Change in linker DNA conformation upon histone H1.5 binding to nucleosome: Fluorescent microscopy of single complexes

Abstract

A method for fluorescently labeled DNA synthesis, which makes it possible to assemble mononucleosomes with 40 bp linkers, was developed. Cy3 and Cy5 labels were introduced into the linkers at distances of 10 bp before the first nucleotide and 15 bp after the last nucleotide of the nucleosome positioning DNA sequence, respectively. Without histone H1.5, f luorescence microscopy of single complexes revealed two equally probable states of nucleosomes. The states were different in the linker conformation: the open one with the energy transfer efficiency (E) between the labels of 0.06 and the closed one with E = 0.37, when the linkers are brought together. Binding of histone H1.5 with nucleosomes occurs in a range of nanomolar concentrations, and the complex formation rate is significantly higher as compared with its dissociation rate. The significant convergence of the DNA linkers (E = 0.73) is observed in these complexes together with the higher conformation uniformity in the region where the labels are localized. The developed nucleosomal constructs represent highly sensitive f luorescent sensors that can be used for the analysis of structural linker rearrangements. Also, in combination with microscopy of single complexes, they are suitable for studying the structure of complexes of nucleosomes with different chromatin architectural proteins.