An asymmetric centromeric nucleosome.
Yuichi IchikawaNoriko SaitohPaul D KaufmanPublished in: eLife (2018)
Nucleosomes contain two copies of each core histone, held together by a naturally symmetric, homodimeric histone H3-H3 interface. This symmetry has complicated efforts to determine the regulatory potential of this architecture. Through molecular design and in vivo selection, we recently generated obligately heterodimeric H3s, providing a powerful tool for discovery of the degree to which nucleosome symmetry regulates chromosomal functions in living cells (Ichikawa et al., 2017). We now have extended this tool to the centromeric H3 isoform (Cse4/CENP-A) in budding yeast. These studies indicate that a single Cse4 N- or C-terminal extension per pair of Cse4 molecules is sufficient for kinetochore function, and validate previous experiments indicating that an octameric centromeric nucleosome is required for viability in this organism. These data also support the generality of the H3 asymmetric interface for probing general questions in chromatin biology.
Keyphrases
- living cells
- single molecule
- fluorescent probe
- transcription factor
- gene expression
- small molecule
- dna damage
- dna methylation
- electronic health record
- solid state
- high throughput
- genome wide
- quality improvement
- big data
- saccharomyces cerevisiae
- molecular dynamics simulations
- machine learning
- climate change
- artificial intelligence