Many viruses affect regulation of the host cell’s genes in order

Many viruses affect regulation of the host cell’s genes in order to redirect the host’s machinery to support virus replication. Because little is known about the effects of SSV1 infection on Sulfolobus, we cannot rule out that infection with viral vectors caused changes in gene expression. However, growth rates of SSV1-infected cells are very similar to that of uninfected cells (Fig. S1; Frols et al., 2007). Additionally, microarray analyses of

stably SSV1-infected compared with uninfected S. solfataricus strains indicated minimal transcriptional changes (Frols BGB324 mw et al., 2007). It has been reported that similar vectors containing the lacS reporter gene were not stably maintained in culture and required the addition of pyrEF to stabilize the vector (Jonuscheit

et al., 2003; Berkner et al., 2010). We also experienced loss of the vector from primary transformations (not shown). However, isolation of single colonies infected with the recombinant viral vector and subsequent outgrowth in selective media was sufficient for stable vector maintenance (data not shown). Thus, at least under these conditions, the addition of pyrEF as a selectable marker is not absolutely necessary and makes the vector somewhat Small molecule library smaller and easier to manipulate. We also did not observe recombination of the viral vector in S. solfataricus PH1 cells. To our knowledge, this is the first experimental evidence for promoter-dependent regulation of the 16S/23S rRNA gene operon in S. solfataricus in response to changing cellular conditions and the first evidence for rRNA regulation in hyperthermophilic Archaea in response to growth phase. The severely truncated 16S/23S rRNA gene core promoter is the smallest reported regulated Sulfolobus promoter and provides an excellent target for future in vitro and in vivo studies. The

authors would like to thank Adam Clore for design of primers B49F and B49R, Michael Bartlett and Justin Courcelle for critical comments, the American Heart Association Pacific-Mountain Affiliate Beginning Grant in Aid Award #0460002Z, the National Science Foundation MCB:0702020, and Portland State University for financial STK38 support. Fig. S1. Growth curve of infected and uninfected cells in early and exponential growth. Fig. S2. Representative Southern blot for copy number determination. Fig. S3. Typical qPCR standard curve Table S1. qPCR data. Please note: Wiley-Blackwell is not responsible for the content or functionality of any supporting materials supplied by the authors. Any queries (other than missing material) should be directed to the corresponding author for the article. “
“Escherichia coli has been used widely in laboratory and the biotech industry. However, the genetic and metabolic characteristics remain inadequately studied, particularly for those strains with extensive genetic manipulations that might have resulted in unknown mutations.

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