Abstract: | The methods of velocity sedimentation and circular dichroism have been used to investigate structural rearrangements of pigeon erythrocyte oligonucleosomes isolated after digestion with micrococcal nuclease (oligonucleosomes-M) or pancreatic DNase I (oligonucleosomes-D), in the wide range of ionic strength (mu from 0.005 to 0.5). The electrophoretic analysis of DNA isolated from the oligonucleosomes has revealed internal cuts in the DNA chain of oligonucleosomes-D. In spite of this fact the conformational parameters of DNA in both types of oligonucleosomes are practically indistinguishable, and their optical and hydrodynamic properties vary in a similar way with increasing ionic strength of the solution. The specificity of DNase I action results in the ability of oligonucleosomes-D to form homogeneous associates at mu = 0.065, which seems to be due to the existence of elongated intact ends of linker DNA in oligonucleosomes-D. It has been shown that the integrity of oligonucleosomes-D in a wide range of ionic strength is maintained by histones H1 and H5, because after their dissociation the sedimentation coefficient sharply decreases. The results obtained reveal the multifunctional role of lysine-rich histones and intact linker in the processes of compaction and association of oligonucleosomes. |