Scientific news
In this research work, our team explored the possibility of using nuclear magnetic resonance (NMR) in cell, that is to say directly on bacterial cell cultures, to characterize the bacterial periplasm, a front-line cellular compartment. of the action of antibiotics. The objective was to follow the fate of these antibiotics in this compartment, in the presence or absence of the expression by the bacteria of β-lactamase enzymes linked to bacterial resistance. This study shows that in cell NMR constitutes a powerful analytical tool for the study of new molecules targeting the molecular components of the bacterial periplasm.
Photoconvertible fluorescent proteins such as mEos4b change color when illuminated by UV light.
Towards understanding the bacterial wall of staphylococci aureus...
Characterization of cysteinyl-glycine (CysGly) dipeptide bond to platinum(II)
The first edition of the Workshop for Young Investigators in Magnetic Resonances (YIMRs)
identification of an animal from a milligram of bone
A book chapter dedicated to the challenges of 2D NMR
A review recently published by the MassLor-LCP-A2MC-UL site
Iron-sulfur aggregates have been discovered in a new family of proteins specific to giant viruses.
Using very high field NMR to better understand the mechanism of action of the TCTP protein, which has an important role in tumor cell survival