Add to ORKGIt can be convenient to think of the genome as simply a string of nucleotides, the linear order of which encodes an organism's genetic blueprint. However, the genome does not exist as a linear entity within cells where this blueprint is actually utilized. Inside the nucleus, the genome is organized in three-dimensional (3D) space, and lineage-specific transcriptional programs that direct stem cell fate are implemented in this native 3D context. Here, we review principles of 3D genome organization in mammalian cells. We focus on the emerging relationship between genome organization and lineage-specific transcriptional regulation, which we argue are inextricably linked
It is becoming increasingly clear that the shape of the genome importantly influences transcription ...
Forced expression of reprogramming factors can convert somatic cells into induced pluripotent stem c...
Understanding how complex cell-fate decisions emerge at the molecular level is a key challenge in de...
It can be convenient to think of the genome as simply a string of nucleotides, the linear order of w...
It can be convenient to think of the genome as simply a string of nucleotides, the linear order of w...
Pluripotent stem cells (PSCs) have the ability to self-renew and are capable of generating all embry...
Gene expression and cell fate determination require precise and coordinated epigenetic regulation. T...
The non-coding part of our genome contains sequence motifs that can control gene transcription over ...
Remarkably, cell types sharing the same linear genome sequence express different genes and have dist...
Animal development depends on not only the linear genome sequence that embeds millions of cis-regula...
Abstract Linear DNA undergoes a series of compression and folding events, forming various three‐dime...
The evolution of the nucleus is an evolutionary milestone. By enabling genome compartmentalization, ...
SummaryForced expression of reprogramming factors can convert somatic cells into induced pluripotent...
Mammalian genomes encode genetic information in their linear sequence, but appropriate expression of...
Fundamental features of genome regulation depend on the linear DNA sequence, cell type specific modi...
It is becoming increasingly clear that the shape of the genome importantly influences transcription ...
Forced expression of reprogramming factors can convert somatic cells into induced pluripotent stem c...
Understanding how complex cell-fate decisions emerge at the molecular level is a key challenge in de...
It can be convenient to think of the genome as simply a string of nucleotides, the linear order of w...
It can be convenient to think of the genome as simply a string of nucleotides, the linear order of w...
Pluripotent stem cells (PSCs) have the ability to self-renew and are capable of generating all embry...
Gene expression and cell fate determination require precise and coordinated epigenetic regulation. T...
The non-coding part of our genome contains sequence motifs that can control gene transcription over ...
Remarkably, cell types sharing the same linear genome sequence express different genes and have dist...
Animal development depends on not only the linear genome sequence that embeds millions of cis-regula...
Abstract Linear DNA undergoes a series of compression and folding events, forming various three‐dime...
The evolution of the nucleus is an evolutionary milestone. By enabling genome compartmentalization, ...
SummaryForced expression of reprogramming factors can convert somatic cells into induced pluripotent...
Mammalian genomes encode genetic information in their linear sequence, but appropriate expression of...
Fundamental features of genome regulation depend on the linear DNA sequence, cell type specific modi...
It is becoming increasingly clear that the shape of the genome importantly influences transcription ...
Forced expression of reprogramming factors can convert somatic cells into induced pluripotent stem c...
Understanding how complex cell-fate decisions emerge at the molecular level is a key challenge in de...