Eukaryotic DNA is organized into nucleosomes by coiling around core particles of histones, forming a nucleosomal filament. The significance for the conformation of the filament of the DNA entry/exit angle (α) at the nucleosome, the angle of rotation (β) of nucleosomes around their interconnecting DNA (linker DNA) and the length of the linker DNA, has been studied by means of wire models with straight linkers. It is shown that variations in α and β endow the filament with an outstanding conformational freedom when α is increased beyond 60–90°, owing to the ability of the filament to change between forward right-handed and backward left-handed coiling. A wealth of different helical and looped conformations are formed in response to repeated β sequences, and helical conformations are shown to be able to contract to a high density and to associate pairwise into different types of double fibers. Filaments with random β sequences are characterized by relatively stable loop clusters connected by segments of higher flexibility. Displacement of core particles along the DNA in such fibers, combined with limited twisting of the linkers, can generate the β sequence necessary for compaction into a regular helix, thus providing a model for heterochromatinization.
Rat liver nuclei have been studied by transmission electron microscopy after resuspension in a phosphate-buffered salt solution containing SO2-4 as the quantitatively dominant anion. Owing to the high solubility of chromatin in the presence of SO2-4 instead of Cl- at isotonicity, nuclei are depleted for chromatin by DNase I digestion in this buffer, eliminating the need for high-salt extraction. This shows that at least 75% of the nuclear pore complexes are associated with fibrogranular structures, which ramify as a network throughout the nucleus, interconnecting the nuclear lamina, interchromatin granule clusters and nucleoli. Perichromatin granules are located in this material proximal to the nuclear pore complexes. Most of the chromatin is removed without major impact on the network, but below a level of 25% residual chromatin there is a considerable reduction of this material, and only about 15% of the connections to the nuclear pore complexes are resistant to digestion with DNase I or streptodornase A and B. The percentage of nuclear pore complexes connected to the network is further reduced by salt extraction and RNase treatment. These results suggest that DNA is an integral part of the network, which presumably plays a role in nucleo-cytoplasmic transport of RNA and protein.
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