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High-throughput Pore-C reveals the single-allele topology and cell type-specificity of 3D genome folding.


ABSTRACT: Canonical three-dimensional (3D) genome structures represent the ensemble average of pairwise chromatin interactions but not the single-allele topologies in populations of cells. Recently developed Pore-C can capture multiway chromatin contacts that reflect regional topologies of single chromosomes. By carrying out high-throughput Pore-C, we reveal extensive but regionally restricted clusters of single-allele topologies that aggregate into canonical 3D genome structures in two human cell types. We show that fragments in multi-contact reads generally coexist in the same TAD. In contrast, a concurrent significant proportion of multi-contact reads span multiple compartments of the same chromatin type over megabase distances. Synergistic chromatin looping between multiple sites in multi-contact reads is rare compared to pairwise interactions. Interestingly, the single-allele topology clusters are cell type-specific even inside highly conserved TADs in different types of cells. In summary, HiPore-C enables global characterization of single-allele topologies at an unprecedented depth to reveal elusive genome folding principles.

SUBMITTER: Zhong JY 

PROVIDER: S-EPMC9988853 | biostudies-literature | 2023 Mar

REPOSITORIES: biostudies-literature

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High-throughput Pore-C reveals the single-allele topology and cell type-specificity of 3D genome folding.

Zhong Jia-Yong JY   Niu Longjian L   Lin Zhuo-Bin ZB   Bai Xin X   Chen Ying Y   Luo Feng F   Hou Chunhui C   Xiao Chuan-Le CL  

Nature communications 20230306 1


Canonical three-dimensional (3D) genome structures represent the ensemble average of pairwise chromatin interactions but not the single-allele topologies in populations of cells. Recently developed Pore-C can capture multiway chromatin contacts that reflect regional topologies of single chromosomes. By carrying out high-throughput Pore-C, we reveal extensive but regionally restricted clusters of single-allele topologies that aggregate into canonical 3D genome structures in two human cell types.  ...[more]

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