Compartmentation of uridine 5?-triphosphate occurs during synthesis of cytoplasmic and mitochondrial ribosomal RNAs of cultured tomato cells but not during synthesis of cytoplasmic ribosomal and transfer RNAs

Abstract

Compartmentation of uridine 5'-triphosphate (UTP) was studied during the nucleolar synthesis of cytoplasmic ribosomal RNA (cyt-rRNA) and the synthesis of cytoplasmic transfer RNA (cyt-tRNA) in the nuclear matrix as well as the synthesis of mitochondrial ribosomal RNA (mt-rRNA) in tomato (Lycopersicon esculentum Mill. cv. Lukullus) cell-suspension culture using the approach of Wiegers et al. (Eur. J. Biochem. 64, 535-540, 1976). Before measurements were made, it was ensured that: (i) there was steady-state labeling of all RNAs studied as well as UTP; (ii) there was stability of cyt-tRNA and cyt-rRNA; (iii) there was no label randomization through degradation of [(3)H]uridine; (iv) there were significant differences in the specific radioactivity of UTP, the final immediate precursor of RNA, after supplying the cells with two different exogenous [(3)H]uridine concentrations.By comparing the steady-state specific radioactivity of UTP with that of cyt-tRNA and cyt-18S rRNA during constant [(3)H]uridine supply, we found that the three molecules had equal specific radioactivities which, however, differed significantly from that of the mt-rRNA. With a 20-fold higher uridine concentration, i.e. a 20-fold lower specific radioactivity of exogenous [(3)H]uridine, the specific radioactivity of cyt-rRNA, cyt-tRNA and UTP decreased proportionally whereas that of mt-RNA increased. These results argue against different UTP pools during synthesis of cyt-rRNA and cyt-tRNA, but indicate compartmentation of UTP during rRNA synthesis in the nucleus and the mitochondria of tomato cells.