Introduction of Hidden Breaks during rRNA Maturation and Ageing in Tetrahymena pyriformis

Abstract

The stability of Tetrahymena pyriformis cytoplasmic rRNAs and nuclear rRNA precursors has been studied by polyacrylamide gel electrophoresis under partly and completely denaturing conditions. Cytoplasmic 17‐S rRNA (M_r= 0.66 × 10⁶) consists of a continuous polynucleotide chain throughout its lifetime, whereas the bulk of 26‐S rRNA (M_r= 1.27 × 10⁶) dissociates upon denaturation. Two large fragments (F₁, F₂) of somewhat differnt molecular weights (M_r 0.63 × 10⁶ and 0.58 × 10⁶) and the small 5.8‐S rRNA fragment (M_r about 50 000) are regularly observed. Some additional distinct minor fragments (F₃–F₆) are noted under certain preparastive condiontions, suggestive of artifactual origin. The following conclusions were made from the data obtained (a) Newly synthesized 26‐S rRNA molecules do not contain the ‘central’ hidden break (separating F₁ and F₂) until about 15 min after their appearance in the cytoplasm; however, they release during denaturation the 5.8‐S and/or a short‐lived 7‐S fragment (M_r about 75 000) which might represnt a direct precursor to the 5.8‐S rRNA. (b) The immediate nuclear precursor to the 26‐S rRNA (M_r 1.39 × 10⁶) releases a small fragment of similar size (7 S). (c) The largest stable transcription product of the rDNA (pre‐rRNA) does not contain any hidden break.