Role of nonhistone proteins in metaphase chromosome structure

In this paper, we show that HeLa metaphase chromosomes still possess a highly organized structure retaining the familiar metaphase morphology following removal of virtually all the histones and most of the nonhistone proteins. The structure is stabilized by a relatively small number of nonhistones, which we call scaffolding proteins. These results are based on a method which allows the removal of the histones, and most of the nonhistone proteins, by competition with polyanions such as dextran sulfate and heparin. The histone-depleted chromosomes sediment in sucrose gradients as a broad peak between 4000 to 7000S. These structures are dissociated by mild trypsin or chymotrypsin treatment, or by 4 M urea, but are stable in 2 M NaCl and insensitive to treatment with RNAase A. The histone-depleted chromosomes have a DNA to protein ratio of about 6:1; gel electrophoresis reveals the presence of about 30 nonhistone proteins and the virtual absence of histones. These experiments suggest that nonhistone proteins exist in metaphase chromosomes which maintain the DNA chain in a highly folded conformation. Structural studies support this conclusion. Analysis by fluorescence microscopy of histone-depleted chromosomes stained with ethidium bromide shows that each chromatid is still paired with its sister chromatid, and consists of a central structure surrounded by a halo of DNA. The length of the central structure in each chromatid is about 2-3 times longer than the chromatid length in the original chromosome.