts Determined from Paramagnetic Relaxation Dispersion in the Limit of NMR Intermediate Exchange.
Linear Mode
