Journal of Molecular Biology
The formation of hybrid DNA molecules and their use in studies of DNA homologies
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Cited by (102)
Molecular taxonomy
2023, Molecular Medical Microbiology, Third EditionPhylogenomics of Foodborne Pathogens: The Case of Listeria monocytogenes
2020, Comprehensive FoodomicsTwo new bacteria isolated from vagina of a patient with vaginosis: Atopobium massiliense sp. nov. and Butyricimonas vaginalis sp. nov.
2020, New Microbes and New InfectionsCitation Excerpt :The DNA–DNA hybridization analysis of the Butyricimonas species used made it possible to obtain values ranging from 20.8% between B. synergistica and B. virosa to 65.4% between B. faecalis strain H184 and B. vaginalis strain Marseille-P4593 (Table 5). These values are lower than the 70% threshold used for the delineation of prokaryotic species, confirming that these two strains are new species [26,27]. To measure the overall similarity between genome sequences, an OrthoANI analysis (Fig. 3) was performed among closely related Atopobium species.
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2018, Principles and Practice of Pediatric Infectious DiseasesThe current status on the taxonomy of Pseudomonas revisited: An update
2018, Infection, Genetics and EvolutionCitation Excerpt :In the Bergey's Manual published in 1923, several phenotypic characteristics were added to the morphology, Gram-stain, flagellation type and metabolism with respect to the oxigen, in an attempt to differentiate the species of the genus Pseudomonas (Bergey et al., 1923). When the techniques based on DNA began to make possible the use of genetic approaches in bacterial taxonomy (Marmur, 1961; Marmur and Doty, 1961; Schildkraut et al., 1961), the DNA base composition (G + C) and the DNA-DNA hybridization were the first techniques applied to Pseudomonas taxonomy (Colwell and Mandel, 1964; Colwell et al., 1965; Johnson and Ordal, 1968; Johnson and Palleroni, 1989). This way, the G + C content of all Pseudomonas species was included in the Bergey's Manual from 1974 (Doudoroff and Palleroni, 1974).
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Present address: Department of Biochemistry, Stanford University, Palo Alto, California.
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Present address: Graduate Department of Biochemistry, Brandeis University, Waltham, Massachusetts.