Single gene targeted nanopore sequencing enables simultaneous identification and antimicrobial resistance detection of sexually transmitted infections

Zhou, Lei; Rodas, Andrea Lopez; Llangarí, Luz Marina; Sandoval, Natalia Romero; Cooper, Philip J.; Sadiq, ST

doi:10.1371/journal.pone.0262242

Cited by 6 publications

(5 citation statements)

References 30 publications

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“…WGS has also resulted in new understandings of genetic recombination within species (but also interspecies) and has highlighted the issues around single gene sequencing to predict species evolution. In addition to enriching our understanding of Chlamydia , advances in genomics provides opportunities for rapid diagnosis of chlamydial infections and antimicrobial resistance detection using targeted single-gene nanopore sequencing or direct metagenome sequencing ( Gu et al., 2020 ; Zhou et al., 2022 ). The advantages of using genomics for diagnosis is the ability to reveal the presence or absence of different virulence and antimicrobial-resistant genes, plasmids or important lineage/phylogenetic markers that may guide treatment and/or outbreak management.…”

Section: Future Directionsmentioning

confidence: 99%

Genome organization and genomics in Chlamydia: whole genome sequencing increases understanding of chlamydial virulence, evolution, and phylogeny

Luu

Kasimov

Phillips

et al. 2023

Front. Cell. Infect. Microbiol.

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The genus Chlamydia contains important obligate intracellular bacterial pathogens to humans and animals, including C. trachomatis and C. pneumoniae. Since 1998, when the first Chlamydia genome was published, our understanding of how these microbes interact, evolved and adapted to different intracellular host environments has been transformed due to the expansion of chlamydial genomes. This review explores the current state of knowledge in Chlamydia genomics and how whole genome sequencing has revolutionised our understanding of Chlamydia virulence, evolution, and phylogeny over the past two and a half decades. This review will also highlight developments in multi-omics and other approaches that have complemented whole genome sequencing to advance knowledge of Chlamydia pathogenesis and future directions for chlamydial genomics.

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Section: Future Directionsmentioning

confidence: 99%

Genome organization and genomics in Chlamydia: whole genome sequencing increases understanding of chlamydial virulence, evolution, and phylogeny

Luu

Kasimov

Phillips

et al. 2023

Front. Cell. Infect. Microbiol.

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“…> 20 mapped read pairs per million read pairs (rM) [ 27 ], > 50 reads [ 28 ], > 10 reads per million (RPM) ratio metric [ 29 ] and > 500 reads [ 30 ]) to limit the over-interpretation of low abundance microorganisms. A recent study using single gene targeted nanopore sequencing provided evidence that the samples having < 20 reads generally had a low load of pathogen [ 31 ]. Similarly, in our study, the cut-off value for the positive diagnosis was 20 reads.…”

Section: Discussionmentioning

confidence: 99%

The diagnostic utility of nanopore targeted sequencing in suspected endophthalmitis

Wang

et al. 2023

Int Ophthalmol

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Purpose This paper aimed to assess the diagnostic utility of a newly developed gene-based technology-nanopore targeted sequencing (NTS) in suspected endophthalmitis patients. Methods This retrospective study included 43 patients (44 eyes) with suspected endophthalmitis. NTS was applied along with microbiological culture to detect unknown pathogens in intraocular fluid samples. The diagnostic utility of NTS was mainly evaluated from three aspects, including the positivity rate of bacterial/fungal presence, diagnostic turnaround time and the frequency of change in treatment based on etiology test results. Non-parametric, two-sided Wilcoxon rank sum test, the McNemar’s test and the kappa statistic were used for statistical comparisons. Results NTS showed significant advantages over traditional culture in positivity rates and diagnostic time (P < 0.001, kappa = 0.082; Z = −5.805, P < 0. 001). As regards antibiotic strategy, 17 patients (39.53%) and 5 patients (11.63%) underwent medication change following NTS and culture results respectively (P < 0.001, kappa = 0.335). With reasonable use of antibiotic and surgical intervention, most patients responded favorably, judged by significantly improved visual acuity (Z = −4.249, P < 0.001). The mean duration of hospitalization was 8.49 ± 2.45 days (range, 1–16 days). Conclusion The high efficiency feature of NTS in pathogen detection renders it a valuable supplementary to traditional culture. Additionally, it has facilitated patients’ management for the early and precise diagnosis of endophthalmitis.

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“…The twelve resultant Fast Q files from sequencing were processed individually following similar methods as Solcova et al (2021) and Zhou et al (2022). The 16S rRNA workflow from Fastq WIMP (v2021.03.05) software was utilized to obtain bacterial species identification.…”

Section: Methodsmentioning

confidence: 99%

Biological and synthetic surfactant exposure increases antimicrobial gene occurrence in a freshwater mixed microbial biofilm environment

Gill¹,

Snelling

Dooley

et al. 2023

MicrobiologyOpen

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Single gene targeted nanopore sequencing enables simultaneous identification and antimicrobial resistance detection of sexually transmitted infections

Cited by 6 publications

References 30 publications

Genome organization and genomics in Chlamydia: whole genome sequencing increases understanding of chlamydial virulence, evolution, and phylogeny

Genome organization and genomics in Chlamydia: whole genome sequencing increases understanding of chlamydial virulence, evolution, and phylogeny

The diagnostic utility of nanopore targeted sequencing in suspected endophthalmitis

Biological and synthetic surfactant exposure increases antimicrobial gene occurrence in a freshwater mixed microbial biofilm environment

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