Abstract: The present invention relates to a method of determining the capacity of a Cluster 1 mammalian Transcription Factor (TF) for phase separation and/or the capacity for forming a transcriptional condensate in a sample, including a method of determining the presence, localization and/or morphology of a transcriptional condensate comprising said Transcription Factor, and/or of determining the composition of a transcriptional condensate comprising at least one Cluster 1 mammalian TF and/or of determining the transcriptional activity of the TF or a condensate comprising the TF. Further, the present invention relates to an active agent for use in a method of preventing and/or treating a disorder associated with, caused by and/or accompanied with a dysfunction of a biomolecular condensate comprising at least one Cluster 1 mammalian TF.

Abstract: Work described herein reveals 3D regulatory landscapes of hESCs representative of early human development. This work also demonstrates that cohesin-associated CTCF loops, and the cohesin-associate enhancer-promoter loops within them, dominate the organization of TADs. The CTCF-CTCF loops form a chromosomal scaffold of insulated neighborhoods that are largely preserved in vertebrates, and enhancer-promoter interactions occur within these neighborhoods. Genes are regulated in the context of conserved insulated neighborhood structures. Loss of neighborhood structures occurs frequently in cancer cells, and proto-oncogenes can be activated by genetic alterations that disrupt specific 3D chromosome structures.

Abstract: The present invention relates in some aspects to super-enhancers and related compositions, methods, and agents that are useful for modulating expression of cell type-specific genes that are required for maintenance of cell identity (e.g., embryonic stem cell identity) or maintenance of a disease state (e.g., cancer).

Abstract: Provided herein are improved compositions and methods for the directed control of gene expression.

Abstract: The present invention relates in some aspects to super-enhancers and related compositions, methods, and agents that are useful for modulating expression of cell type-specific genes that are required for maintenance of cell identity (e.g., embryonic stem cell identity) or maintenance of a disease state (e.g., cancer).

Abstract: The present invention relates in some aspects to super-enhancers and related compositions, methods, and agents that are useful for modulating expression of cell type-specific genes that are required for maintenance of cell identity (e.g., embryonic stem cell identity) or maintenance of a disease state (e.g., cancer).

Abstract: The present invention relates in some aspects to super-enhancers and related compositions, methods, and agents that are useful for modulating expression of cell type-specific genes that are required for maintenance of cell identity (e.g., embryonic stem cell identity) or maintenance of a disease state (e.g., cancer).

Abstract: The present invention relates in some aspects to super-enhancers and related compositions, methods, and agents that are useful for modulating expression of cell type-specific genes that are required for maintenance of cell identity (e.g., embryonic stem cell identity) or maintenance of a disease state (e.g., cancer).

Abstract: The present invention relates in some aspects to super-enhancers and related compositions, methods, and agents that are useful for modulating expression of cell type-specific genes that are required for maintenance of cell identity (e.g., embryonic stem cell identity) or maintenance of a disease state (e.g., cancer).