Because of their small genomes, mycoplasmas are commonly chosen a

Because of their small genomes, mycoplasmas are commonly chosen as model organisms for the study of the minimal gene set needed to support the growth of free-living bacteria and are ideal for dissecting the role of individual genes in pathogenesis. The most comprehensive work has been performed with Mycoplasma genitalium. Using transposon mutagenesis, 387 of the 480 protein-coding regions and all of the 37 genes coding for RNA species were identified Selleckchem BIBW2992 as essential for the growth of M. genitalium (Glass et al., 2006). Because of the lack of gene duplication and the absence of redundant pathways,

it should be expected that the 580-kb genome of M. genitalium would have more essential genes than a bacterium with a large genome such as Bacillus subtilis, a Gram-positive bacterium to which the mycoplasmas are phylogenetically related. Indeed, only 271 of the 4100 genes of B. subtilis are thought to be essential (Kobayashi et al., 2003). Mycoplasma pulmonis is a pathogen of rats and mice and the etiological agent of murine respiratory mycoplasmosis (Lindsey & Cassell, 1973). In an earlier study of a transposon library of M. pulmonis, 321 of the 782 protein-coding regions were identified as dispensable for growth (French et al., 2008). The criteria used to consider a gene to be inactivated were that at least 10% of the coding region from the annotated 5′ start site or at least 15% of the coding region from the 3′ end would be

truncated. The size of the library was large enough to conclude that nonessential genes >1 kb were inactivated. The previous studies relied on Tn4001T, which transposes actively in the mycoplasmal Crizotinib genome. A more recent study in Mycoplasma arthritidis made use of the Tn4001TF1 minitransposon, derived from Tn4001 (Dybvig et al., 2008). The minitransposon readily transposed into the genome, but

once inserted, was unable to undergo subsequent Tryptophan synthase transposition events. This minitransposon was applied to M. pulmonis in the current study. The use of the minitransposon generated a superior library with inactivation of 39 genes that were previously thought to be essential. Mycoplasma pulmonis strain CT (Davis et al., 1986) was propagated in mycoplasma broth (MB) and mycoplasma agar (MA) as described (Dybvig et al., 2000; Simmons & Dybvig, 2003). CT was transformed with plasmid pTF85, carrying minitransposon Tn4001TF1 (Dybvig et al., 2008), using 36% polyethylene glycol and selecting for resistance to tetracycline as described (Dybvig et al., 2000). Individual colonies were picked, grown in 1 mL MB and stored at −80 °C as described (French et al., 2008). The genomic location of the transposon was determined for each library member by DNA sequence analysis of an inverse PCR product containing the junction between the transposon and the adjacent mycoplasmal DNA using primers and reaction conditions as described (Teachman et al., 2002; French et al., 2008).

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