Very long-lived messenger RNA in ovaries of Xenopus laevis

Abstract

It is possible to label with radioactivity newly synthesized ovarian RNA after intraperitoneal injection of [ 3H]guanosine and [ 3H]uridine into immature Xenopus laevis, if ovaries in which only previtellogenic stage 1 oocytes are present. Following the amount of radioactivity in the ovarian pool of acid-soluble precursors indicates a complete clearance of acid-soluble radioactivity within 15–20 days after injection. Incorporation of radioactivity into total RNA (which is almost exclusively 4 and 5S RNAs at this stage) and poly(A) + RNA ceases between 15 and 20 days after injection, but the total amount of radioactivity in these RNA fractions does not decline appreciably over the next 18 months. During this time, the ovary grows and develops since stage 6 oocytes eventually appear and there is a 10- to 20-fold increase in total RNA content, which changes in composition from almost exclusively (95%) 4 and 5S RNAs to mainly (75%) 18 and 28S RNAs. Thus, despite continued growth and development, radioactive RNA molecules synthesized during previtellogenesis survive for lengths of time commensurate with the length of oogenesis (1–2 years). Although very limited (<7%) reincorporation of radioactivity into RNA is detected, it cannot alone account for the stability of the label in poly(A) + RNA. These results are interpreted as indicative of synthesis during previtellogenesis of tRNA, 5SrRNA, and messenger RNA molecules which are very long-lived.