Add to ORKGThe functional output of the genome is closely dependent on its organization within the nucleus, which ranges from the 10 nm chromatin fiber to the three-dimensional arrangement of this fiber in the nuclear space. Recent observations suggest that intra-and inter-chromosomal interactions between distant sequences underlie several aspects of transcription regulatory processes. These contacts can bring enhancers close to their target genes, or prevent inappropriate interactions between regulatory sequences via insulators. In addition, intra- and inter-chromosomal interactions can bring co-activated or co-repressed genes to the same nuclear location. Recent technological advances have made it possible to map long-range cis and trans interaction...
sequence elements, DNA-bound proteins, and nucleo-somes; secondary structure, comprising interaction...
The nucleus must simultaneously orchestrate DNA replication, transcription, splicing, signalling, an...
The nucleus must simultaneously orchestrate DNA replication, transcription, splicing, signalling, an...
Technological developments and intense research over the last years have led to a better understandi...
Over 200 cell types exist within the human body, each being different in morphology and function, ye...
Nuclear organization is an important factor that can be a contributing factor to the function of the...
Nuclear organization is an important factor that can be a contributing factor to the function of the...
The nucleus is a highly compartmentalised organelle. Associations of genomic loci with nuclear struc...
Transcriptional regulation is one the most basic mechanisms for controlling gene expression. Over th...
The non-coding part of our genome contains sequence motifs that can control gene transcription over ...
The genome has long been believed to be more or less randomly arranged in the nucleus. However, rece...
The expression patterns of many protein-coding genes are orchestrated in response to exogenous stimu...
Higher eukaryotic genomes contain both housekeeping genes and genes of which the expression is restr...
International audienceAbstract In eukaryotic cells, the spatial organization of genes within the nuc...
The nuclear organization of chromosomes has been suggested to be associated with regulation of gene ...
sequence elements, DNA-bound proteins, and nucleo-somes; secondary structure, comprising interaction...
The nucleus must simultaneously orchestrate DNA replication, transcription, splicing, signalling, an...
The nucleus must simultaneously orchestrate DNA replication, transcription, splicing, signalling, an...
Technological developments and intense research over the last years have led to a better understandi...
Over 200 cell types exist within the human body, each being different in morphology and function, ye...
Nuclear organization is an important factor that can be a contributing factor to the function of the...
Nuclear organization is an important factor that can be a contributing factor to the function of the...
The nucleus is a highly compartmentalised organelle. Associations of genomic loci with nuclear struc...
Transcriptional regulation is one the most basic mechanisms for controlling gene expression. Over th...
The non-coding part of our genome contains sequence motifs that can control gene transcription over ...
The genome has long been believed to be more or less randomly arranged in the nucleus. However, rece...
The expression patterns of many protein-coding genes are orchestrated in response to exogenous stimu...
Higher eukaryotic genomes contain both housekeeping genes and genes of which the expression is restr...
International audienceAbstract In eukaryotic cells, the spatial organization of genes within the nuc...
The nuclear organization of chromosomes has been suggested to be associated with regulation of gene ...
sequence elements, DNA-bound proteins, and nucleo-somes; secondary structure, comprising interaction...
The nucleus must simultaneously orchestrate DNA replication, transcription, splicing, signalling, an...
The nucleus must simultaneously orchestrate DNA replication, transcription, splicing, signalling, an...