从利用Hi-C数据提取的有效相互作用到常规核和倒核的染色体结构

PRX Life Pub Date : 2023-04-05 DOI:10.1103/prxlife.1.013010
Sucheol Shin, Guang Shi, D. Thirumalai
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引用次数: 1

摘要

利用全基因组染色体构象捕获(Hi-C)实验,已经报道了许多细胞类型的基因座之间的接触概率,这些基因座被任意基因组距离分开。如何在没有基础聚合物模型的情况下,直接从实验数据中提取活性常染色质(A)和非活性异染色质(B)之间的有效相互作用能是一个未解决的问题。在这里,我们首先利用统计势(SP)的概念,基于Hi-C数据计算间期染色体的成对有效相互作用能(A-A, B-B或A-B),该概念假设两个基因座之间的相互作用能与它们相互作用频率的对数成正比。聚合物模拟,利用提取的相互作用能值$\textit{without any parameter}$,再现了A型和B型位点(室室)之间的分离,以及拓扑相关结构域(TADs)的出现,这些特征在间期染色体的Hi-C数据中很突出。值得注意的是,SP值自动满足所有染色体的Flory-Huggins相分离准则,这解释了间期染色体室室形成的机制。引人注目的是,使用SP对周中心本构异染色质(c型)进行的模拟显示,核中心的c型基因座密度高,其次是B型基因座的定位,常染色质被限制在核外围,这与预期的间期染色体的核组织不同,但与夜行哺乳动物光感受器棒中发现的倒核成像数据一致。所提出的无参数方法和应用表明,常规核和倒立核的室室形成最好的解释是有效相互作用能之间的不平等。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
From Effective Interactions Extracted Using Hi-C Data to Chromosome Structures in Conventional and Inverted Nuclei
Contact probabilities between loci, separated by arbitrary genomic distance, for a number of cell types have been reported using genome-wide chromosome conformation capture (Hi-C) experiments. How to extract the effective interaction energies between active euchromatin (A) and inactive heterochromatin (B) directly from the experimental data, without an underlying polymer model, is unsolved. Here, we first calculate the pairwise effective interaction energies (A-A, B-B, or A-B) for interphase chromosomes based on Hi-C data by using the concept of Statistical Potential (SP), which assumes that the interaction energy between two loci is proportional to the logarithm of the frequency with which they interact. Polymer simulations, using the extracted interaction energy values $\textit{without any parameter}$, reproduce the segregation between A and B type loci (compartments), and the emergence of topologically associating domains (TADs), features that are prominent in the Hi-C data for interphase chromosomes. Remarkably, the values of the SP automatically satisfy the Flory-Huggins phase separation criterion for all the chromosomes, which explains the mechanism of compartment formation in interphase chromosomes. Strikingly, simulations using the SP that accounts for pericentromeric constitutive heterochromatin (C-type), show hierarchical structuring with the high density of C-type loci in the nuclear center, followed by localization of the B type loci, with euchromatin being confined to the nuclear periphery, which differs from the expected nuclear organization of interphase chromosomes, but is in accord with the imaging data of the inverted nuclei found in photoreceptor rods in nocturnal mammals. The proposed parameter free method and applications show that compartment formation in conventional and inverted nuclei is best explained by the inequality between the effective interaction energies.
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