Gene-specific differences in the supranucleosomal organization of rat liver chromatin

Abstract

Rat liver chromatin was separated into a solubilized portion and insoluble nuclear material, and the solubilized portion was fractionated by sucrose gradient sedimentation. The chromatin encompassing three transcribed genes (albumin, tryptophan oxygenase, and .alpha.-fetoprotein), which are expressed at very different levels, partitions preferentially with insoluble nuclear material and possesses a disrupted nucleosome structure. On the contrary, the chromatin encompassing three inactive genes fractionates into the solubilized chromatin portion and exhibits a canonical nucleosome repeat structure. By sucrose gradient sedimentation, all size classes of inactive chromatin particles are found to contain internal cleavages in the linker region between nucleosomes; they are probably held together by histone H1 and mono- and divalent cations. When the chromatin encompassing two flanking sequences of the tyrosine aminotransferase gene is studied, the 0.35-kilobase upstream-located chromatin exhibits features of active genes, while the 2.55-kilobase upstream-located chromatin partitions preferentially with solubilized chromatin and sediments in internally cleaved particles.