Probing periodontal microbial dark matter using metataxonomics and metagenomics

Our view of the periodontal microbial community has been shaped by a century or more of cultivation‐based and microscopic investigations. While these studies firmly established the infection‐mediated etiology of periodontal diseases, it was apparent from the very early days that periodontal microbio...

Full description

Saved in:
Bibliographic Details
Published inPeriodontology 2000 Vol. 85; no. 1; pp. 12 - 27
Main Authors Kumar, Purnima S., Dabdoub, Shareef M., Ganesan, Sukirth M.
Format Journal Article
LanguageEnglish
Published Denmark 01.02.2021
Subjects
Online AccessGet full text

Cover

Loading…
More Information
Summary:Our view of the periodontal microbial community has been shaped by a century or more of cultivation‐based and microscopic investigations. While these studies firmly established the infection‐mediated etiology of periodontal diseases, it was apparent from the very early days that periodontal microbiology suffered from what Staley and Konopka described as the “great plate count anomaly”, in that these culturable bacteria were only a minor part of what was visible under the microscope. For nearly a century, much effort has been devoted to finding the right tools to investigate this uncultivated majority, also known as “microbial dark matter”. The discovery that DNA was an effective tool to “see” microbial dark matter was a significant breakthrough in environmental microbiology, and oral microbiologists were among the earliest to capitalize on these advances. By identifying the order in which nucleotides are arranged in a stretch of DNA (DNA sequencing) and creating a repository of these sequences, sequence databases were created. Computational tools that used probability‐driven analysis of these sequences enabled the discovery of new and unsuspected species and ascribed novel functions to these species. This review will trace the development of DNA sequencing as a quantitative, open‐ended, comprehensive approach to characterize microbial communities in their native environments, and explore how this technology has shifted traditional dogmas on how the oral microbiome promotes health and its role in disease causation and perpetuation.
ISSN:0906-6713
1600-0757
DOI:10.1111/prd.12349