Emmanuel Oheix scite author profile

The reactive species of oxygen (ROS) and chlorine (RCS) damage cellular components, potentially leading to cell death. In proteins, the sulfur-containing amino acid methionine (Met) is converted to methionine sulfoxide (Met-O), which can cause a loss of biological activity. To rescue proteins with Met-O residues, living cells express methionine sulfoxide reductases (Msrs) in most subcellular compartments, including the cytosol, mitochondria and chloroplasts [1][2][3] . Here, we report the identification of an enzymatic system, MsrPQ, repairing Met-O containing proteins in the bacterial cell envelope, a compartment particularly exposed to the ROS and RCS generated by the host defense mechanisms. MsrP, a molybdo-enzyme, and MsrQ, a heme-binding membrane protein, are widely conserved throughout Gram-negative bacteria, including major human pathogens. MsrPQ synthesis is induced by hypochlorous acid (HOCl), a powerful antimicrobial released by neutrophils. Consistently, MsrPQ is essential for the maintenance of envelope integrity under bleach stress, rescuing a wide series of structurally unrelated periplasmic proteins from Met

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Catalytic Processes for the Neutralization of Sulfur Mustard

Oheix

Gravel

Doris

2020

Chemistry A European J

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Research on the decontamination of the chemical warfare agent sulfur mustard pursues severalo bjectives that include the neutralization of spared ammunition,t he cleaning of affected areas, and also the development of protective equipment or tools. Neutralizationo fv esicant sulfur mustard involves different chemical routes such as hydroly-sis, dehydrochlorination, oxidation, or complete mineralization. This review weighs the pros and cons associated with the different systems reported in the literature, with an emphasis on catalytic procedures, to selectively convert sulfur mustard or its simulants into harmless products.

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Emmanuel Oheix

Repairing oxidized proteins in the bacterial envelope using respiratory chain electrons

Catalytic Processes for the Neutralization of Sulfur Mustard

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