Dissemination of antibiotic resistance genes from antibiotic producers to pathogens
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S. Lee | Xinglin Jiang | M. Ellabaan | Pep Charusanti | Christian Munck | K. Blin | Y. Tong | T. Weber | M. Sommer
[1] J Davies,et al. Aminoglycoside antibiotic-inactivating enzymes in actinomycetes similar to those present in clinical isolates of antibiotic-resistant bacteria. , 1973, Proceedings of the National Academy of Sciences of the United States of America.
[2] M. Forsman,et al. Molecular analysis of beta-lactamases from four species of Streptomyces: comparison of amino acid sequences with those of other beta-lactamases. , 1990, Journal of general microbiology.
[3] E. Gormley,et al. Transfer of plasmid RSF1010 by conjugation from Escherichia coli to Streptomyces lividans and Mycobacterium smegmatis , 1991, Journal of bacteriology.
[4] H. Schrempf,et al. An amplifiable and deletable chloramphenicol‐resistance determinant of Streptomyces lividans 1326 encodes a putative transmembrane protein , 1991, Molecular microbiology.
[5] J. Kalinowski,et al. Corynebacterium striatum chloramphenicol resistance transposon Tn5564: genetic organization and transposition in Corynebacterium glutamicum. , 1998, Plasmid.
[6] G. Wright,et al. Glycopeptide Antibiotic Resistance Genes in Glycopeptide-Producing Organisms , 1998, Antimicrobial Agents and Chemotherapy.
[7] R. Hall,et al. Family of Class 1 Integrons Related to In4 from Tn1696 , 2001, Antimicrobial Agents and Chemotherapy.
[8] P. Wiener,et al. Phylogeny of Streptomyces species and evidence for horizontal transfer of entire and partial antibiotic gene clusters , 2001, Antonie van Leeuwenhoek.
[9] D. Hughes,et al. Sampling the Antibiotic Resistome , 2006, Science.
[10] Grace Yim,et al. Antibiotics as signalling molecules , 2007, Philosophical Transactions of the Royal Society B: Biological Sciences.
[11] Gerard D. Wright. The antibiotic resistome: the nexus of chemical and genetic diversity , 2007, Nature Reviews Microbiology.
[12] H. Rogers,et al. Transformation of Acinetobacter baylyi in non-sterile soil using recombinant plant nuclear DNA. , 2007, Environmental biosafety research.
[13] Mihai Pop,et al. ARDB—Antibiotic Resistance Genes Database , 2008, Nucleic Acids Res..
[14] V. Makarenkov,et al. Inferring and validating horizontal gene transfer events using bipartition dissimilarity. , 2010, Systematic biology.
[15] Romain Chayot,et al. An end-joining repair mechanism in Escherichia coli , 2010, Proceedings of the National Academy of Sciences.
[16] Steven H. Hinrichs,et al. RAIphy: Phylogenetic classification of metagenomics samples using iterative refinement of relative abundance index profiles , 2011, BMC Bioinformatics.
[17] Paramvir S. Dehal,et al. FastTree 2 – Approximately Maximum-Likelihood Trees for Large Alignments , 2010, PloS one.
[18] Tal Dagan,et al. Trends and barriers to lateral gene transfer in prokaryotes. , 2011, Current opinion in microbiology.
[19] J. E. Rogers,et al. The Shared Antibiotic Resistome of Soil Bacteria and Human Pathogens , 2012 .
[20] M. Cassini,et al. Class 1 Integrons in Environments with Different Degrees of Urbanization , 2012, PloS one.
[21] W. F. Fricke,et al. Natural Transformation Facilitates Transfer of Transposons, Integrons and Gene Cassettes between Bacterial Species , 2012, PLoS pathogens.
[22] Gerard D. Wright. The origins of antibiotic resistance. , 2012, Handbook of experimental pharmacology.
[23] M. Sommer,et al. Context matters - the complex interplay between resistome genotypes and resistance phenotypes. , 2012, Current opinion in microbiology.
[24] K. Katoh,et al. MAFFT Multiple Sequence Alignment Software Version 7: Improvements in Performance and Usability , 2013, Molecular biology and evolution.
[25] Gerard D. Wright,et al. The antibiotic resistance “mobilome”: searching for the link between environment and clinic , 2013, Front. Microbiol..
[26] Andrew C. Pawlowski,et al. The Comprehensive Antibiotic Resistance Database , 2013, Antimicrobial Agents and Chemotherapy.
[27] W. Witte,et al. Antibiotic resistance. , 2013, International journal of medical microbiology : IJMM.
[28] Nicholas Waglechner,et al. Identifying producers of antibacterial compounds by screening for antibiotic resistance , 2013, Nature Biotechnology.
[29] R. Breitling,et al. Detecting Sequence Homology at the Gene Cluster Level with MultiGeneBlast , 2013, Molecular biology and evolution.
[30] G. Fichant,et al. Bacterial transformation: distribution, shared mechanisms and divergent control , 2014, Nature Reviews Microbiology.
[31] Yan Zhang,et al. PATRIC, the bacterial bioinformatics database and analysis resource , 2013, Nucleic Acids Res..
[32] Michael R Gillings,et al. Integrons: Past, Present, and Future , 2014, Microbiology and Molecular Reviews.
[33] M. Sommer. Microbiology: Barriers to the spread of resistance , 2014, Nature.
[34] Molly K. Gibson,et al. Bacterial phylogeny structures soil resistomes across habitats , 2014, Nature.
[35] Kai Blin,et al. antiSMASH 3.0—a comprehensive resource for the genome mining of biosynthetic gene clusters , 2015, Nucleic Acids Res..
[36] S. Sørensen,et al. Broad host range plasmids can invade an unexpectedly diverse fraction of a soil bacterial community , 2014, The ISME Journal.
[37] Christophe Dessimoz,et al. Inferring Horizontal Gene Transfer , 2015, PLoS Comput. Biol..
[38] Teresa M. Coque,et al. What is a resistance gene? Ranking risk in resistomes , 2014, Nature Reviews Microbiology.
[39] M. Ellabaan,et al. Limited dissemination of the wastewater treatment plant core resistome , 2015, Nature Communications.
[40] P. Bork,et al. ETE 3: Reconstruction, Analysis, and Visualization of Phylogenomic Data , 2016, Molecular biology and evolution.
[41] Sanket Patel,et al. Interconnected microbiomes and resistomes in low-income human habitats , 2016, Nature.