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Literature DB >> 12470257

Fluorine-NMR competition binding experiments for high-throughput screening of large compound mixtures.

Claudio Dalvit¹, Maria Flocco, Marina Veronesi, Brian J Stockman.

Abstract

High-throughput ligand-based NMR screening with competition binding experiments is extended to (19)F detection. Fluorine is a favorable nucleus for these experiments because of the significant contribution of the Chemical Shift Anisotropy (CSA) to the (19)F transverse relaxation of the ligand signal when bound to a macromolecular target. A low to moderate affinity ligand containing a fluorine atom is used as a reference molecule for the detection and characterization of new ligands. Titration NMR experiments with the selected reference compound are performed for finding the optimal set-up conditions for HTS and for deriving the binding constants of the identified NMR hits. Rapid HTS of large chemical mixtures and plant or fungi extracts against the receptor of interest is possible due to the high sensitivity of the (19)F nucleus and the absence of overlap with the signals of the mixtures to be screened. Finally, a novel approach for HTS using a reference molecule in combination with a control molecule is presented.

Entities: Chemical Disease

Mesh：

Substances：

Year: 2002 PMID： 12470257 DOI： 10.2174/1386207023329923

Source DB: PubMed Journal: Comb Chem High Throughput Screen ISSN： 1386-2073 Impact factor: 1.339

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Cited

17 in total

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Fluorine-NMR competition binding experiments for high-throughput screening of large compound mixtures.

1. Chemical Perturbation of Oncogenic Protein Folding: from the Prediction of Locally Unstable Structures to the Design of Disruptors of Hsp90-Client Interactions.

Review 2. Application of NMR and molecular docking in structure-based drug discovery.

Review 3. Advantages of crystallographic fragment screening: functional and mechanistic insights from a powerful platform for efficient drug discovery.

4. NADH fluorescence lifetime is an endogenous reporter of α-synuclein aggregation in live cells.

5. Estimating the cooperativity of PROTAC-induced ternary complexes using ¹⁹F NMR displacement assay.

Review 6. Perspectives on NMR in drug discovery: a technique comes of age.

Review 7. High-field solution NMR spectroscopy as a tool for assessing protein interactions with small molecule ligands.

8. Detecting allosteric sites of HIV-1 reverse transcriptase by X-ray crystallographic fragment screening.

Review 9. Fragment-based drug discovery using NMR spectroscopy.

10. Protein-Inhibitor Interaction Studies Using NMR.

Fluorine-NMR competition binding experiments for high-throughput screening of large compound mixtures.

1. Chemical Perturbation of Oncogenic Protein Folding: from the Prediction of Locally Unstable Structures to the Design of Disruptors of Hsp90-Client Interactions.

Review 2. Application of NMR and molecular docking in structure-based drug discovery.

Review 3. Advantages of crystallographic fragment screening: functional and mechanistic insights from a powerful platform for efficient drug discovery.

4. NADH fluorescence lifetime is an endogenous reporter of α-synuclein aggregation in live cells.

5. Estimating the cooperativity of PROTAC-induced ternary complexes using 19F NMR displacement assay.

Review 6. Perspectives on NMR in drug discovery: a technique comes of age.

Review 7. High-field solution NMR spectroscopy as a tool for assessing protein interactions with small molecule ligands.

8. Detecting allosteric sites of HIV-1 reverse transcriptase by X-ray crystallographic fragment screening.

Review 9. Fragment-based drug discovery using NMR spectroscopy.

10. Protein-Inhibitor Interaction Studies Using NMR.

5. Estimating the cooperativity of PROTAC-induced ternary complexes using ¹⁹F NMR displacement assay.