| Literature DB >> 30067975 |
Kang Kang1, Yueqiong Ni1, Jun Li1, Lejla Imamovic2, Chinmoy Sarkar3, Marie Danielle Kobler4, Yoshitaro Heshiki1, Tingting Zheng1, Sarika Kumari3, Jane Ching Yan Wong5, Anand Archna5, Cheong Wai Martin Wong5, Caroline Dingle6, Seth Denizen7, David Michael Baker5, Morten Otto Alexander Sommer2, Christopher John Webster3, Gianni Panagiotou8.
Abstract
The skin functions as the primary interface between the human body and the external environment. To understand how the microbiome varies within urban mass transit and influences the skin microbiota, we profiled the human palm microbiome after contact with handrails within the Hong Kong Mass Transit Railway (MTR) system. Intraday sampling time was identified as the primary determinant of the variation and recurrence of the community composition, whereas human-associated species and clinically important antibiotic resistance genes (ARGs) were captured as p.m. signatures. Line-specific signatures were notably correlated with line-specific environmental exposures and city characteristics. The sole cross-border line appeared as an outlier in most analyses and showed high relative abundance and a significant intraday increment of clinically important ARGs (24.1%), suggesting potential cross-border ARG transmission, especially for tetracycline and vancomycin resistance. Our study provides an important reference for future public health strategies to mitigate intracity and cross-border pathogen and ARG transmission.Entities:
Keywords: ARG; ARG transmission; Metro system; antibiotic resistance gene; metagenomics; microbial signature; microbiome; recurrence; skin
Mesh:
Year: 2018 PMID: 30067975 DOI: 10.1016/j.celrep.2018.06.109
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423