Microcin 25, a peptide antibiotic excreted by an Escherichia coli strain isolated from human feces, was purified to homogeneity and characterized. Composition analysis and data from gel ifitration indicated that microcin 25 may contain 20 amino acid residues. It has a blocked amino-terminal end. Microcin synthesis and immunity are plasmid determined, and the antibiotic was produced in minimal medium when the cultures entered the stationary phase of growth. The peptide appears to interfere with cell divrision, since susceptible cells filamented when exposed to it. This response does not seem to be mediated by the SOS system.Microcins are a miscellaneous group of low-molecularweight antibiotics produced by a number of enterobacteria, mostly Escherichia coli strains (2). Several features distinguish them from the more widely studied colicins. Microcins are considerably smaller, their synthesis is neither lethal nor controlled by the SOS regulatory circuit, and synthesis takes place during the stationary phase of growth (with the possible exception of microcin E492 from Kiebsiella pneumoniae, the production of which starts in the exponential phase) (3). Moreover, colicins are bactericidal proteins, whereas microcins may exhibit bactericidal or bacteriostatic modes of action. At least for the most extensively characterized microcins, B17 and C7, the genetic systems involved in their production and immunity are considerably more complex than the contiguous arrangement of three genes (synthesis, immunity, and release via lysis) which is a common feature of colicin-producing plasmids (16,31,34). Like those of colicins, the genetic determinants for microcins seem to be invariably plasmid borne. However, Lavinia et al. have recently described a novel member of the family, microcin H47, which is chromosomally encoded (24).Microcins are a promising model system for the study of peptide transport mechanisms and the regulation of gene expression in nonproliferating cells. Studies of them may also contribute to a deeper understanding of the structurefunction relationships of antimicrobial peptides.This article introduces the study of a novel peptide antibiotic which is excreted into the culture medium by a fecal strain of E. coli. We have called it microcin 25 (Mcc25). The purification, initial biochemical characterization, and some properties of Mcc25 are reported. Also, we present results suggesting that it can act as a cell division inhibitor.
MATERIALS AND METHODSBacterial strains. The bacteria used in this work are listed in Table 1. All strains are derivatives of E. coli K-12 except for AY25, the natural E. coli producer of Mcc25, and AY29, its nonproducing plasmid-cured derivative. Strain AY25 was isolated in our laboratory from the feces of a newborn infant, as described previously (3).Media. LB rich and M63 minimal media have been de-* Corresponding author.scribed by Miller (29). Minimal medium was supplemented with 0.2% of the specified carbon source, thiamine (1 ,g/ml), and, when appropriate, L-amino acids (20 ,ug/m...
