| Abstract: | The higher-order organisation of chromatin in chicken erythrocyte nuclei as a function of the ionic strength of the nuclear suspension buffer and also of the time of incubation in this buffer prior to nuclease digestion has been investigated. This organisation is described in terms of a physical parameter called the domain length. The 45-kbp-long domains of control nuclei were unravelled to give rise to domains of length 150 kbp on overnight equilibration at 0 degree C of the nuclei in standard isolation buffer containing 0.135 M NaCl prior to nuclease digestion. However, transition to the equilibrium state was preceded by a metastable and irregular domain architecture when the nuclei were incubated for only 1 h. In contrast, the domain length remained unchanged when nuclei were incubated in the isolation buffer alone for identical periods of time. The proteins dissociated at the higher ionic strength were characterised and their role in stabilising the domain structure is discussed. |
