Abstract
In this chapter, we describe the reverse genetics methodology behind generating a targeted gene deletion or replacement in archaeal species of the genus Haloferax, which are renowned for their ease of manipulation. Individual steps in the method include the design of a gene-targeting vector, its use in transforming Haloferax to yield "pop-in" and "pop-out" clones, and techniques for validating the genetically manipulated strain. The vector carries DNA fragments of 500-1000bp that flank the gene of interest (or a mutant allele), in addition to the pyrE2 gene for uracil biosynthesis (Bitan-Banin et al. J Bacteriol 185:772-778, 2003). The latter is used as a selectable marker for the transformation of Haloferax, wherein the vector integrates by homologous recombination at the genomic locus to generate the "pop-in" strain; this is also known as allele-coupled exchange. Culturing of these transformants in nonselective broth and subsequent plating on 5-fluoroorotic acid (5-FOA)-containing media selects for excision of the vector, yielding either wild type or mutant "pop-out" clones. These 5-FOA-resistant clones are screened to confirm the desired mutation, using a combination of phenotypic assays, colony hybridization and Southern blotting. The pop-in/pop-out method allows for the recycling of the pyrE2 marker to enable multiple gene deletions to be carried out in a single strain, thereby providing insights into the function of multiple proteins and how they interact in their respective cellular pathways.
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