Two independent modes of chromatin organization revealed by cohesin removal

粘蛋白 CTCF公司 染色质 舱室(船) 染色体分离 生物 基因组组织 相间 染色体 基因组 细胞生物学 表观遗传学 染色体构象捕获 遗传学 着丝粒 增强子 计算生物学 基因 转录因子 海洋学 地质学
作者
Wibke Schwarzer,Nezar Abdennur,Anton Goloborodko,Aleksandra Pękowska,Geoffrey Fudenberg,Yann Loe-Mie,Nuno A. Fonseca,Wolfgang Huber,Christian H. Haering,Leonid A. Mirny,François Spitz
出处
期刊:Nature [Nature Portfolio]
卷期号:551 (7678): 51-56 被引量:1301
标识
DOI:10.1038/nature24281
摘要

Imaging and chromosome conformation capture studies have revealed several layers of chromosome organization, including segregation into megabase-sized active and inactive compartments, and partitioning into sub-megabase domains (TADs). It remains unclear, however, how these layers of organization form, interact with one another and influence genome function. Here we show that deletion of the cohesin-loading factor Nipbl in mouse liver leads to a marked reorganization of chromosomal folding. TADs and associated Hi-C peaks vanish globally, even in the absence of transcriptional changes. By contrast, compartmental segregation is preserved and even reinforced. Strikingly, the disappearance of TADs unmasks a finer compartment structure that accurately reflects the underlying epigenetic landscape. These observations demonstrate that the three-dimensional organization of the genome results from the interplay of two independent mechanisms: cohesin-independent segregation of the genome into fine-scale compartments, defined by chromatin state; and cohesin-dependent formation of TADs, possibly by loop extrusion, which helps to guide distant enhancers to their target genes. Depletion of chromosome-associated cohesin leads to loss of topologically associating domains in interphase chromosomes, without affecting segregation into compartments, and instead, it unmasks a finer compartment structure that reflects local chromatin and transcriptional activity. The nuclear organization of interphase chromosomes is thought to be mediated by architectural protein complexes such as CTCF and cohesin, which are found at loops and at the boundaries of topological domains (TADs). However, experimental depletion of these proteins has shown limited impact on chromosome organization. Here, Francois Spitz and colleagues perform an inducible deletion of the cohesin-loading factor Nipbl in liver cells in mice. They find that depletion of chromosome-associated cohesin leads to the loss of TADs and TAD-associated loops, but segregation of the genome into compartments is preserved and transcription is affected only at a subset of genes. The disappearance of TADs unmasks a finer compartment structure that reflects local transcriptional activity. Genome organization therefore seems to result from two distinct mechanisms with different requirements for cohesin.
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