Points of contact between histone H1 and the histone octamer.

Abstract

The topography of the interaction between histone H1 and the histone octamer has been investigated. Bovine thymus nuclei or enzymatically fragmented chromatin were treated 1-ethyl-3(3-dimethylaminopropyl)carbodiimide, which catalyzes the formation of covalent bonds between residues of proteins in electrostatic contact. Histone H1-core histone dimers were identified and the segments of molecules participating in crosslinking were elucidated. The results demonstrate that the major histone H1-core histone dimer generated upon carbodiimide crosslinking of intact nuclei, chromatin, or mononucleosomes consists of the segment of histone H1 containing amino acids 74-106 crosslinked to the segment of histone H2A containing amino acids 58-129. Thus, the central globular region of histone H1 intimately contacts the histone octamer. Besides histone H1-H2 dimers, two other histone H1-containing crosslinked products were detected. In these instances, the segments of histone H1 molecules containing amino acids 1-72 were shown to participate in crosslinking. The histone H1 contact points defined here all occur within mononucleosomes and not between nucleosomes. These results permit the formulation of a testable model for the arrangement of histone H1 along polynucleosome chains.