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Distribution of the pco Gene Cluster and Associated Genetic Determinants among Swine Escherichia coli from a Controlled Feeding Trial

机译：猪大肠杆菌对照饲喂试验中pco基因簇和相关遗传决定子的分布

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摘要

Copper is used as an alternative to antibiotics for growth promotion and disease prevention. However, bacteria developed tolerance mechanisms for elevated copper concentrations, including those encoded by the pco operon in Gram-negative bacteria. Using cohorts of weaned piglets, this study showed that the supplementation of feed with copper concentrations as used in the field did not result in a significant short-term increase in the proportion of pco-positive fecal Escherichia coli. The pco and sil (silver resistance) operons were found concurrently in all screened isolates, and whole-genome sequencing showed that they were distributed among a diversity of unrelated E. coli strains. The presence of pco/sil in E. coli was not associated with elevated copper minimal inhibitory concentrations (MICs) under a variety of conditions. As found in previous studies, the pco/sil operons were part of a Tn7-like structure found both on the chromosome or on plasmids in the E. coli strains investigated. Transfer of a pco/sil IncHI2 plasmid from E. coli to Salmonella enterica resulted in elevated copper MICs in the latter. Escherichia coli may represent a reservoir of pco/sil genes transferable to other organisms such as S. enterica, for which it may represent an advantage in the presence of copper. This, in turn, has the potential for co-selection of resistance to antibiotics.

机译：铜被用作抗生素的替代品，以促进生长和预防疾病。但是，细菌开发了对铜浓度升高的耐受机制，包括革兰氏阴性细菌中pco操纵子编码的那些。使用一组断奶仔猪，该研究表明，在田间使用铜浓度补充饲料不会导致pco阳性粪便大肠杆菌比例的短期显着增加。在所有筛选出的菌株中同时发现了pco和sil（银抗性）操纵子，全基因组测序表明它们分布在各种无关的大肠杆菌菌株中。在多种条件下，大肠杆菌中pco / sil的存在与铜最低抑菌浓度（MIC）的升高无关。正如先前的研究发现，pco / sil操纵子是Tn7样结构的一部分，该结构在研究的大肠杆菌菌株的染色体或质粒上均发现。将pco / sil IncHI2质粒从大肠杆菌转移到沙门氏菌（Salmonella enterica ）中导致铜MIC升高。大肠杆菌可能代表可转移至其他生物（例如 S）的 pco / sil 基因。肠，在铜的存在下它可能代表一种优势。反过来，这有可能共同选择对抗生素的抗性。 展开▼

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期刊名称 Genes

作者
Gabhan Chalmers; Kelly M. Rozas; Raghavendra G. Amachawadi; Harvey Morgan Scott; Keri N. Norman; Tiruvoor G. Nagaraja; Mike D. Tokach; Patrick Boerlin;
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作者单位

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年(卷),期 2018(9),10

年度 2018

页码 504

总页数 15

原文格式 PDF

正文语种

中图分类生化遗传学;生化药理学;

关键词
copper resistance swine Escherichia coli;

机译：铜;抗性;猪;大肠杆菌;

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专利

1. Distribution of the pco Gene Cluster and Associated Genetic Determinants among Swine Escherichia coli from a Controlled Feeding Trial [J] . Gabhan Chalmers, Kelly M. Rozas, Raghavendra G. Amachawadi, Genes . 2018,第10期

机译：猪大肠杆菌对照饲喂试验中pco基因簇和相关遗传决定子的分布

2. Ecological and genetic determinants of plasmid distribution in Escherichia coli [J] . Medaney Frances, Ellis Richard J., Raymond Ben Environmental microbiology . 2016,第11期

机译：大肠杆菌中质粒分布的生态和遗传决定因素

3. Chromosomal Regions Specific to Pathogenic Isolates of Escherichia coli Have a Phylogenetically Clustered Distribution [J] . E. Fidelma Boyd, Daniel L. Hartl Journal of bacteriology . 1998,第5期

