| scholarly article | Q13442814 |
| P50 | author | Michael R. Gillings | Q51470263 |
| Sasha G Tetu | Q56845058 | ||
| Ian T. Paulsen | Q30347968 | ||
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| Defining the Anthropocene | Q29038521 | ||
| Altering the Intestinal Microbiota during a Critical Developmental Window Has Lasting Metabolic Consequences | Q29394736 | ||
| An ecological and evolutionary perspective on human-microbe mutualism and disease | Q29614265 | ||
| The human microbiome: at the interface of health and disease | Q29614801 | ||
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| Ingestion of Lactobacillus strain regulates emotional behavior and central GABA receptor expression in a mouse via the vagus nerve | Q29616854 | ||
| Normal gut microbiota modulates brain development and behavior | Q29616855 | ||
| Origins and evolution of antibiotic resistance | Q29617791 | ||
| Incomplete recovery and individualized responses of the human distal gut microbiota to repeated antibiotic perturbation | Q29617796 | ||
| Movement of IS26-associated antibiotic resistance genes occurs via a translocatable unit that includes a single IS26 and preferentially inserts adjacent to another IS26. | Q30858027 | ||
| Microbial DNA records historical delivery of anthropogenic mercury | Q30968495 | ||
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| The evolution of class 1 integrons and the rise of antibiotic resistance | Q33335636 | ||
| Mobile antibiotic resistance encoding elements promote their own diversity | Q33519503 | ||
| Short-term antibiotic treatment has differing long-term impacts on the human throat and gut microbiome | Q33547430 | ||
| Transposon Tn21, flagship of the floating genome | Q33728768 | ||
| Integrons: past, present, and future. | Q33743517 | ||
| Incidence of class 1 integrons in a quaternary ammonium compound-polluted environment | Q33770001 | ||
| The shared antibiotic resistome of soil bacteria and human pathogens | Q33804392 | ||
| Tipping elements in the human intestinal ecosystem | Q33915072 | ||
| Humans as the world's greatest evolutionary force | Q33954568 | ||
| Incidence of class 1 and 2 integrases in clinical and commensal bacteria from livestock, companion animals, and exotics. | Q33981591 | ||
| Transposons Tn1696 and Tn21 and their integrons In4 and In2 have independent origins | Q33981966 | ||
| Strain-resolved community genomic analysis of gut microbial colonization in a premature infant | Q34156912 | ||
| Prokaryote genome fluidity: toward a system approach of the mobilome. | Q34238543 | ||
| Genomic variation landscape of the human gut microbiome | Q34316353 | ||
| Gut-brain axis: how the microbiome influences anxiety and depression | Q34326411 | ||
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| Insights from characterizing extinct human gut microbiomes | Q34516183 | ||
| A guide to enterotypes across the human body: meta-analysis of microbial community structures in human microbiome datasets | Q34550721 | ||
| Introduction of biocides into clinical practice and the impact on antibiotic-resistant bacteria | Q34631478 | ||
| The microbial engines that drive Earth's biogeochemical cycles. | Q34780678 | ||
| Environmental and gut bacteroidetes: the food connection. | Q35084646 | ||
| Gut microbiome of the Hadza hunter-gatherers | Q35148961 | ||
| Dietary effects on human gut microbiome diversity | Q35512541 | ||
| The gut microbiota of rural papua new guineans: composition, diversity patterns, and ecological processes. | Q35609530 | ||
| Identifying personal microbiomes using metagenomic codes | Q35627668 | ||
| Persistence of resistant Staphylococcus epidermidis after single course of clarithromycin | Q35847429 | ||
| The microbiome of uncontacted Amerindians | Q35897279 | ||
| Studying plasmid horizontal transfer in situ: a critical review | Q36247073 | ||
| Xenobiotics shape the physiology and gene expression of the active human gut microbiome | Q36554412 | ||
| Evolutionary consequences of antibiotic use for the resistome, mobilome and microbial pangenome | Q36576233 | ||
