Terminal completion of poly(A) synthesis in sea urchin embryos

Abstract

The kinetics of accumulation of nuclear and cytoplasmic poly(A) have been determined in sea urchin blastulas and gastrulas, stages when essentially all mRNA is synthesized de novo in the nucleus. A majority of the labeled poly(A) is found in the cytoplasmic fraction after a brief pulse. The ratio of radioactive AMP to adenosine in pulse-labeled nuclear, cytoplasmic, and polyribosomal poly(A) is considerably less than the number average length of the labeled poly(A), indicating that there is 3′-terminal addition of adenosine to previously synthesized poly(A). The size distribution of pulse-labeled, terminally elongated poly(A) in the cytoplasm is similar to that of the largest nuclear poly(A) rather than the steady-state size distribution of cytoplasmic poly(A), which is smaller and more heterogeneous. The most likely interpretation of these results is that there is a predominant 3′ terminal addition of short tracts of adenosine to poly(A) attached to nuclear RNA just before or during entrance of this RNA into the cytoplasm. In this respect, much of the 3′ terminal addition may be thought of as terminal completion of poly(A) synthesis.