Carla Goldstone scite author profile

A molecular phylogeny for seven taxa of enteric bacteria (Citrobacter freundii, Enterobacter cloacae, Escherichia coli, Hafnia alvei, Klebsiella oxytoca, Klebsiella pneumoniae, and Serratia plymuthica) was made from multiple isolates per taxa taken from a collection of environmental enteric bacteria. Sequences from five housekeeping genes (gapA, groEL, gyrA, ompA, and pgi) and the 16s rRNA gene were used to infer individual gene trees and were concatenated to infer a composite molecular phylogeny for the species. The isolates from each taxa formed tight species clusters in the individual gene trees, suggesting the existence of ‘genotypic’ clusters that correspond to traditional species designations. These sequence data and the resulting gene trees and consensus tree provide the first data set with which to assess the utility of the recently proposed core genome hypothesis (CGH). The CGH provides a genetically based approach to applying the biological species concept to bacteria.

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A phylogenetic approach to assessing the targets of microbial warfare

Riley

Goldstone

Wertz

et al. 2003

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Bacteriocins are the most abundant and diverse defense systems in bacteria. As a result of the specific mechanisms of bacteriocin recognition and translocation into the target cell it is assumed that these toxins mediate intra-specific or population-level interactions. However, no published studies specifically address this question. We present here a survey of bacteriocin production in a collection of enteric bacteria isolated from wild mammals in Australia. A subset of the bacteriocin-producing strains was assayed for the ability to kill a broad range of enteric bacteria from the same bacterial collection. A novel method of estimating killing breadth was developed and used to compare the surveyed bacteriocins in terms of the phylogenetic range over which they kill. The most striking result is that although bacteriocin-producers kill members of their own species most frequently, some kill phylogenetically distant taxa more frequently than they kill closer relatives. This study calls into question the role these toxins play in natural populations. A significant number of bacteriocins are highly effective in killing inter-specific strains and thus bacteriocins may serve to mediate bacterial community interactions.

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Phage Associated Bacteriocins Reveal a Novel Mechanism for Bacteriocin Diversification in Klebsiella

et al. 2005

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Ninety-six isolates of Klebsiella pneumoniae and K. oxytoca were recovered from wild mammals in Australia. 14.6% of these bacteria produce killing phenotypes that suggest the production of bacteriocin toxins. Cloning and sequencing of the gene clusters encoding two of these killing phenotypes revealed two instances of a bacteriocin associated with a bacteriophage gene, the first such genetic organization described. The newly identified klebicin C gene cluster was discovered in both K. pneumoniae and K. oxytoca. The newly identified klebicin D gene cluster was detected in K. oxytoca. Protein sequence comparisons and phylogenetic inference suggest that klebicin C is most closely related to the rRNase group of colicins (such as colicin E4), while klebicin D is most closely related to the tRNase group of colicins (such as colicin D). The klebicin C and D gene clusters have similar genetic and regulatory organizations. In both cases, an operon structure is inferred consisting of a phage-associated open reading frame and klebicin activity and associated immunity genes. This novel bacteriophage/bacteriocin organization may provide a novel mechanism for the generation of bacteriocin diversity in Klebsiella.

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The Ecology and Evolution of Microbial Defense Systems in Escherichia coli

2004

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Microbes produce an extraordinary array of microbial defense systems. These include broad-spectrum classical antibiotics critical to human health concerns; metabolic by-products, such as the lactic acids produced by lactobacilli; lytic agents, such as lysozymes found in many foods; and numerous types of protein exotoxins and bacteriocins. The abundance and diversity of this biological arsenal are clear. Lactic acid production is a defining trait of lactic acid bacteria. Bacteriocins are found in almost every bacterial species examined to date, and within a species, tens or even hundreds of different kinds of bacteriocins are produced. Halobacteria universally produce their own version of bacteriocins, the halocins. Streptomycetes commonly produce broad-spectrum antibiotics. It is clear that microbes invest considerable energy in the production and elaboration of antimicrobial mechanisms. What is less clear is how such diversity arose and what roles these biological weapons play in microbial communities. One family of microbial defense systems, the bacteriocins, has served as a model for exploring evolutionary and ecological questions. In this review, current knowledge of how the extraordinary range of bacteriocin diversity arose and is maintained in one species of bacteria, Escherichia coli, is assessed and the role these toxins play in mediating microbial dynamics is discussed.

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The Ecology and Evolution of Microbial Defense Systems inEscherichia coli

Riley¹,

Wertz²,

Goldstone³

2004

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Carla Goldstone

A molecular phylogeny of enteric bacteria and implications for a bacterial species concept

A phylogenetic approach to assessing the targets of microbial warfare

Phage Associated Bacteriocins Reveal a Novel Mechanism for Bacteriocin Diversification in Klebsiella

The Ecology and Evolution of Microbial Defense Systems in Escherichia coli

The Ecology and Evolution of Microbial Defense Systems inEscherichia coli

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