Physics – Biological Physics
Scientific paper
2010-08-11
Physics
Biological Physics
21 pages, 6 figures
Scientific paper
Found in all eukaryotic cells, linker histones H1 are known to bind to and rearrange nucleosomal linker DNA. In vitro, the fundamental nature of H1/DNA interactions has attracted wide interest among research communities - for biologists from a chromatin organization deciphering point of view, and for physicists from the study of polyelectrolyte interactions point of view. Hence, H1/DNA binding processes, structural and dynamical information about these self-assemblies is of broad importance. Targeting a quantitative understanding of H1 induced DNA compaction mechanisms our strategy is based on using small angle X-ray microdiffraction in combination with microfluidics. The usage of microfluidic hydrodynamic focusing devices facilitate a microscale control of these self-assembly processes. In addition, the method enables time-resolved access to structure formation in situ, in particular to transient intermediate states. The observed time dependent structure evolution shows that the interaction of H1 with DNA can be described as a two step process: an initial unspecific binding of H1 to DNA is followed by a rearrangement of molecules within the formed assemblies. The second step is most likely induced by interactions between the charged side chains of the protein and DNA. This leads to an increase in lattice spacing within the DNA/protein assembly and induces a decrease in the correlation length of the mesophases, probably due to a local bending of the DNA.
Dootz Rolf
Pfohl Thomas
Toma Adriana Cristina
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