Accurate processing and amplification of cloned germ line copies of ribosomal DNA injected into developing nuclei of Tetrahymena thermophila.

Abstract

The ciliate Tetrahymena thermophila contains a chromosomally integrated copy of the rRNA genes (rDNA) in its germinal (micronuclear) genome. These genes are excised from the chromosome through a process involving site-specific DNA breakage, become linear palindromic molecules with added telomeres, and are greatly amplified during development of the somatic nucleus (macronucleus). In this study, we cloned a 15-kilobase segment of the germ line DNA containing these genes and injected it into developing macronuclei of T. thermophila. Up to 11% of injected cells were transformed to the paromomycin-resistant phenotype specified by the injected DNA. Transformation efficiency was dependent on the developmental stages of the injected cells and the integrity of the injected DNA but not the DNA concentration or conformation. The injected DNA was apparently processed and amplified correctly to produce rDNA molecules with the expected linear palindromic structure which carried the appropriate physical markers. Thus, the 15-kilobase DNA contained all cis-acting sequences sufficient for the DNA-processing events leading to rDNA amplification in T. thermophila.