Regulation of ribosomal RNA synthesis in sea urchin embryos and oocytes

Abstract

The steady-state concentrations and absolute rates of synthesis of ribosomal RNA (rRNA) molecules were measured in oocytes, eggs, embryos, and larvae of the Hawaiian sea urchin Tripneustes gratilla. The steady-state concentration per genome of the RNA precursor sequences measured by hybridization to a cloned rDNA fragment was approximately 100- to 300-fold greater in the RNA obtained from oocytes and eggs than in the RNA extracted from embryos and larvae. Since the rate of processing of the rRNA precursor at different stages is not greatly different, the rates of rRNA synthesis must be considerably greater in oocytes than in embryo cells. The absolute rate of RNA synthesis in oocytes and embryos was determined from the incorporation of [ 3H]guanosine into cellular GTP pools and into both precursor and mature rRNA species. The data indicate an approximately 40-fold higher rate of rRNA synthesis in oocytes than that measured in embryos or previously in larvae ( J. Griffith and T. Humphreys, 1979, Biochemistry 18, 2178–2185 ). Together these results indicate that the ribosomal genes are transcribed much more rapidly during sea urchin oogenesis than during embryogenesis or larval stages.