Electron spin-labelling of the EutC subunit in B₁₂-dependent ethanolamine ammonia-lyase reveals dynamics and a two-state conformational equilibrium in the N-terminal, signal-sequence-associated domain

Abstract: The B (adenosylcobalamin)-dependent ethanolamine ammonia-lyase (EAL) is a product of the ethanolamine utilisation (eut) gene cluster, that is involved in human gut microbiome homeostasis and in disease conditions caused by pathogenic strains of Salmonella and Escherichia coli. Toward elucidation of the molecular basis of EAL catalysis, and its intracellular trafficking and targeting to the Eut biomicrocompartment (BMC), we have applied electron spin-labelling and electron paramagnetic resonance spectroscopy to… Show more

“…NRs are used in the most of spin labelling applications due to their smaller size and less potential disturbance of the structure of labelled macromolecules. In this issue Nforneh et al [2] report on the EPR spin-labelling application of 4-maleimido-TEMPO nitroxide to elucidate the molecular basis of catalysis of B12-dependent ethanolamine ammonia-lyase. The EPR studies revealed dynamics and a two state conformational equilibrium in the N-terminal, signal sequence-associated domain.…”

Special issue for the International Conference on Electron Paramagnetic Resonance Spectroscopy and Imaging of Biological Systems (EPR-2017)

“…NRs are used in the most of spin labelling applications due to their smaller size and less potential disturbance of the structure of labelled macromolecules. In this issue Nforneh et al [2] report on the EPR spin-labelling application of 4-maleimido-TEMPO nitroxide to elucidate the molecular basis of catalysis of B12-dependent ethanolamine ammonia-lyase. The EPR studies revealed dynamics and a two state conformational equilibrium in the N-terminal, signal sequence-associated domain.…”

Special issue for the International Conference on Electron Paramagnetic Resonance Spectroscopy and Imaging of Biological Systems (EPR-2017)

Native and nonnative reactions in ethanolamine ammonia-lyase are actuated by different dynamics