Add to ORKGGenes constitute only a small portion of the total genome and precisely controlling their expression represents a substantial problem for their regulation. Furthermore, non-coding DNA, that contains introns repetitive elements and active transposable elements, demands effective mechanisms to silence it long-term. Cell differentiation and development are controlled through temporal and spatial activation and silencing of specific genes. These patterns of gene expression must remain stable for many cell generations and last or change when inductive developmental signals have disappeared or new ones induce new programmes
Maintaining and acquiring the pluripotent cell state in plants is critical to tissue regeneration an...
DNA methylation is an important epigenetic modification of the genome in all organisms. This review ...
In eukaryotic cells the methylation of cytosines in DNA is an essential mechanism which is implied i...
Genes constitute only a small portion of the total genome and precisely controlling their expressio...
All land plants so far examined use DNA methylation to silence transposons (TEs). DNA methylation th...
AbstractPlants contain three distinct DNA methyltransferase types that are responsible for the estab...
The immobile lifestyle of plants requires responses to adapt the environmental stress. Flexible epig...
DNA methylation is an epigenetic modification of the genome involved in the regulation of gene expre...
DNA methylation marks regulate gene expression and genome structure. Stability and dynamics of DNA m...
Progressive increase of temperatures as well as longer seasonal drought periods revealed by climate ...
AbstractThe formation of silent epialleles is accompanied by local hypermethylation of the DNA templ...
BackgroundIn eukaryotes, the combinatorial usage of cis-regulatory elements enables the assembly of ...
Cytosine methylation of repetitive sequences is widespread in plant genomes, occurring in both symme...
DNA methylation is an epigenetic modification required for transposable element (TE) silencing, geno...
DNA methylation in plants appears to be a phenomenon more complex than in animals both for site spe...
Maintaining and acquiring the pluripotent cell state in plants is critical to tissue regeneration an...
DNA methylation is an important epigenetic modification of the genome in all organisms. This review ...
In eukaryotic cells the methylation of cytosines in DNA is an essential mechanism which is implied i...
Genes constitute only a small portion of the total genome and precisely controlling their expressio...
All land plants so far examined use DNA methylation to silence transposons (TEs). DNA methylation th...
AbstractPlants contain three distinct DNA methyltransferase types that are responsible for the estab...
The immobile lifestyle of plants requires responses to adapt the environmental stress. Flexible epig...
DNA methylation is an epigenetic modification of the genome involved in the regulation of gene expre...
DNA methylation marks regulate gene expression and genome structure. Stability and dynamics of DNA m...
Progressive increase of temperatures as well as longer seasonal drought periods revealed by climate ...
AbstractThe formation of silent epialleles is accompanied by local hypermethylation of the DNA templ...
BackgroundIn eukaryotes, the combinatorial usage of cis-regulatory elements enables the assembly of ...
Cytosine methylation of repetitive sequences is widespread in plant genomes, occurring in both symme...
DNA methylation is an epigenetic modification required for transposable element (TE) silencing, geno...
DNA methylation in plants appears to be a phenomenon more complex than in animals both for site spe...
Maintaining and acquiring the pluripotent cell state in plants is critical to tissue regeneration an...
DNA methylation is an important epigenetic modification of the genome in all organisms. This review ...
In eukaryotic cells the methylation of cytosines in DNA is an essential mechanism which is implied i...