Add to ORKGFluorine is widely used in the lead optimization phase of drug discovery projects. More recently, fluorine NMR-based spectroscopy has emerged as a versatile, reliable and efficient tool for performing binding and biochemical assays. Different libraries of fluorinated compounds, designed by maximizing the chemical space around the fluorine atom, can be screened for identifying fluorophilic hotspots on the desired macromolecular target. A statistical analysis of the fluorine NMR chemical shift, which is a marker of the fluorine local environment, and of the X-Ray structures of fluorinated molecules has resulted in the development of the “rule of shielding”. This method could become a useful tool for lead optimization and for designing novel c...
Ligand-based fluorine NMR screening has gained popularity in drug discovery projects during the past...
The substrate- or cofactor-based fluorine NMR screening, also known as n-FABS (n fluorine atoms for ...
A variety of nuclear magnetic resonance (NMR) applications have been developed for structure-based d...
A novel strategy for the design of a fluorinated fragment library that takes into account the local ...
Ligand-based fluorine NMR screening has gained popularity in drug discovery projects during the past...
A correlation between the fluorine NMR isotropic chemical shift and close intermolecular F---H-X (wi...
An empirical correlation between the fluorine isotropic chemical shift measured in 19F NMR spectrosc...
Fragment screening performed with 19F NMR spectroscopy is becoming increasingly popular in drug dis...
Here we explore a variety of monofluorinated and trifluoromethyl reporters in an effort to derive op...
On the one hand, owing to its electronegativity, relatively small size, and notable leaving group ab...
Fluorine NMR spectroscopy is widely used for detection of protein-ligand interactions in drug discov...
The local environment around the fluorine, which determines the 19F chemical shift, appears to be of...
The fluorine nucleus, when introduced as a reporter group in membrane-associated proteins or peptide...
The fluorine nucleus, when introduced as a reporter group in membrane-associated proteins or peptide...
In-cell NMR spectroscopy is a powerful approach to study protein structure and function in the nativ...
Ligand-based fluorine NMR screening has gained popularity in drug discovery projects during the past...
The substrate- or cofactor-based fluorine NMR screening, also known as n-FABS (n fluorine atoms for ...
A variety of nuclear magnetic resonance (NMR) applications have been developed for structure-based d...
A novel strategy for the design of a fluorinated fragment library that takes into account the local ...
Ligand-based fluorine NMR screening has gained popularity in drug discovery projects during the past...
A correlation between the fluorine NMR isotropic chemical shift and close intermolecular F---H-X (wi...
An empirical correlation between the fluorine isotropic chemical shift measured in 19F NMR spectrosc...
Fragment screening performed with 19F NMR spectroscopy is becoming increasingly popular in drug dis...
Here we explore a variety of monofluorinated and trifluoromethyl reporters in an effort to derive op...
On the one hand, owing to its electronegativity, relatively small size, and notable leaving group ab...
Fluorine NMR spectroscopy is widely used for detection of protein-ligand interactions in drug discov...
The local environment around the fluorine, which determines the 19F chemical shift, appears to be of...
The fluorine nucleus, when introduced as a reporter group in membrane-associated proteins or peptide...
The fluorine nucleus, when introduced as a reporter group in membrane-associated proteins or peptide...
In-cell NMR spectroscopy is a powerful approach to study protein structure and function in the nativ...
Ligand-based fluorine NMR screening has gained popularity in drug discovery projects during the past...
The substrate- or cofactor-based fluorine NMR screening, also known as n-FABS (n fluorine atoms for ...
A variety of nuclear magnetic resonance (NMR) applications have been developed for structure-based d...