Publications by authors named "S Q Lee-Lin"
Human skin is stably colonized by a distinct microbiota that functions together with epidermal cells to maintain a protective physical barrier. , a prominent genus of the skin microbiota, participates in colonization resistance, tissue repair, and host immune regulation in strain-specific manners. To unlock the potential of engineering skin microbial communities, we aim to characterize the diversity of this genus within the context of the skin environment.
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- The study investigates how RAG deficiency, a genetic immune disorder, impacts the microbiome in patients, analyzing samples from skin, nares, and gut.
- It reveals that RAG-deficient individuals show a diverse range of unique bacteria, including the growth of harmful pathogens, and a reduced specificity of microbiota across different body sites compared to healthy people.
- Additionally, the research highlights that these patients may serve as reservoirs for long-lasting viral infections, documenting the presence of eukaryotic RNA viruses like Coronavirus 229E and Norovirus GII in their microbiomes.
Human skin is stably colonized by a distinct microbiota that functions together with epidermal cells to maintain a protective physical barrier. , a prominent genus of the skin microbiota, participates in colonization resistance, tissue repair, and host immune regulation in strain specific manners. To unlock the potential of engineering skin microbial communities, we aim to fully characterize the functional diversity of this genus within the context of the skin environment.
View Article and Find Full Text PDFAntibiotics, which are used both to prevent and to treat infections, are a mainstay therapy for lifesaving procedures such as transplantation. For this reason, and many others, increased antibiotic resistance among human-associated pathogens, such as the carbapenem-resistant species, is of grave concern. In this study, we report on a hematopoietic stem cell transplant recipient in whom cultures detected the emergence of carbapenem resistance and spread across five strains of bacteria that persisted for over a year.
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- In 2016, an investigation was launched following a cluster of Sphingomonas infections in hospitalized patients, highlighting plumbing systems as potential reservoirs for pathogens.
- Whole-genome DNA sequencing revealed that while some Sphingomonas koreensis isolates from patients were unrelated, a majority showed high genetic similarity and multi-drug resistance, indicating a persistent strain in the hospital's plumbing system.
- The study concluded that S. koreensis is an opportunistic pathogen that poses ongoing risks in healthcare settings, prompting targeted remediation efforts based on genetic analysis and microbial culturing.