Slow, tight-binding inhibition of PDF by actinonin induces

6: Slow Binding Inhibitors

Accurate quantitative determination of affinity and binding kinetics for tight binding inhibition of xanthine oxidase - ScienceDirect

6: Slow Binding Inhibitors

Carmela GIGLIONE, Laboratory Head, PhD, Université Paris-Saclay, Paris

Ion mobility coupled to native mass spectrometry as a relevant tool to investigate extremely small ligand-induced conformational changes - Analyst (RSC Publishing) DOI:10.1039/C5AN01311A

PDF) Aminopeptidase-N/CD13 (EC 3.4411.4) inhibitors: Chemistry, biological evaluations and therapeutic prospects.

Sonia Fieulaine's research works Université Paris-Saclay, Paris and other places

WO2006077139A2 - Peptide deformylase inhibitors, their use, and pharmaceutical compositions containing the same - Google Patents

Peptide Deformylase as an Antibacterial Drug Target: Target Validation and Resistance Development

Trapping Conformational States Along Ligand-Binding Dynamics of Peptide Deformylase: The Impact of Induced Fit on Enzyme Catalysis

Ion mobility coupled to native mass spectrometry as a relevant tool to investigate extremely small ligand-induced conformational changes - Analyst (RSC Publishing) DOI:10.1039/C5AN01311A

Translating slow-binding inhibition kinetics into cellular and in vivo effects

Slow, tight-binding inhibition of PDF by actinonin induces

Actinonin and Analogs: Inhibitors of Bacterial Peptide Deformylase

Isabelle ARTAUD, Research Director, PhD, French National Centre for Scientific Research, Paris, CNRS, Chemistry and Biology Interdisciplinar Centre paris Descartes University france