Hetero- and euchromatin of synchronous Euglena cells : I. Physical fractionation of nuclei into differentially condensed chromatin

Abstract

Several attempts were made to isolate intact nuclei and fractionate condensed and extended chromatin from synchronized cells of Euglena gracilis Z. Different factors affecting the recovery and the intactness of nuclei have been tested: detergent concentration, incubation time and addition of Mn 2+ (0.13 mM) and/or spermidine (0.14 mM) as protective agents. Interphase and mitotic nuclei show preserved chromatin when Mn 2+ is included, while the combination of Mn 2+ and spermidine—and, to a lesser extent, spermidine alone—leads to mitotic nuclei with enhanced clumped chromatin. The common procedure to fractionate Euglena chromatin involves swelling of nuclei before disruption. We proved that this step induces artefactual decondensation of packed heterochromatin. Two alternative methods are compared with separate condensed and dispersed chromatin: (1) breakage of swollen nuclei and subsequent addition of divalent cations and/or spermidine with mild pressure shearing forces; (2) disruption of nuclei in a medium containing Mn 2+ as a protective agent, without swelling. Electron microscopy study indicates that the normal packed appearance of condensed chromatin is preserved, according to the second procedure, while extensive shearing is necessary. Template capacity of the extended chromatin is significantly higher in both methods. Relative amounts of condensed and dispersed chromatin during interphase and mitosis are discussed.