The relation between the unit thread of chromosomes and isolated nucleohistone

Changes in the physical properties and molecular structure of isolated nucleohistone, induced by binding magnesium or other ions, have been studied. Nucleohistone has a net negative charge. Added magnesium binds tightly to the DNA phosphate groups that are not already complexed with histone. This results in neutralization of the net negative charge, a reduction in intermolecular repulsion, aggregation and compaction of the nucleohistone gel. The “unit thread” of nucleohistone observed in the electron microscope changes diameter from 110 Å to 230 Å on addition of magnesium before drying. However, X-ray diffraction studies fail to detect any changes in regular tertiary structure on adding divalent ions. The methods for dehydration commonly used in specimen preparation for electron microscopy appear to cause a complete loss of regular tertiary structure. We conclude that the DNA in hydrated nucleohistone is supercoiled, that the degree of regular supercoiling is independent of the presence of ions and that both the 110 Å and 230 Å threads observed in the electron microscope probably contain the distorted remnant of a single supercoil.