All measurable features of higher-order chromosomal architecture undergo drastic reorganization as cells enter and exit mitosis. During mitosis, gene transcription is temporarily halted, the nuclear envelope is dismantled, and chromosomes undergo condensation. At this time, chromatin compartments, topologically associating domains (TADs), and loops that connect enhancers with promoters as well as CTCF/cohesin loops are dissolved. Upon G1 entry, genome organization is rebuilt in the daughter nuclei to resemble that of the mother nucleus. We survey recent studies that traced these features in relation to gene expression during the mitosis-to-G1-phase transition at high temporal resolution. Dissection of fluctuating architectural features informed the hierarchical relationships of chromosomal organization, the mechanisms by which they are formed, and their mutual (in-) dependence. These studies highlight the importance of considering the cell cycle dynamics for studies of chromosomal organization.
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