Development of a Markerless Genetic Exchange Method for Methanosarcina acetivorans C2A and Its Use in Construction of New Genetic Tools for Methanogenic Archaea

A new genetic technique for constructing mutants of Methanosarcina acetivorans C2A by using hpt as a counterselectable marker was developed. Mutants with lesions in the hpt gene, encoding hypoxanthine phosphoribosyltransferase, were shown to be >35-fold more resistant to the toxic base analog 8-aza-2,6-diaminopurine (8ADP) than was the wild type. Reintroduction of the hpt gene into a Δhpt host restored 8ADP sensitivity and provided the basis for a two-step strategy involving plasmid integration and excision for recombination of mutant alleles onto the M. acetivorans chromosome. We have designated this method markerless exchange because, although selectable markers are used during the process, they are removed in the final mutants. Thus, the method can be repeated many times in the same cell line. The method was validated by construction of ΔproC Δhpt mutants, which were recovered at a frequency of 22%. Additionally, a Methanosarcina-Escherichia shuttle vector, encoding the Escherichia coli proC gene as a new selectable marker, was constructed for use in proC hosts. Finally, the markerless exchange method was used to recombine a series of uidA reporter gene fusions into the M. acetivorans proC locus. In vitro assay of β-glucuronidase activity in extracts of these recombinants demonstrated, for the first time, the utility of uidA as a reporter gene in Methanosarcina. A >5,000-fold range of promoter activities could be measured by using uidA: the methylcoenzyme M reductase operon fusion displayed ∼300-fold-higher activity than did the serC gene fusion, which in turn had 16-fold-higher activity than did a fusion to the unknown orf2 gene.