Genome folding principles revealed in condensin-depleted mitotic chromosomes

Author:

Zhao Han,Lin Yinzhi,Lin En,Liu Fuhai,Shu Lirong,Jing Dannan,Wang Baiyue,Wang Manzhu,Shan Fengnian,Zhang Lin,Lam Jessica C.,Midla Susannah C.,Giardine Belinda M.,Keller Cheryl A.ORCID,Hardison Ross C.ORCID,Blobel Gerd A.,Zhang Haoyue

Abstract

ABSTRACTDuring mitosis, condensin activity interferes with interphase chromatin structures. Here, we generated condensin-free mitotic chromosomes to investigate genome folding principles. Co- depletion of condensin I and II, but neither alone, triggered mitotic chromosome compartmentalization in ways that differ from interphase. Two distinct euchromatic compartments, indistinguishable in interphase, rapidly emerged upon condensin loss with different interaction preferences and dependence on H3K27ac. Constitutive heterochromatin gradually self-aggregated and co-compartmentalized with the facultative heterochromatin, contrasting with their separation during interphase. While topologically associating domains (TADs) and CTCF/cohesin mediated structural loops remained undetectable, cis-regulatory element contacts became apparent, providing an explanation for their quick re-establishment during mitotic exit. HP1 proteins, which are thought to partition constitutive heterochromatin, were absent from mitotic chromosomes, suggesting, surprisingly, that constitutive heterochromatin can self-aggregate without HP1. Indeed, in cells traversing from M- to G1-phase in the combined absence of HP1α, HP1Π and HP1γ, re-established constitutive heterochromatin compartments normally. In sum, “clean-slate” condensin-deficient mitotic chromosomes illuminate mechanisms of genome compartmentalization not revealed in interphase cells.

Publisher

Cold Spring Harbor Laboratory

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