Add to ORKGIn eukaryotes, histone paralogues form obligate heterodimers such as H3/H4 and H2A/H2B that assemble into octameric nucleosome particles. Archaeal histones are dimeric and assemble on DNA into 'hypernucleosome' particles of varying sizes with each dimer wrapping 30 bp of DNA. These are composed of canonical and variant histone paralogues, but the function of these variants is poorly understood. Here, we characterise the structure and function of the histone paralogue MJ1647 from Methanocaldococcus jannaschii that has a unique C-terminal extension enabling homotetramerisation. The 1.9 Å X-ray structure of a dimeric MJ1647 species, structural modelling of the tetramer, and site-directed mutagenesis reveal that the C-terminal tetramerization m...
Exchanging core histones in the nucleosome for paralogous variants can have important functional ram...
Motivation: Histones form octameric complexes called nucleosomes, which organize the genomic DNA of ...
The packaging of DNA in chromatin is an important determinant of transcription, replication and reco...
In eukaryotes, histone paralogues form obligate heterodimers such as H3/H4 and H2A/H2B that assemble...
Nucleosomes in eukaryotes act as platforms for the dynamic integration of epigenetic information. Po...
DNA compaction is a universal requirement across the three domains of life. The proteins responsible...
DNA binding and the topology of DNA have been determined in complexes formed by >20 archaeal histone...
Many archaea express histones, which organize the genome and play a key role in gene regulation. The...
All life on earth contains DNA, which is used to store biological information. Organisms compact the...
How did the nucleosome, the fundamental building block of all eukaryotic chromatin, evolve? This cen...
The MkaH protein from the archaeon Methanopyrus kandleri, an unusual assembly of two histone-fold do...
The genomes of all organisms throughout the tree of life are compacted and organized in chromatin by...
AbstractBackground: The discovery of histone-like proteins in Archaea urged studies into the possibl...
The genomes of all organisms throughout the tree of life are compacted and organized in chromatin by...
Histones are ubiquitous in eukaryotes where they assemble into nucleosomes, binding and wrapping DNA...
Exchanging core histones in the nucleosome for paralogous variants can have important functional ram...
Motivation: Histones form octameric complexes called nucleosomes, which organize the genomic DNA of ...
The packaging of DNA in chromatin is an important determinant of transcription, replication and reco...
In eukaryotes, histone paralogues form obligate heterodimers such as H3/H4 and H2A/H2B that assemble...
Nucleosomes in eukaryotes act as platforms for the dynamic integration of epigenetic information. Po...
DNA compaction is a universal requirement across the three domains of life. The proteins responsible...
DNA binding and the topology of DNA have been determined in complexes formed by >20 archaeal histone...
Many archaea express histones, which organize the genome and play a key role in gene regulation. The...
All life on earth contains DNA, which is used to store biological information. Organisms compact the...
How did the nucleosome, the fundamental building block of all eukaryotic chromatin, evolve? This cen...
The MkaH protein from the archaeon Methanopyrus kandleri, an unusual assembly of two histone-fold do...
The genomes of all organisms throughout the tree of life are compacted and organized in chromatin by...
AbstractBackground: The discovery of histone-like proteins in Archaea urged studies into the possibl...
The genomes of all organisms throughout the tree of life are compacted and organized in chromatin by...
Histones are ubiquitous in eukaryotes where they assemble into nucleosomes, binding and wrapping DNA...
Exchanging core histones in the nucleosome for paralogous variants can have important functional ram...
Motivation: Histones form octameric complexes called nucleosomes, which organize the genomic DNA of ...
The packaging of DNA in chromatin is an important determinant of transcription, replication and reco...