Construction of a large plasmid lacking linearizing single restriction sites by simultaneous in vivo recombination and plasmid shuffling in yeast.

Creation of large ( approximately 15 kb) recombinant plasmids can be done in a single step by co-transformation of yeast cells with a partial restriction digest of a plasmid vector and a linear insert whose ends overlap one of the vector restriction sites. This method is used to generate a plasmid expressing the Saccharomyces cerevisiae rRNA genes containing the Ca.LSU group I intron ribozyme from Candida albicans. This plasmid expresses functional rRNA and ribozyme.

Pentamidine inhibition of group I intron splicing in Candida albicans correlates with growth inhibition.

We previously demonstrated that pentamidine, which has been clinically used against Pneumocystis carinii, inhibits in vitro a group I intron ribozyme from that organism. Another fungal pathogen, Candida albicans, also harbors a group I intron ribozyme (Ca.LSU) in the essential rRNA genes in almost half of the clinical isolates analyzed. To determine whether pentamidine inhibits Ca.LSU in vitro and in cells, phylogenetically closely related intron-containing (4-1) and intronless (62-1) strains were studied. Splicing in vitro of the Ca.LSU group I intron ribozyme was completely inhibited by pentamidine at 200 microM. On rich glucose medium, the intron-containing strain was more sensitive to growth inhibition by pentamidine than was the intronless strain, as measured by disk or broth microdilution assays. On rich glycerol medium, they were equally susceptible to pentamidine. At pentamidine levels selectively inhibiting the intron-containing strain (1 microM) in glucose liquid cultures, inhibition of splicing and rRNA maturation was detected by quantitative reverse transcription-PCR within 1 min with a 10- to 15-fold accumulation of precursor rRNA. No comparable effect was seen in the intronless strain. These results correlate the cellular splicing inhibition of Ca.LSU with the growth inhibition of strain 4-1 harboring Ca.LSU. Broth microdilution assays of 13 Candida strains showed that intron-containing strains were generally more susceptible to pentamidine than the intronless strains. Our data suggest that ribozymes found in pathogenic microorganisms but absent in mammals may be targets for antimicrobial therapy.