Nonhistone nuclear proteins of rat brain.

Abstract

Abstract— The rat brain was dissected into cerebral cortex, cerebellum and the remaining regions. From the nuclei, isolated from these three brain sections, were extracted two fractions of nuclear sap proteins (proteins soluble in 014 M NaCl and proteins soluble in 01 M Tris‐HCl buffer pH 7‐6) and two fractions of nonhistone chromosomal proteins (one soluble in 0‐35 M NaCl and one which is not soluble at this salt concentration). Each of these four fractions of the nonhistone nuclear proteins was further separated by polyacrylamide gel electrophoresis. The electrophoretic patterns of the studied fractions of nuclear proteins are qualitatively identical regardless of the brain section from which the analysed protein fraction was isolated. In addition, there arc no qualitative differences in the electrophoretic patterns of nonhistone chromosomal proteins which are and which are not soluble in 0‐35 M NaCl. In contrast to the qualitative similarity of the electrophoretic patterns of proteins from different sections of the brain, the amount of the nonhistone nuclear proteins is characteristic for each studied brain section. The ratio of the total nonhistone nuclear proteins to DNA is highest in the brain cortex and lowest in the cerebellum. The most expressed difference between the nuclei is in the ratio of the nonhistone chromosomal proteins soluble in 0‐35 M NaCl to DNA. This ratio is 0‐52 in the cortex. 0‐38 in the mixture of noncortical and noncerebel‐lar regions and only 0‐18 in the cerebellum. The amount of the three fractions of nonhistone nuclear proteins in the nuclei of individual brain sections is proportional to the activity of the genome in these nuclei. The only exception are the nonhistone chromosomal proteins which are not soluble in 0‐35 M NaCl. These proteins and the histones are present in the same amounts in nuclei isolated from all three studied sections of the brain. The results support a proposal that the nonhistone nuclear proteins are involved in the expression of the genetic activity of the cell, without the majority of the proteins in any of the four fractions being the specific regulatory molecules.