Peptide Bacteriocins--Structure Activity Relationships

Overview

Journal Curr Top Med Chem

Publisher Bentham Science Publishers

Specialty Chemistry

Date 2015 Aug 13

PMID 26265354

Citations 13

Authors

Hashem Etayash

Sarfuddin Azmi

Ramana Dangeti

Kamaljit Kaur

Affiliations

Soon will be listed here.

Abstract

With the growing concerns in the scientific and health communities over increasing levels of antibiotic resistance, antimicrobial peptide bacteriocins have emerged as promising alternatives to conventional small molecule antibiotics. A substantial attention has recently focused on the utilization of bacteriocins in food preservation and health safety. Despite the fact that a large number of bacteriocins have been reported, only a few have been fully characterized and structurally elucidated. Since knowledge of the molecular structure is a key for understanding the mechanism of action and therapeutic effects of peptide, we centered our focus in this review on the structure-activity relationships of bacteriocins with a particular focus in seven bacteriocins, namely, nisin, microcin J25, microcin B17, microcin C, leucocin A, sakacin P, and pediocin PA-1. Significant structural changes responsible for the altered activity of the recent bacteriocin analogues are discussed here.

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