Pollution from azithromycin-manufacturing promotes macrolide-resistance gene propagation and induces spatial and seasonal bacterial community shifts in receiving river sediments

Effects of nitrogen pollution on bacterial community shifts in river sediments remain barely understood. Here, we investigated the bacterial communities in sediments of urban and suburban rivers in a highly urbanized city, Shanghai. Sediment nitrate (NO3−) and ammonia (NH4+) were highly accumulated in urban river. Operation Taxonomic Units (OTUs), Abundance-based Coverage Estimators (ACEs) and Chao 1 estimator in urban rivers were slightly lower than those in suburban rivers, while Shannon and Simpson indices were higher in urban rivers than those in suburban rivers. Proteobacteria, Firmicutes, and Bacteroidetes were the dominant bacterial phylum communities, accounting for 68.5–84.9% of all communities. In particular, the relative abundances of Firmicutes and Nitrospirae were significantly higher in suburban rivers than in urban rivers, while relative abundances of Bacteroidetes, Verrucomicrobia, and Spirochaetes were significantly lower in suburban rivers than in urban rivers. NH4+ was significantly and negatively correlated with abundances of Firmicutes, Nitrospirae, and Actinobacteria. Importantly, the significant and negative effects of sediment NH4+ on bacterial richness and diversity suggested that nitrogen pollution likely contribute to the decrease in the bacterial richness and diversity. The results highlight that nitrogen enrichment could drive the shifts of bacterial abundance and diversity in the urban river sediments where are strongly influenced by human activities under the rapid urbanization stress.

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A conjugative macrolide resistance gene,mef(A), in environmentalClostridium perfringenscarrying multiple macrolide and/or tetracycline resistance genes

Journal of Applied Microbiology ◽

10.1111/j.1365-2672.2008.03960.x ◽

2009 ◽

Vol 106 (1) ◽

pp. 34-40 ◽

Cited By ~ 31

Author(s):

O.O. Soge ◽

L.D. Tivoli ◽

J.S. Meschke ◽

M.C. Roberts

Keyword(s):

Resistance Gene ◽

Resistance Genes ◽

Tetracycline Resistance ◽

Macrolide Resistance ◽

Tetracycline Resistance Genes ◽

Macrolide Resistance Gene

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Disruption of an Enterococcus faecium Species-Specific Gene, a Homologue of Acquired Macrolide Resistance Genes of Staphylococci, Is Associated with an Increase in Macrolide Susceptibility

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.45.1.263-266.2001 ◽

2001 ◽

Vol 45 (1) ◽

pp. 263-266 ◽

Cited By ~ 49

Author(s):

Kavindra V. Singh ◽

Kumthorn Malathum ◽

Barbara E. Murray

Keyword(s):

Resistance Gene ◽

Resistance Genes ◽

Enterococcus Faecium ◽

Complete Sequence ◽

Macrolide Resistance ◽

Specific Gene ◽

Intrinsic Resistance ◽

Macrolide Resistance Gene ◽

Species Specific

ABSTRACT The complete sequence (1,479 nucleotides) of msrC, part of which was recently reported by others using a different strain, was determined. This gene was found in 233 of 233 isolates ofEnterococcus faecium but in none of 265 other enterococci. Disruption of msrC was associated with a two- to eightfold decrease in MICs of erythromycin azithromycin, tylosin, and quinupristin, suggesting that it may explain in part the apparent greater intrinsic resistance to macrolides of isolates of E. faecium relative to many streptococci. This endogenous, species-specific gene of E. faecium is 53% identical tomsr(A), suggesting that it may be a remote progenitor of the acquired macrolide resistance gene found in some isolates of staphylococci.

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Prevalence and Molecular Genetics of Macrolide Resistance among Streptococcus pneumoniae Isolates Collected in Finland in 2002

Antimicrobial Agents and Chemotherapy ◽

10.1128/aac.49.10.4180-4184.2005 ◽

2005 ◽

Vol 49 (10) ◽

pp. 4180-4184 ◽

Cited By ~ 17

Author(s):

M. Rantala ◽

S. Huikko ◽

P. Huovinen ◽

J. Jalava

Keyword(s):

Streptococcus Pneumoniae ◽

Resistance Gene ◽

Molecular Genetics ◽

Macrolide Resistance ◽

Major Group ◽

Minor Population ◽

Macrolide Resistance Gene ◽

A Minor

ABSTRACT The prevalence and mechanisms of macrolide resistance among 1,007 clinical pneumococcal isolates collected in Finland were investigated. Of these, 217 (21.5%) were resistant to erythromycin and 11% to clindamycin. Among the erythromycin-resistant isolates, mef(E) was present in 95 isolates (44%), mef(A) was present in 12 isolates (6%), and erm(B) was present in 90 isolates (41%). A double mechanism, mef(E) and erm(B), was detected in five isolates (2%). Ribosomal mutation was detected in 14 (6%) macrolide-resistant isolates in which no other determinant was found. Based on the telithromycin MICs, two groups of isolates were formed: 83.3% of the isolates belonged to a major group for which the telithromycin MIC range was ≤0.008 to 0.063 μg/ml, and 16.7% belonged to a minor group for which the telithromycin MIC range was 0.125 to 8 μg/ml. All except three isolates in the minor population carried a macrolide resistance gene.

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