While the functional genomic approaches allow the parallel charac

While the functional genomic approaches allow the parallel characterization of hundreds or thousands of transcripts, proteins or metabolites, the parallel generation and characterization

of many deletion mutants was long impossible or extremely tedious. In recent years, the methods for mutant construction have been improved for several bacterial model species to a level that allowed the generation of single deletion mutants of all genes of the respective genomes, i.e. for Escherichia coli, Bacillus subtilis and Acinetobacter baylyi (Kobayashi et al., 2003; Baba & Mori, 2008; de Berardinis et FK506 nmr al., 2008). In contrast to bacteria, such an approach has not been performed with any archaeal species. Haloferax volcanii is an archaeal model species that might be the first choice for the large-scale construction and characterization of deletion mutants. Its genome is available and transcriptomics,

proteomics and metabolomics have been established (for reviews, see J. Soppa, submitted; Soppa, 2006; Soppa et al., 2008). It was one of the first archaeal species that could be transformed (Charlebois CP-673451 research buy et al., 1987) and many molecular genetic tools have been established since then. A method for the construction of markerless in-frame deletion mutants has been established (Bitan-Banin et al., 2003) and several strains and plasmids have been developed to enhance its versatility (Allers et al., 2004). Recently, the generation of vectors for mutant construction has been optimized (Hammelmann & Soppa, 2008) and the optimized method has been successfully transferred to the microtiter plate format (K. Jantzer & J. Soppa, unpublished data). Recently, an alternative optimization of vector generation has been described that has also been described to be transferrable to the microtiter plate format (Blaby et al., 2010). Therefore, the generation of markerless in-frame deletion mutants of H. volcanii

in a middle- or high-throughput fashion has become feasible. A bottleneck for such a project would be the phenotypic characterization of mutants. It would be desirable that many conditions could be analyzed in parallel and a bona fide phenotyping approach could be performed. Recently, it has been described that the growth of H. volcanii in microtiter Chloroambucil plates is in fact possible and was applied for a phenotypic comparison of two sRNA gene deletion mutants with the wild type (Straub et al., 2009). However, several problems remained, for example evaporation of water and a suboptimal variance or replicates. Therefore, here, we describe an optimized method to cultivate H. volcanii in microtiter plates. First applications are reported, for example the optimization of growth parameters and the analysis of osmotolerance and the response to oxidative stress. Furthermore, the supplementation of amino acid auxotrophic mutants is described and the bona fide phenotyping of sRNA gene deletion mutants is exemplified.

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