Özet:

Social and hospital-based infections, which are formed by microorganisms that have developed resistance to many antimicrobial substances, are a major problem and the treatment of these infections can be made effective by the use of new agents. In this study, the antimicrobial effects of some benzimidazole derivatives, which contain structural differences, were studied using microdilusion and disc diffusion techniques. The number of benzimidazole units in which the compounds are studied contains differences in the aspects such as the different substition in the position 1 and 5 of the benzimidazole ring, the different substition in the position p of the 2-fenylbenzimidazole structure and whether they contain aromatic units or not. This means that it is intended to provide important information about the structural-activity relationships to the literature for the synthesis of the new benzimidazols suitable for the purpose. For examination, clinical types of Gram + and Gram bacteria, which are important in the clinic and are also important for the formation of resistance, have been selected. The effects of benzimidazole derivatives are compared with the standard antimicrobial agents. Depending on the number of benzimidazole rings, antimicrobial effect has increased, the activity of heterosexual rings such as tiophen and pyridine linked to benzimidazole 2 in position has increased, the 5-Cl substition has given the ability to be effective against all types of bacteria in benzimidazole. Furthermore, it has been found that derivatives containing 2-fenyl benzimidazole in p- position are more effective against the types of bacteria than derivatives containing electron-tracker CL and NO2.

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