Abundance and Distribution of Tetracycline Resistance Genes and Mobile Elements in an Oxytetracycline Production Wastewater Treatment System

We investigated the abundance and distribution of tetracycline resistance genes (tet genes) in an oxytetracycline (OTC) antibiotic production wastewater (APW) treatment system. Of sixteen tet genes and five mobile elements, nine tet genes (tet(A), tet(C), tet(G), tet(L), tet(M), tet(O), tet(Q), tet(...

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Bibliographic Details
Published in:Environmental science & technology 2012-07, Vol.46 (14), p.7551-7557
Main Authors: Liu, Miaomiao, Zhang, Yu, Yang, Min, Tian, Zhe, Ren, Liren, Zhang, Shujun
Format: Article
Language:English
Subjects:
Anti-Bacterial Agents - chemical synthesis
Antibiotics
Applied sciences
Biological and medical sciences
Biological treatment of waters
Biotechnology
Cloning, Molecular
Correlation analysis
Environment and pollution
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
Gene Library
General purification processes
Genes
Genes, Bacterial - genetics
Gram-Negative Bacteria - genetics
Gram-Positive Bacteria - genetics
Industrial applications and implications. Economical aspects
Interspersed Repetitive Sequences - genetics
Molecular Sequence Data
Oxytetracycline - chemical synthesis
Phylogeny
Pollution
RNA, Ribosomal, 16S - genetics
Sludge
Tetracycline Resistance - genetics
Waste Disposal, Fluid
Wastewaters
Water Microbiology
Water Purification
Water treatment
Water treatment and pollution
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Summary:We investigated the abundance and distribution of tetracycline resistance genes (tet genes) in an oxytetracycline (OTC) antibiotic production wastewater (APW) treatment system. Of sixteen tet genes and five mobile elements, nine tet genes (tet(A), tet(C), tet(G), tet(L), tet(M), tet(O), tet(Q), tet(W), and tet(X)) and two mobile elements (class 1 integron (intI1) and transposon Tn916/1545) were successfully quantified by real-time PCR. The relative abundance of tet genes in the effluent and activated sludge (1.2 × 10–4 to 1.3 × 100) of the APW treatment system were up to 2 orders of magnitude higher than those in the OTC fermentation residues (8.5 × 10–5 to 6.7 × 10–3) (P < 0.01), and 1–4 orders of magnitude higher than those in sewage and nonantibiotic production wastewater treatment systems (P < 0.01), showing that the discharge of abundant tet genes from the APW treatment system is worthy of attention. The three most abundant genes in the APW treatment system, tet(A), tet(C), and tet(G), exhibited significant positive correlations with intI1 (R 2 = 0.73, 0.95, and 0.83, respectively; P < 0.05), suggesting that intI1 may be involved in their proliferation. This is the first study showing that some measures may be required to control the discharge of antibiotic resistance genes from treated APW and activated sludge.
ISSN:0013-936X
1520-5851
DOI:10.1021/es301145m