Antibacterial Activity of Peptide Derivatives of Phosphinothricin against Multidrug-Resistant .

The fast spread of bacteria that are resistant to many classes of antibiotics (multidrug resistant) is a global threat to human and animal health with a worrisome scenario ahead. Novel therapeutical strategies are of crucial importance to combat this phenomenon. For this purpose, we investigated the antimicrobial properties of the naturally occurring tripeptide Bialaphos and a dipeptide -leucyl--phosphinoithricin, the synthesis and diastereomers separation of which are herein described.

Emergence of Five Genetic Lines ST395, ST13, ST3346, ST39, and Novel ST3551 of Multidrug-Resistant Clinical in Russia.

The objective of this study was phenotypic and genotypic characterization of antibacterial-resistant clinical strains isolated in Moscow Transplantology Intensive Care Unit in 2017-2019. Major strains among ( = 63) isolated from 30 patients were recognized as extensive drug-resistant ( = 55) pathogens, and remaining strains were recognized as multidrug-resistant ( = 8) pathogens. The beta-lactamase genes ( = 63), ( = 61), ( = 54), ( = 52), and ( = 2), as well as class 1 integrons ( = 19) carried gene cassette arrays A4 ( = 2), A1C ( = 6), BA1 ( = 9), A15A1 ( = 3), and A12 ( = 1) were identified in the strains.