Relationship between the mRNA of polysomes and free ribonucleoprotein particles in the early sea urchin embryo

Abstract

The cytoplasm of early sea urchin embryos contains nonribosomal, high molecular weight RNA both associated with ribosomes in polysomes and free of ribosomes in particles termed free RNP. In a 1-hr labeling period, 50% of the newly synthesized RNA enters the pool of ribosome-free RNP particles during the cleavage stages, and this percentage decreases until less than 20% of the new RNA in the mesenchyme blastula stage is found in the free RNP. mRNA from both polysomes and free RNP contain poly(A)(+) and poly(A)(−) species. During the cleavage stages only 8–10% of the RNA from each fraction is polyadenylated; however, in the blastula, 40–50% of the nonhistone polysomal RNA is polyadenylated while only 22–30% of the free RNP RNA is polyadenylated. At any developmental stage, the poly(A)(+)RNA from the free RNA and polysomes have identical sedimentation profiles; this is also the case for the poly(A)(−)RNA except for the absence of the 9 S histone mRNA from the free RNP. Changes in poly(A)(+)RNA content and sedimentation profiles during development occur simultaneously in the free RNP and the polysomes. Kinetic studies of these two RNP populations as well as nuclear RNP show that the bulk of the free RNP are not unusually stable cytoplasmic components. The free RNP decay with a half-life of about 40 min while nuclear RNA and polysomal RNA display half-lives of about 12 and 65 min, respectively. Further, the rate of synthesis of the free RNP is not consistent with their being the only precursors for polysomes. Our estimates of the rates of synthesis for nuclear RNA, polysomes, and free RNP are, respectively, 1.1 × 10 −15, 2.2 × 10 −16, and 5.0 × 15 −17 g/min/nucleus. The data on free RNP is discussed in terms of translational regulation of protein synthesis in the developing sea urchin.