| Four genes, two ends, and a res region are involved in transposition of Tn5053: a paradigm for a novel family of transposons carrying either a mer operon or an integron | Q36794970 | ||
| Gene cassettes and cassette arrays in mobile resistance integrons. | Q37470852 | ||
| Call of the wild: antibiotic resistance genes in natural environments | Q37700168 | ||
| Sequencing ancient calcified dental plaque shows changes in oral microbiota with dietary shifts of the Neolithic and Industrial revolutions | Q37718278 | ||
| Long-term impacts of antibiotic exposure on the human intestinal microbiota | Q37779673 | ||
| Lateral genetic transfer and the construction of genetic exchange communities | Q37827559 | ||
| Gene flow, mobile genetic elements and the recruitment of antibiotic resistance genes into Gram-negative pathogens | Q37868656 | ||
| Trends and barriers to lateral gene transfer in prokaryotes | Q37920344 | ||
| Are humans increasing bacterial evolvability? | Q37998201 | ||
| Rapid evolution and spread of carbapenemases among Enterobacteriaceae in Europe | Q38002952 | ||
| The role of international travel in the worldwide spread of multiresistant Enterobacteriaceae | Q38017141 | ||
| The antibiotic resistome | Q38029141 | ||
| Context matters - the complex interplay between resistome genotypes and resistance phenotypes | Q38041318 | ||
| Global spread of antibiotic resistance: the example of New Delhi metallo-β-lactamase (NDM)-mediated carbapenem resistance | Q38074871 | ||
| The antibiotic resistome: what's new? | Q38256461 | ||
| Tn6026 and Tn6029 are found in complex resistance regions mobilised by diverse plasmids and chromosomal islands in multiple antibiotic resistant Enterobacteriaceae | Q38445252 | ||
| Sampling the antibiotic resistome | Q40357052 | ||
| Mobilization of a Tn402-like class 1 integron with a novel cassette array via flanking miniature inverted-repeat transposable element-like structures. | Q42121026 | ||
| Networks of gene sharing among 329 proteobacterial genomes reveal differences in lateral gene transfer frequency at different phylogenetic depths | Q42573241 | ||
| 'Fire at will': the emergence of habitual fire use 350,000 years ago. | Q42695541 | ||
| Class 1 integrons in benthic bacterial communities: abundance, association with Tn402-like transposition modules and evidence for coselection with heavy-metal resistance. | Q43168574 | ||
| Influence of industrial contamination on mobile genetic elements: class 1 integron abundance and gene cassette structure in aquatic bacterial communities | Q43168810 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | agriculture | Q11451 |
| P6104 | maintained by WikiProject | WikiProject Ecology | Q10818384 |
| P304 | page(s) | 841-57 | |
| P577 | publication date | 2015-01-01 | |
| P1433 | published in | Genes | Q5532699 |
| P1476 | title | Ecology and Evolution of the Human Microbiota: Fire, Farming and Antibiotics | |
| P478 | volume | 6 |
| Q47575117 | Discovery of the fourth mobile sulfonamide resistance gene. |
| Q38808071 | Genomics and the evolution of antibiotic resistance |
| Q92023546 | Global change microbiology - big questions about small life for our future |
| Q46090917 | High Throughput Sequencing for Detection of Foodborne Pathogens. |
| Q52320804 | Hologenomics: Systems-Level Host Biology. |
| Q40515882 | Lateral gene transfer, bacterial genome evolution, and the Anthropocene |
| Q42381051 | Reflections from Infection Prevention 2015: beating the bugs, improving the systems and thinking outside the box |
| Q63379892 | The Extended Genotype: Microbially Mediated Olfactory Communication |
| Q50114162 | The analysis of the oral DNA virome reveals which viruses are widespread and rare among healthy young adults in Valencia (Spain). |
| Q39447483 | The mother-offspring dyad: microbial transmission, immune interactions and allergy development |
| Q46458785 | The oral microbiome - an update for oral healthcare professionals. |
| Q54975642 | Thermal processing of food reduces gut microbiota diversity of the host and triggers adaptation of the microbiota: evidence from two vertebrates. |
| Q59795189 | Understanding the Anthropocene through the lens of landfill microbiomes |
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