Publications by authors named "Clemence Joseph"
Background: Given a genome-scale metabolic model (GEM) of a microorganism and criteria for optimization, flux balance analysis (FBA) predicts the optimal growth rate and its corresponding flux distribution for a specific medium. FBA has been extended to microbial consortia and thus can be used to predict interactions by comparing in-silico growth rates for co- and monocultures. Although FBA-based methods for microbial interaction prediction are becoming popular, a systematic evaluation of their accuracy has not yet been performed.
View Article and Find Full Text PDFThe dynamics of a community of four planktonic bacterial strains isolated from river water was followed in R2 broth for 72 h in batch experiments. These strains were identified as Janthinobacterium sp., Brevundimonas sp.
View Article and Find Full Text PDFSynthetic communities grown in well-controlled conditions are an important tool to decipher the mechanisms driving community dynamics. However, replicate time series of synthetic human gut communities in chemostats are rare, and it is thus still an open question to what extent stochasticity impacts gut community dynamics. Here, we address this question with a synthetic human gut bacterial community using an automated fermentation system that allows for a larger number of biological replicates.
View Article and Find Full Text PDFArticle Synopsis
- A new method for quickly quantifying gut bacteria combines flow cytometry and supervised classification, offering an alternative to traditional sequencing techniques like 16S rRNA gene sequencing.
- It achieved a 71% F1 score in identifying species in a digital mock community and showed similar performance to sequencing in lab tests with real samples.
- The method highlights that merely looking at bacterial shape and size isn't enough for identification, and the accuracy of the flow cytometry approach varies among different bacterial species.