机译：特异于大肠杆菌病原体的染色体区域具有系统发育上的簇状分布

4. Epigenetic memory of p-pili expression controlled by pap operon in Uropathogen Escherichia coli [C] . Hong Kang, Yang Li, Huaiqiu Zhu 4th Chinese conference on bioinformatics and systems biology. . 2010

机译：操纵子操纵子控制的p-菌毛表达的表观遗传记忆在致病性大肠杆菌中

5. Studies on Salmonella enterica and Escherichia coli with a focus on ceftiofur and the genetic resistance determinant blaCMY-2 [D] . Heider, Luke Christian 2011

机译：肠沙门氏菌和大肠杆菌的研究，重点是头孢噻呋和遗传抗性决定因子blaCMY-2

6. Chromosomal Regions Specific to Pathogenic Isolates of Escherichia coli Have a Phylogenetically Clustered Distribution [O] . E. Fidelma Boyd, Daniel L. Hartl 1998

机译：特异于大肠杆菌病原体的染色体区域具有系统发育上的簇状分布

7. Distribution of the pco Gene Cluster and Associated Genetic Determinants among Swine Escherichia coli from a Controlled Feeding Trial [O] . Gabhan Chalmers, Kelly Rozas, Raghavendra Amachawadi, 2018

机译：来自受控喂养试验的PCO基因群和猪大肠杆菌中的相关遗传决定蛋白的分布

8. "Studies on the nature of the genetic material transferred during conjugation in Escherichia coli." and "Genetic and biochemical studies on the cell-free formation of tryptophan synthetase in Escherichia coli." [R] . 1963

机译：“在大肠杆菌结合过程中转移的遗传物质的性质研究。”和“在大肠杆菌中无色素形成色氨酸合成酶的遗传和生化研究”。

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机译：基于基因治疗DNA载体VTVAF17的基因治疗DNA载体，携带选自基因ANG，ANGPT1，VEGFA，FGF1，HIF1α，HGF，SDF1，KLK4，PDGFC，PROK1，PROK2表达的靶基因所述的靶标基因，其生产和使用方法，应变大肠埃希氏菌SCS110-AF / VTVAF17-ANG或大肠埃希氏菌SCS110-AF / VTVAF17-ANGPT1或大肠埃希氏菌SCS110-AF / VTVAF17-VEGFA或大肠埃希氏菌SCS110-AF / VTVAF17-FGF1，或大肠埃希氏菌SCS110-AF / VTVAF17-HIF1A，或大肠埃希氏菌COLI SCS110-AF / VTVAF17-HGF，或大肠埃希氏菌SCS110-AF / VTVAF17-SDF1，或大肠埃希氏菌SCS110-AF / VTVAF17-KLK4，大肠埃希氏菌SCS110-AF / VTVAF17-PDGFC或大肠埃希氏菌SCS110-AF / VTVAF17-PROK2，携带基因-治疗性DNA载体，生产方法，工业生产方法-治疗性DNA载体

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机译：基于VTvaf17基因治疗DNA载体的基因治疗DNA载体，其携带选自ANG，ANGPT1，VEGFA，FGF1，HIF1α，HGF，SDF1，KLK4，PDGFC，PROK1，PROK2的靶基因以增加这些靶标的表达水平基因，方法的制备和使用，大肠杆菌菌株SCS110-AF / VTvaf17-ANG或大肠杆菌SCS110-AF / VTvaf17-ANGPT1或大肠杆菌SCS110-AF / VTvaf17-VEGFA或大肠杆菌SCS110-AF / VTvaf17-Fichia-SC110 AF /VTvaf17-HIF1α或大肠杆菌SCS110-AF / VTvaf17-HGF或大肠杆菌SCS110-AF / VTvaf17-SDF1或大肠杆菌SCS110-AF / VTvaf17-KLK4或大肠杆菌SCS110-AF / VTviFi10 S1携带基因治疗DNA载体的大肠杆菌SCS110-AF / VTvaf17-PROK2，其制备方法，工业生产基因治疗DNA载体的方法

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Distribution of the pco Gene Cluster and Associated Genetic Determinants among Swine Escherichia coli from a Controlled Feeding Trial

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