E. S. Kalyaeva scite author profile

Horizontal dissemination of the genes responsible for resistance to toxic pollutants may play a key role in the adaptation of bacterial populations to environmental contaminants. However, the frequency and extent of gene dissemination in natural environments is not known. A natural horizontal spread of two distinct mercury resistance (mer) operon variants, which occurred amongst diverse Bacillus and related species over wide geographical areas, is reported. One mer variant encodes a mercuric reductase with a single N-terminal domain, whilst the other encodes a reductase with a duplicated Nterminal domain. The strains containing the former mer operon types are sensitive to organomercurials, and are most common in the terrestrial mercury-resistant Bacillus populations studied in this work. The strains containing the latter operon types are resistant to organomercurials, and dominate in a Minamata Bay mercury-resistant Bacillus population, previously described in the literature. A t least three distinct transposons (related to a class II vancomycin-resistance transposon, Tn1546, from a clinical Enterococcus strain) and conjugative plasmids are implicated as mediators of the spread of these mer operons.

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Intercontinental spread of promiscuous mercury‐resistance transposons in environmental bacteria

Yurieva

Kholodii

Minakhin

et al. 1997

Molecular Microbiology

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SummaryWe demonstrate that horizontal spread of mer operons similar to worldwide spread of antibiotic-resistance genes in medically important bacteria occurred in bacteria found in ores, soils and waters. The spread was mediated by different transposons and plasmids. Some of the spreading transposons were damaged in different ways but this did not prevent their further spread. Certain transposons are mosaics composed of segments belonging to distinct sequence types. These mosaics arose as a result of homologous and site-specific recombination. Our data suggest that the mercury-resistance operons of Gram-negative environmental bacteria can be considered as a worldwide population composed of a relatively small number of distinct recombining clones shared, at least partially, by environmental and clinical bacteria.

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The diversity of mercury reductases among mercury‐resistant bacteria

1988

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Two immunologically non‐cross‐reactive types of mercury reductases were found among Gram‐negative and two among Gram‐positive mercury‐resistant environmental bacteria. Mercury reductases were further discriminated by ‘spur’ formation immunodiffusion tests. Immunologically indistinguishable mercury reductases were found among strains belonging to phylogenetically distant genera. This suggests a horizontal transfer of mercury resistance genes between these strains.

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Mindlin

Bass

Gorlenko

et al. 2002

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E. S. Kalyaeva

Mercury resistance transposons of Gram-negative environmental bacteria and their classification

Horizontal spread of mer operons among Gram-positive bacteria in natural environments

Intercontinental spread of promiscuous mercury‐resistance transposons in environmental bacteria

The diversity of mercury reductases among mercury‐resistant bacteria

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