Three-dimensional imaging of nucleosomes from transcriptionally active genes using electron spectroscopic imaging
The three-dimensional structure of the nucleosome was determined using particles purified from transcriptionally active genes in conjunction with electron spectroscopic imaging, and quaternion-assisted angular reconstitution procedures. The results reveal a configuration which is very different from the canonical compact crystallographic structure for this fundamental chromosome subunit, implying a structural disruption of the nucleosome with the activation of gene expression in accord with numerous physico-chemical observations.Previous analyses of nucleosomes purified from transcriptionally quiescent genes have indicated numerous structural states dependent on factors in vitro which modify charge based interactions in nucleoprotein complexes. Nucleosomes from transcriptionally active genes undergo chemical alterations in vivo which similarly modify charge based interactions. In order to investigate the effects of the gene expression associated chemical alterations on nucleosome structure, particles were purified from transcriptionally active genes using mercury affinity chromatography. These nucleosome particles are hyperacetylated with respect to particles from transcriptionally quiescent genes. Here additionally, sulphydryls normally buried within the protein core of the transcriptionally inactive particle are exposed to chemical modifying agents thus facilitating purification as described.