Abstract
The mitis group of streptococci (MGS) is a member of the healthy human microbiome in the oral cavity and upper respiratory tract. Troublingly, some MGS are able to escape this niche and cause infective endocarditis, a severe and devastating disease. Genome-scale models have been shown to be valuable in investigating metabolism of bacteria. Here we present the first genome-scale model, iCJ415, for Streptococcus oralis SK141. We validated the model using gene essentiality and amino acid auxotrophy data from closely related species. iCJ415 has 71-76% accuracy in predicting gene essentiality and 85% accuracy in predicting amino acid auxotrophy. Further, the phenotype of S. oralis was tested using the Biolog Phenotype microarrays, giving iCJ415 a 82% accuracy in predicting carbon sources. iCJ415 can be used to explore the metabolic differences within the MGS, and to explore the complicated metabolic interactions between different species in the human oral cavity.
Original language | English |
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Article number | 116 |
Journal | Frontiers in Genetics |
Volume | 11 |
DOIs | |
Publication status | Published - 3 Mar 2020 |
Bibliographical note
Funding Information:This work was supported by the Region Zealand Foundation for Health Research, The Knud Højgård Foundation (Grant no: 18-02-0767), and the Ovesen Foundation. None of the funders had any influence on the study or the conclusions.
Publisher Copyright:
© Copyright © 2020 Jensen, Norsigian, Fang, Nielsen, Christensen, Palsson and Monk.
Other keywords
- Biolog phenotypic profiling
- constraint-based modeling
- genome-scale reconstruction
- mitis group of streptococci
- Streptococcus oralis