During recent years, the significant and increasing interest in novel bifidobacterial strains with health-promoting characteristics has catalyzed the development of methods for efficient and reliable identification of Bifidobacterium strains at (sub) species level. We developed an assay based on recently acquired bifidobacterial genomic data and involving 98 primer pairs, called the Bifidobacterium-ampliseq panel. This panel includes multiplex PCR primers that target both core and variable genes of the pangenome of this genus. Our results demonstrate that the employment of the Bifidobacterium-ampliseq panel allows rapid and specific identification of the so far recognized 48 (sub)species harboring the Bifidobacterium genus, and thus represents a cost- and time-effective bifidobacterial screening methodology.
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A genome-based identification approach for members of the genus Bifidobacterium.
FEMS Microbiol Ecol
March 2015
Laboratory of Probiogenomics, Department of Life Sciences, University of Parma, Parco Area delle Scienze 11a, 43124 Parma, Italy
During recent years, the significant and increasing interest in novel bifidobacterial strains with health-promoting characteristics has catalyzed the development of methods for efficient and reliable identification of Bifidobacterium strains at (sub) species level. We developed an assay based on recently acquired bifidobacterial genomic data and involving 98 primer pairs, called the Bifidobacterium-ampliseq panel. This panel includes multiplex PCR primers that target both core and variable genes of the pangenome of this genus.
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