Abstract
Plasmid vectors based on bacteriophage integrases are important tools in molecular microbiology for the introduction of foreign DNA, especially into bacterial species where other systems for genetic manipulation are limited. Site specific integrases catalyze recombination between phage and bacterial attachment sites (attP and attB, respectively) and the best studied integrases in the actinomycetes are the serine integrases from the Streptomyces bacteriophages ΦC31 and ΦBT1. As this reaction is unidirectional and highly stable, vectors containing phage integrase systems have been used in a number of genetic engineering applications. Plasmids bearing the ΦBT1 integrase have been used to introduce DNA into Streptomyces and Amycolatopsis strains; however, they have not been widely studied in other actinobacterial genera. Here, we show that vectors based on ΦBT1 integrase can stably integrate into the chromosomes of a range of Nocardia species, and that this integration occurs despite the absence of canonical attB sites in these genomes. Furthermore, we show that a ΦBT1 integrase-based vector can insert at multiple pseudo-attB sites within a single strain and we determine the sequence of a pseudo-attB motif. These data suggest that ΦBT1 integrase-based vectors can be used to readily and semi-randomly introduce foreign DNA into the genomes of a range of Nocardia species. However, the precise site of insertion will likely require empirical determination in each species to avoid unexpected off-target effects.
Highlights
The actinomycetes comprise diverse bacterial genera, ranging from those well known for their prolific production of secondary metabolites (Streptomyces spp.) to those that contain some of world’s most successful pathogens (Mycobacterium spp.)
PRT801 integrates into the Nocardia terpenica genome To assess the potential of N. terpenica AUSMDU00012715to accept foreign DNA, we began by transforming this isolate using electroporation with a range of plasmids that have been successfully used in Nocardia and other Actinobacteria
We have shown that ÈBT1 integrase proteins (Int) can mediate DNA insertion into the genomes of several Nocardia species and that insertion occurs at pseudo-attB sites that have as little as 27% identity to the canonical attB site
Summary
The actinomycetes comprise diverse bacterial genera, ranging from those well known for their prolific production of secondary metabolites (Streptomyces spp.) to those that contain some of world’s most successful pathogens (Mycobacterium spp.). These beneficial properties and their potential biotechnical applications have attracted a great deal of interest in the genus Nocardia. Genetic tools to manipulate Nocardia spp. are limited in comparison to better studied actinomycetes, such as Streptomyces spp
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