HMF, A DNA-BINDING PROTEIN ISOLATED FROM THE HYPERTHERMOPHILIC ARCHAEON METHANOTHERMUS-FERVIDUS, IS MOST CLOSELY RELATED TO HISTONES

Methanothermus fervidus grows optimally at 83°C. A protein designated HMf (histone M. fervidus) has been isolated from this archaeal hyperthermophile that binds to double-stranded DNA molecules and increases their resistance to thermal denaturation. HMf binding to linear double-stranded DNA molecules of >2 kilobase pairs also increases their electrophoretic mobilities through agarose gels. Visualization of this compaction process by electron microscopy has demonstrated the formation of quasispherical, macromolecular HMf-DNA complexes. HMf is a mixture of approximately equal amounts of two very similar polypeptides designated HMf-1 and HMf-2. Determination of the DNA sequence of the gene encoding HMf-2 (hmfB) has revealed that over 30% of the amino acid residues in HMf-2 are conserved in the consensus sequences derived for eucaryal histones H2A, H2B, H3, and H4. These archaeal polypeptides and eucaryal histones appear therefore to have evolved from a common ancestor and are likely to have related structures and functions.