Add to ORKGThe role of genomic sequence in directing the packaging of eukaryotic genomes into chromatin has been the subject of considerable recent debate. A new paper from Tillo and Hughes shows that the intrinsic thermodynamic preference of a given sequence in the yeast genome for the histone octamer can largely be captured with a simple model, and in fact is mostly explained by %GC. Thus, the rules for predicting nucleosome occupancy from genomic sequence are much less complicated than has been claimed
This thesis presents a broad study of the chromatin structure and function with special focus in the...
Nucleosome is the fundamental building block of eukaryotic chromatin. The precise location of nucleo...
Active eukaryotic regulatory sites are characterized by open chromatin, and yeast promoters and tran...
International audienceAs an important actor in the regulation of nuclear functions, the nucleosomal ...
The genomes of all eukaryotic organisms are packaged into chromatin, the fundamental unit of which i...
Two recent studies mapped nucleosomes across the yeast and human genomes, teasing apart the relative...
The fundamental molecular determinants by which ATP-dependent chromatin remodelers organize nucleoso...
Eukaryotes must pack their DNA into the nucleus tightly, yet accessibly. To accomplish this, the nuc...
[EN] Nucleosomes are the basic units of chromatin. They compact the genome inside the nucleus and r...
EukaryoticDNAis wrapped around nucleosomes, the packaging units of chromatin, and this architecture ...
ABSTRACT: Large-scale and genome-wide studies have concluded that ∼80% of the yeast (Saccharomyces c...
In the yeast genome, a large proportion of nucleosomes occupy well-defined and stable positions. Whi...
AbstractThe folding of DNA on the nucleosome core particle governs many fundamental issues in eukary...
Eukaryotic DNA is packaged in chromatin, whose repeating subunit, the nucleosome, consists of an oct...
A conserved hallmark of eukaryotic chromatin architecture is the distinctive array of well-positione...
This thesis presents a broad study of the chromatin structure and function with special focus in the...
Nucleosome is the fundamental building block of eukaryotic chromatin. The precise location of nucleo...
Active eukaryotic regulatory sites are characterized by open chromatin, and yeast promoters and tran...
International audienceAs an important actor in the regulation of nuclear functions, the nucleosomal ...
The genomes of all eukaryotic organisms are packaged into chromatin, the fundamental unit of which i...
Two recent studies mapped nucleosomes across the yeast and human genomes, teasing apart the relative...
The fundamental molecular determinants by which ATP-dependent chromatin remodelers organize nucleoso...
Eukaryotes must pack their DNA into the nucleus tightly, yet accessibly. To accomplish this, the nuc...
[EN] Nucleosomes are the basic units of chromatin. They compact the genome inside the nucleus and r...
EukaryoticDNAis wrapped around nucleosomes, the packaging units of chromatin, and this architecture ...
ABSTRACT: Large-scale and genome-wide studies have concluded that ∼80% of the yeast (Saccharomyces c...
In the yeast genome, a large proportion of nucleosomes occupy well-defined and stable positions. Whi...
AbstractThe folding of DNA on the nucleosome core particle governs many fundamental issues in eukary...
Eukaryotic DNA is packaged in chromatin, whose repeating subunit, the nucleosome, consists of an oct...
A conserved hallmark of eukaryotic chromatin architecture is the distinctive array of well-positione...
This thesis presents a broad study of the chromatin structure and function with special focus in the...
Nucleosome is the fundamental building block of eukaryotic chromatin. The precise location of nucleo...
Active eukaryotic regulatory sites are characterized by open chromatin, and yeast promoters and tran...