Prokaryotic taxonomy in the sequencing era – the polyphasic approach revisited

“…The current classification of prokaryotes, generally called polyphasic taxonomy, relies on a combination of phenotypic and genotypic characteristics (252,253). However, the validity of several of the criteria used has been debated (254).…”

Section: From Culturomics To Taxonogenomicsmentioning

confidence: 99%

The Rebirth of Culture in Microbiology through the Example of Culturomics To Study Human Gut Microbiota

et al. 2015

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SUMMARY Bacterial culture was the first method used to describe the human microbiota, but this method is considered outdated by many researchers. Metagenomics studies have since been applied to clinical microbiology; however, a “dark matter” of prokaryotes, which corresponds to a hole in our knowledge and includes minority bacterial populations, is not elucidated by these studies. By replicating the natural environment, environmental microbiologists were the first to reduce the “great plate count anomaly,” which corresponds to the difference between microscopic and culture counts. The revolution in bacterial identification also allowed rapid progress. 16S rRNA bacterial identification allowed the accurate identification of new species. Mass spectrometry allowed the high-throughput identification of rare species and the detection of new species. By using these methods and by increasing the number of culture conditions, culturomics allowed the extension of the known human gut repertoire to levels equivalent to those of pyrosequencing. Finally, taxonogenomics strategies became an emerging method for describing new species, associating the genome sequence of the bacteria systematically. We provide a comprehensive review on these topics, demonstrating that both empirical and hypothesis-driven approaches will enable a rapid increase in the identification of the human prokaryote repertoire.

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“…The most extensively studied among these is 16S rDNA (rrs) gene [1] (http://rdp.cme.msu.edu). Most molecular techniques allow identification of organism up to genus level [2]. An alternative to full length rrs sequence is the multi-locus sequence analysis or multi locus sequence typing, which cannot correctly interpret phylogenetic differences among closely related species within Acinetobacter and Pseudomonas [2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Development of Genomic Tools for the Identification of Certain Pseudomonas up to Species Level

et al. 2013

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Pseudomonas is a highly versatile bacterium at the species level with great ecological significance. These genetically and metabolically diverse species have undergone repeated taxonomic revisions. We propose a strategy to identify Pseudomonas up to species level, based on the unique features of their 16S rDNA (rrs) gene sequence, such as the frame work of sequences, sequence motifs and restriction endonuclease (RE) digestion patterns. A species specific phylogenetic framework composed of 31 different rrs sequences, allowed us to segregate 1,367 out of 2,985 rrs sequences of this genus, which have been classified at present only up to genus (Pseudomonas) level, as follows: P. aeruginosa (219 sequences), P. fluorescens (463 sequences), P. putida (347 sequences), P. stutzeri (197 sequences), and P. syringae (141 sequences). These segregations were validated by unique 30-50 nucleotide long motifs and RE digestion patterns in their rrs. A single gene thus provides multiple makers for identification and surveillance of Pseudomonas.

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Prokaryotic taxonomy in the sequencing era – the polyphasic approach revisited

Cited by 134 publications

References 128 publications

Microbial taxonomy in the post-genomic era: Rebuilding from scratch?

Microbial taxonomy in the post-genomic era: Rebuilding from scratch?

The Rebirth of Culture in Microbiology through the Example of Culturomics To Study Human Gut Microbiota

Development of Genomic Tools for the Identification of Certain Pseudomonas up to Species Level

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