Functional genomics of bacteria commonly aims at establishing genotype-phenotype links in microorganisms of industrial, technological and biomedical relevance. In this regard, random transposon mutagenesis coupled to high-throughput next-generation sequencing approaches,… Click to show full abstract
Functional genomics of bacteria commonly aims at establishing genotype-phenotype links in microorganisms of industrial, technological and biomedical relevance. In this regard, random transposon mutagenesis coupled to high-throughput next-generation sequencing approaches, termed transposon-insertion sequencing (TIS), has emerged as a robust, genome-wide alternative to perform functional genome analysis. Though these approaches have been used in a large number of studies involving pathogenic and clinically relevant bacteria, they have received little attention in the fields of commensal and potentially beneficial bacteria, including probiotic microorganisms. In this chapter, we describe the implementation of the TIS method Transposon-Directed Insertion Sequencing to describe the set of essential genes in a representative strain of a genus encompassing several commensal and potentially probiotic bacteria and discuss considerations when applying similar methodological approaches to other Bifidobacterium species/strains of interest.
               
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