Désiré Madi-Moussa scite author profile

Bacteriocins produced by lactic acid bacteria (LAB-bacteriocins) may serve as alternatives for aging antibiotics. LAB-bacteriocins can be used alone, or in some cases as potentiating agents to treat bacterial infections. This approach could meet the different calls and politics, which aim to reduce the use of traditional antibiotics and develop novel therapeutic options. Considering the clinical applications of LAB-bacteriocins as a reasonable and desirable therapeutic approach, it is therefore important to assess the advances achieved in understanding their modes of action, and the resistance mechanisms developed by the producing bacteria to their own bacteriocins. Most LAB-bacteriocins act by disturbing the cytoplasmic membrane through forming pores, or by cell wall degradation. Nevertheless, some of these peptides still have unknown modes of action, especially those that are active against Gram-negative bacteria. Regarding immunity, most bacteriocin-producing strains have an immunity mechanism involving an immunity protein and a dedicated ABC transporter system. However, these immunity mechanisms vary from one bacteriocin to another.

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Expression of five class II bacteriocins with activity against Escherichia coli in Lacticaseibacillus paracasei CNCM I-5369, and in a heterologous host

Madi-Moussa

Coucheney

Drider

2021

Biotechnology Reports

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Highlights Lacticaseibacillus paracasei CNCM I-5369 produces five class II bacteriocins. Genes coding these class II bacteriocins are expressed in the natural host. These bacteriocins are individually produced in E. coli as heterologous host. These class II bacteriocins are active against E. coli . Together, these class II bacteriocins are synergistic.

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Désiré Madi-Moussa

Current Knowledge of the Mode of Action and Immunity Mechanisms of LAB-Bacteriocins

Expression of five class II bacteriocins with activity against Escherichia coli in Lacticaseibacillus paracasei CNCM I-5369, and in a heterologous host

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