Similarity of hnRNA sequences in blastula and pluteus stage sea urchin embryos

Abstract

We have compared the total single-copy sequences transcribed as nuclear RNA in blastula and pluteus stage embryos of the sea urchin Tripneustes gratilla by hybridization of excess nuclear RNA with purified radioactive single-copy DNA. The kinetics of hybridization of either blastula or pluteus nuclear RNA with single-copy DNA show a single pseudo-first-order reaction with 34% of the single-copy genome. From the rate of the reaction and the purity of the nuclear RNA, it can be estimated that the reacting RNAs are present on the average at a concentration of one molecule per 14 nuclei. A mixture of blastula and pluteus RNA also hybridizes with 34% of the single-copy genome, indicating that the total complexity of RNAs transcribed at both stages is no greater than transcribed at each stage alone. The identity of the sequences transcribed by blastula and pluteus embryos was further examined by fractionation of the labeled DNA into sequences complementary and not complementary to pluteus RNA. This was achieved by hybridization of single-copy DNA to high pluteus RNA Cot, and separation of the hybridized and nonhybridized DNA on hydroxylapatite. Using either the DNA complementary or noncomplementary with pluteus RNA, essentially identical amounts of RNA:DNA hybrids are formed at high RNA Cot with blastula or pluteus RNA. Gross changes in the total RNA sequences transcribed do not appear to be involved in the developmental changes between blastula and pluteus, even though 45% of the mRNA sequences change between these two stages ( Galau et al., 1976).