Unfixed chicken erythrocyte chromatin fibers in very low salt have been imaged with a nning force microscope operating in the tapping mode in air at ambient humidity. These images reveal a threedimensional organizaffon of the fibers. The planar "6zig-zag" conformation is rare, and extended "beads-on-a-string" fibers are seen only in chromatin depleted of histes Hi and H5. Glutaraldehyde fixation reveals very similar structures. Fibers fixed in 10 mM salt appear somewhat more compacted. These results, when compared with modeing stude, suggest that chromatin fibers may exist as frregular three-dimensional arrays of nucleosomes even at low ionic strength.The structure of the chromatin fiber in low salt concentrations remains controversial. Electron microscopy (EM) experiments, most of which utilized the Miller spreading technique (1), typically showed extended "beads-on-a-string" or "open zig-zag" structures (refs. 2 and 3; for reviews, see refs. 4-6). At slightly higher ionic strength (-10 mM NaCI), somewhat more compact, "closed" zig-zags of nucleosomes were observed (7-9). Only upon further addition of NaCl to about 100 mM did these extended structures condense to form the so-called 30-nm fiber (8), which resembles structures observed in situ (7, 9, 10). However, there has been concern that strong interactions of the fiber with the EM support surface, and the dehydration produced by the high vacuum conditions, could distort the structure, especially at low ionic strength.Attempts to circumvent these problems used solution studies. The first scattering experiments suggested that the nucleosomes were densely packed in a linear array (11,12 To address this controversy, a study was performed using the three-dimensional imagi capabilities ofa scanning force microscope, which makes it possible to image chromatin fibers under less damaging conditions (22,23). The samples are never vacuum dried and are scanned in air at about 50%o relative humidity. Under these conditions a film of liquid water resides on the support surface (24). The newly developed tapping operation mode (25, 26) was employed, in which a stiff cantilever is oscillated near its resonance frequency with amplitudes typically in the range of 10-20 nm as the sample is scanned laterally. The oscillation amplitude is kept constant via feedback control. This operation has several advantages over the contact mode, in which a tip is pulled across the sample. Tip-sample forces are lighter than in the contact mode. Moreover, since most of the force is perpendicular to the surface, the sample experiences minimal lateral deformation during scanning, thus improving spatial resolution (25, 26).
MATERIAL AND METHODSPreparation and Fization of Chromatin. Chicken erythrocyte chromatin was prepared essentially as described (27), with a reduction in the amount of micrococcal nuclease to allow isolation of long fibers (28). Soluble chromatin was dialyzed versus 5 mM triethanolamine/HC1 (pH 7.0), with or without 10 mM NaCl and was stored on ice. In a few experiments...
