Polymer-mediated compaction and internal dynamics of isolated Escherichia coli nucleoids.

Nucleoids of Escherichia coli were isolated by osmotic shock under conditions of low salt in the absence of added polyamines or Mg(2+). As determined by fluorescence microscopy, the isolated nucleoids in 0.2 M NaCl are expanded structures with an estimated volume of about 27 microm(3) according to a procedure based on a 50% threshold for the fluorescence intensity. The nucleoid volume is measured as a function of the concentration of added polyethylene glycol. The collapse is a continuous process, so that a coil-globule transition is not witnessed. The Helmholtz free energy of the nucleoids is determined via the depletion interaction between the DNA helix and the polyethylene glycol chains. The resulting compaction relation is discussed in terms of the current theory of branched DNA supercoils and it is concluded that the in vitro nucleoid is crosslinked in a physical sense. Despite the congested and crosslinked state of the nucleoid, the relaxation rate of its superhelical segments, as monitored by dynamic light scattering, turns out to be purely diffusional. At small scales, the nucleoid behaves as a fluid. (C) 2001 Elsevier Science (USA).