The four-dimensional nucleome (4DN) consortium studies the architecture of the genome
and the nucleus in space and time. We summarize progress by the consortium and highlight …

Gene regulation is a central topic in cell biology. Advances in omics technologies and the
accumulation of omics data have provided better opportunities for gene regulation studies …

Cells undergo a major epigenome reconfiguration when reprogrammed to human induced
pluripotent stem cells (hiPS cells). However, the epigenomes of hiPS cells and human …

Mapping chromatin loops from noisy Hi-C heatmaps remains a major challenge. Here we
present DeepLoop, which performs rigorous bias correction followed by deep-learning …

Dynamically organized chromatin complexes often involve multiplex chromatin interactions
and sometimes chromatin-associated RNA,–. Chromatin complex compositions change …

Background B-type lamins are critical nuclear envelope proteins that interact with the three-
dimensional genomic architecture. However, identifying the direct roles of B-lamins on …

Chemicals or drugs can accumulate within biomolecular condensates formed through phase
separation in cells. Here, we use super-resolution imaging to search for chemicals that …

Cells respond to double-strand breaks (DSBs) by activating DNA damage response
pathways, including cell cycle arrest. We have previously shown that a single double-strand …

DNA replication is initiated at multiple loci to ensure timely duplication of eukaryotic
genomes. Sister replication forks progress bidirectionally, and replication terminates when …

Most studies of genome organization have focused on intrachromosomal (cis) contacts
because they harbor key features such as DNA loops and topologically associating …