Lagier Jean-Christophe, Hugon Perrine, Khelaifia Saber, Fournier Pierre-Edouard, La Scola Bernard, Raoult Didier
Aix Marseille Université, URMITE, UM63, CNRS 7278, IRD 198, INSERM 1095, Marseille, France.
Aix Marseille Université, URMITE, UM63, CNRS 7278, IRD 198, INSERM 1095, Marseille, France
Clin Microbiol Rev. 2015 Jan;28(1):237-64. doi: 10.1128/CMR.00014-14.
Bacterial culture was the first method used to describe the human microbiota, but this method is considered outdated by many researchers.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.
细菌培养是最早用于描述人类微生物群的方法,但许多研究人员认为这种方法已经过时。此后,宏基因组学研究已应用于临床微生物学;然而,原核生物的“暗物质”,即我们知识中的一个空白,包括少数细菌种群,这些研究并未阐明。通过复制自然环境,环境微生物学家率先减少了“平板计数异常”,即显微镜计数与培养计数之间的差异。细菌鉴定的革命也取得了快速进展。16S rRNA细菌鉴定能够准确鉴定新物种。质谱分析能够高通量鉴定稀有物种并检测新物种。通过使用这些方法并增加培养条件的数量,培养组学使已知的人类肠道微生物种类扩展到与焦磷酸测序相当的水平。最后,分类基因组学策略成为一种描述新物种的新兴方法,系统地关联细菌的基因组序列。我们对这些主题进行了全面综述,表明经验性方法和假设驱动的方法都将使人类原核生物种类的鉴定迅速增加。