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High-resolution genome topology of human retina uncovers super enhancer-promoter interactions at tissue-specific and multifactorial disease loci

Author

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  • Claire Marchal

    (Neurobiology, Neurodegeneration and Repair Laboratory, National Eye Institute, National Institutes of Health, MSC0610
    In silichrom Ltd)

  • Nivedita Singh

    (Neurobiology, Neurodegeneration and Repair Laboratory, National Eye Institute, National Institutes of Health, MSC0610)

  • Zachary Batz

    (Neurobiology, Neurodegeneration and Repair Laboratory, National Eye Institute, National Institutes of Health, MSC0610)

  • Jayshree Advani

    (Neurobiology, Neurodegeneration and Repair Laboratory, National Eye Institute, National Institutes of Health, MSC0610)

  • Catherine Jaeger

    (Neurobiology, Neurodegeneration and Repair Laboratory, National Eye Institute, National Institutes of Health, MSC0610)

  • Ximena Corso-Díaz

    (Neurobiology, Neurodegeneration and Repair Laboratory, National Eye Institute, National Institutes of Health, MSC0610)

  • Anand Swaroop

    (Neurobiology, Neurodegeneration and Repair Laboratory, National Eye Institute, National Institutes of Health, MSC0610)

Abstract

Chromatin organization and enhancer-promoter contacts establish unique spatiotemporal gene expression patterns in distinct cell types. Non-coding genetic variants can influence cellular phenotypes by modifying higher-order transcriptional hubs and consequently gene expression. To elucidate genomic regulation in human retina, we mapped chromatin contacts at high resolution and integrated with super-enhancers (SEs), histone marks, binding of CTCF and select transcription factors. We show that topologically associated domains (TADs) with central SEs exhibit stronger insulation and augmented contact with retinal genes relative to TADs with edge SEs. Merging genome-wide expression quantitative trait loci (eQTLs) with topology map reveals physical links between 100 eQTLs and corresponding eGenes associated with retinal neurodegeneration. Additionally, we uncover candidate genes for susceptibility variants linked to age-related macular degeneration and glaucoma. Our study of high-resolution genomic architecture of human retina provides insights into genetic control of tissue-specific functions, suggests paradigms for missing heritability, and enables the dissection of common blinding disease phenotypes.

Suggested Citation

  • Claire Marchal & Nivedita Singh & Zachary Batz & Jayshree Advani & Catherine Jaeger & Ximena Corso-Díaz & Anand Swaroop, 2022. "High-resolution genome topology of human retina uncovers super enhancer-promoter interactions at tissue-specific and multifactorial disease loci," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-33427-1
    DOI: 10.1038/s41467-022-33427-1
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    1. Andrew R. Hamel & Wenjun Yan & John M. Rouhana & Aboozar Monovarfeshani & Xinyi Jiang & Puja A. Mehta & Jayshree Advani & Yuyang Luo & Qingnan Liang & Skanda Rajasundaram & Arushi Shrivastava & Kather, 2024. "Integrating genetic regulation and single-cell expression with GWAS prioritizes causal genes and cell types for glaucoma," Nature Communications, Nature, vol. 15(1), pages 1-25, December.
    2. Jayshree Advani & Puja A. Mehta & Andrew R. Hamel & Sudeep Mehrotra & Christina Kiel & Tobias Strunz & Ximena Corso-Díaz & Madeline Kwicklis & Freekje Asten & Rinki Ratnapriya & Emily Y. Chew & Dena G, 2024. "QTL mapping of human retina DNA methylation identifies 87 gene-epigenome interactions in age-related macular degeneration," Nature Communications, Nature, vol. 15(1), pages 1-20, December.

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