Patalano Fabiana, Sandve Simen Rød, Aasland Rein, Paulsen Jonas
Department of Biosciences, University of Oslo, 0316, Oslo, Norway.
Department of Animal and Aquacultural Sciences, Faculty of Biosciences, Norwegian University of Life Sciences, 1432, Ås, Norway.
BMC Biol. 2025 Aug 5;23(1):241. doi: 10.1186/s12915-025-02362-0.
Topologically associating domains (TADs) are fundamental structural and gene regulatory components of chromatin defined by regions of high intra-domain contact frequency. Though TADs are found across diverse metazoans, the extent of their evolutionary conservation is still debated.
Here, we investigated the evolutionary conservation of TADs by analysing Hi-C data from 12 vertebrate species. We examined TAD numbers, borders, and gene positioning within TADs. We found that TAD features are all highly conserved across species, but decrease with evolutionary distance. Nevertheless, modelling TAD evolution using Ornstein-Uhlenbeck (OU) process revealed strong stabilising selection signatures for TAD number within the majority of syntenic blocks. These syntenic blocks under selection were enriched for highly conserved noncoding elements associated with developmental gene regulation (genomic regulatory blocks). However, strong signatures for stabilising selection for TAD numbers were also found independent of genomic regulatory blocks or genes with non-developmental functions.
These findings improve our understanding of TAD conservation and highlight stabilising selection as an important driver in 3D genome evolution. Although selection on TAD structures is pronounced for developmental genes, our findings highlight the importance of TADs in genome and organismal functions beyond developmental biology.
拓扑相关结构域(TADs)是染色质的基本结构和基因调控成分,由高域内接触频率区域定义。尽管在多种后生动物中都发现了TADs,但其进化保守程度仍存在争议。
在这里,我们通过分析来自12种脊椎动物物种的Hi-C数据来研究TADs的进化保守性。我们检查了TAD的数量、边界以及TAD内的基因定位。我们发现TAD特征在物种间都高度保守,但会随着进化距离的增加而减少。然而,使用奥恩斯坦 - 乌伦贝克(OU)过程对TAD进化进行建模发现,在大多数同线区块内,TAD数量存在强烈的稳定选择特征。这些受到选择的同线区块富含与发育基因调控相关的高度保守非编码元件(基因组调控区块)。但是,在独立于基因组调控区块或具有非发育功能的基因的情况下,也发现了TAD数量稳定选择的强烈特征。
这些发现增进了我们对TAD保守性的理解,并突出了稳定选择作为三维基因组进化的重要驱动力。虽然对发育基因的TAD结构选择很明显,但我们的发现突出了TADs在发育生物学之外的基因组和生物体功能中的重要性。
