Rapid identification and phylogenetic classification of diverse bacterial pathogens in a multiplexed hybridization assay targeting ribosomal RNA

Roby P. Bhattacharyya(Broad Institute), Mark Walker(Broad Institute), Rich Boykin(Nanostring Technologies (United States)), Sophie S. Son(Broad Institute), Jamin Liu(Broad Institute), Austin C. Hachey(Broad Institute), Peijun Ma(Broad Institute), Lidan Wu(Broad Institute), Kyungyong Choi(Massachusetts Institute of Technology), Kaelyn C. Cummins(Brigham and Women's Hospital), Maura Benson(Brigham and Women's Hospital), Jennifer Skerry(Massachusetts General Hospital), Hyunryul Ryu(University of California, Santa Cruz), Sharon Y. Wong(Broad Institute), Marcia B. Goldberg(Massachusetts General Hospital), Jongyoon Han(Massachusetts Institute of Technology), Virginia Pierce(Massachusetts General Hospital), Lisa A. Cosimi(Brigham and Women's Hospital), Noam Shoresh(Broad Institute), Jonathan Livny(Broad Institute), Joseph Beechem(Nanostring Technologies (United States)), Deborah T. Hung(Broad Institute)
Scientific Reports
March 14, 2019
10.1038/s41598-019-40792-3
Cited by 16Open Access
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Abstract

Rapid bacterial identification remains a critical challenge in infectious disease diagnostics. We developed a novel molecular approach to detect and identify a wide diversity of bacterial pathogens in a single, simple assay, exploiting the conservation, abundance, and rich phylogenetic content of ribosomal RNA in a rapid fluorescent hybridization assay that requires no amplification or enzymology. Of 117 isolates from 64 species across 4 phyla, this assay identified bacteria with >89% accuracy at the species level and 100% accuracy at the family level, enabling all critical clinical distinctions. In pilot studies on primary clinical specimens, including sputum, blood cultures, and pus, bacteria from 5 different phyla were identified.

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