Molecular analysis of the histone gene cluster of Psammechinus miliaris: I. Fractionation and identification of five individual histone mRNAs.

The electrophoretic separation of labeled "9S" histone mRNAs obtained from cleaving sea urchin polysomes was found at first to be highly unreproducible. It became evident that the secondary structure of the individual mRNAs had a greater effect on their relative electrophoretic mobilities than did their molecular weight differentials. We determined the parameters affecting electrophoretic mobility by the novel method of running the labeled polysomal RNA in slab gels across polyacrylamide and urea gradients. The initially complex and species-specific electrophoretic pattern could then, by a judicious choice of denaturing conditions, be simplified to yield five well defined classes of labeled mRNAs. Using optimal conditions for the separation of the RNA components, five messengers were isolated from Psammechinus embryos by preparative disc electrophoresis, four of which, after two electrophoretic separations, exhibited a unimodal distribution. Each of the mRNAs was translated in vitro, four of the five fractions promoting the synthesis of one major protein. The in vitro products were characterized by comparison of their electrophoretic mobilities with those of known sea urchin histones. It was thus possible to correlate individual mRNAs with specific histones. We propose that the five mRNAs designated a-e in order of decreasing electrophoretic mobility code for the histones H4, H2A, H2B, H3, and H1.