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High resolution metagenomic characterization of complex infectomes in paediatric acute respiratory infection

The diversity of pathogens associated with acute respiratory infection (ARI) makes diagnosis challenging. Traditional pathogen screening tests have a limited detection range and provide little additional information. We used total RNA sequencing (“meta-transcriptomics”) to reveal the full spectrum o...

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Published in:	Scientific reports 2020-03, Vol.10 (1), p.3963, Article 3963
Main Authors:	Li, Ci-Xiu, Li, Wei, Zhou, Jun, Zhang, Bing, Feng, Yan, Xu, Chang-Ping, Lu, Yi-Yu, Holmes, Edward C., Shi, Mang
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Language:	English
Subjects:	45 45/90 45/91 631/326/596/2142 692/699/255/2514 Abundance Antimicrobial resistance Bacteria Bacteria - classification Bacteria - genetics Bacteria - pathogenicity Concurrent infection DNA viruses DNA Viruses - classification DNA Viruses - genetics DNA Viruses - pathogenicity Drug Resistance, Microbial - genetics Epidemiology Female Fungi Fungi - classification Fungi - genetics Fungi - pathogenicity Genomes Genotypes Humanities and Social Sciences Humans Infections Male Metagenome - genetics Metagenomics multidisciplinary Nucleotide sequence Pathogens Phylogeny Respiratory diseases Respiratory tract infection Respiratory Tract Infections - microbiology Respiratory Tract Infections - virology RNA viruses RNA Viruses - classification RNA Viruses - genetics RNA Viruses - pathogenicity Science Science (multidisciplinary) Species diversity Transcriptomics Viruses - classification Viruses - genetics Viruses - pathogenicity
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description	The diversity of pathogens associated with acute respiratory infection (ARI) makes diagnosis challenging. Traditional pathogen screening tests have a limited detection range and provide little additional information. We used total RNA sequencing (“meta-transcriptomics”) to reveal the full spectrum of microbes associated with paediatric ARI. Throat swabs were collected from 48 paediatric ARI patients and 7 healthy controls. Samples were subjected to meta-transcriptomics to determine the presence and abundance of viral, bacterial, and eukaryotic pathogens, and to reveal mixed infections, pathogen genotypes/subtypes, evolutionary origins, epidemiological history, and antimicrobial resistance. We identified 11 RNA viruses, 4 DNA viruses, 4 species of bacteria, and 1 fungus. While most are known to cause ARIs, others, such as echovirus 6, are rarely associated with respiratory disease. Co-infection of viruses and bacteria and of multiple viruses were commonplace (9/48), with one patient harboring 5 different pathogens, and genome sequence data revealed large intra-species diversity. Expressed resistance against eight classes of antibiotic was detected, with those for MLS, Bla, Tet, Phe at relatively high abundance. In summary, we used a simple total RNA sequencing approach to reveal the complex polymicrobial infectome in ARI. This provided comprehensive and clinically informative information relevant to understanding respiratory disease.
doi_str_mv	10.1038/s41598-020-60992-6
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Expressed resistance against eight classes of antibiotic was detected, with those for MLS, Bla, Tet, Phe at relatively high abundance. In summary, we used a simple total RNA sequencing approach to reveal the complex polymicrobial infectome in ARI. 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Traditional pathogen screening tests have a limited detection range and provide little additional information. We used total RNA sequencing (“meta-transcriptomics”) to reveal the full spectrum of microbes associated with paediatric ARI. Throat swabs were collected from 48 paediatric ARI patients and 7 healthy controls. Samples were subjected to meta-transcriptomics to determine the presence and abundance of viral, bacterial, and eukaryotic pathogens, and to reveal mixed infections, pathogen genotypes/subtypes, evolutionary origins, epidemiological history, and antimicrobial resistance. We identified 11 RNA viruses, 4 DNA viruses, 4 species of bacteria, and 1 fungus. While most are known to cause ARIs, others, such as echovirus 6, are rarely associated with respiratory disease. Co-infection of viruses and bacteria and of multiple viruses were commonplace (9/48), with one patient harboring 5 different pathogens, and genome sequence data revealed large intra-species diversity. Expressed resistance against eight classes of antibiotic was detected, with those for MLS, Bla, Tet, Phe at relatively high abundance. In summary, we used a simple total RNA sequencing approach to reveal the complex polymicrobial infectome in ARI. This provided comprehensive and clinically informative information relevant to understanding respiratory disease.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>32127629</pmid><doi>10.1038/s41598-020-60992-6</doi><orcidid>https://orcid.org/0000-0001-9596-3552</orcidid><orcidid>https://orcid.org/0000-0002-6154-4437</orcidid><orcidid>https://orcid.org/0000-0001-6911-9489</orcidid><oa>free_for_read</oa></addata></record>
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subjects	45 45/90 45/91 631/326/596/2142 692/699/255/2514 Abundance Antimicrobial resistance Bacteria Bacteria - classification Bacteria - genetics Bacteria - pathogenicity Concurrent infection DNA viruses DNA Viruses - classification DNA Viruses - genetics DNA Viruses - pathogenicity Drug Resistance, Microbial - genetics Epidemiology Female Fungi Fungi - classification Fungi - genetics Fungi - pathogenicity Genomes Genotypes Humanities and Social Sciences Humans Infections Male Metagenome - genetics Metagenomics multidisciplinary Nucleotide sequence Pathogens Phylogeny Respiratory diseases Respiratory tract infection Respiratory Tract Infections - microbiology Respiratory Tract Infections - virology RNA viruses RNA Viruses - classification RNA Viruses - genetics RNA Viruses - pathogenicity Science Science (multidisciplinary) Species diversity Transcriptomics Viruses - classification Viruses - genetics Viruses - pathogenicity
title	High resolution metagenomic characterization of complex infectomes in paediatric acute respiratory infection
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