Uncovering the cis-regulatory code that governs when and how much each gene is
transcribed in a given genome and cellular state remains a central goal of biology. Here, we …

The Mediator complex, which in humans is 1.4 MDa in size and includes 26 subunits,
controls many aspects of RNA polymerase II (Pol II) function. Apart from its size, a defining …

Joint profiling of chromatin accessibility and gene expression in individual cells provides an
opportunity to decipher enhancer-driven gene regulatory networks (GRNs). Here we present …

In animals, the sequences for controlling gene expression do not concentrate just at the
transcription start site of genes, but are frequently thousands to millions of base pairs distal …

Chromosome structure in mammals is thought to regulate transcription by modulating three-
dimensional interactions between enhancers and promoters, notably through CTCF …

How enhancers activate their distal target promoters remains incompletely understood. Here
we dissect how CTCF-mediated loops facilitate and restrict such regulatory interactions …

It remains unclear why acute depletion of CTCF (CCCTC-binding factor) and cohesin only
marginally affects expression of most genes despite substantially perturbing three …

Few transcription factors have been examined for their direct roles in physically connecting
enhancers and promoters. Here acute degradation of Yin Yang 1 (YY1) in erythroid cells …

How distal cis-regulatory elements (eg, enhancers) communicate with promoters remains an
unresolved question of fundamental importance. Although transcription factors and cofactors …

Topologically associating domains (TADs) are fundamental units of three-dimensional (3D)
nuclear organization. The regions bordering TADs—TAD boundaries—contribute to the …