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Uncovering the Principles of Genome Folding by 3D Chromatin Modeling

Authors :
Frank Alber
Yuxiang Zhan
Asli Yildirim
Lorenzo Boninsegna
Source :
Cold Spring Harbor perspectives in biology. 14(6)
Publication Year :
2024

Abstract

Our understanding of how genomic DNA is tightly packed inside the nucleus, yet is still accessible for vital cellular processes, has grown dramatically over recent years with advances in microscopy and genomics technologies. Computational methods have played a pivotal role in the structural interpretation of experimental data, which helped unravel some organizational principles of genome folding. Here, we give an overview of current computational efforts in mechanistic and data-driven 3D chromatin structure modeling. We discuss strengths and limitations of different methods and evaluate the added value and benefits of computational approaches to infer the 3D structural and dynamic properties of the genome and its underlying mechanisms at different scales and resolution, ranging from the dynamic formation of chromatin loops and topological associated domains to nuclear compartmentalization of chromatin and nuclear bodies.

Details

ISSN :
19430264
Volume :
14
Issue :
6
Database :
OpenAIRE
Journal :
Cold Spring Harbor perspectives in biology
Accession number :
edsair.doi.dedup.....b0b2953317c31f4c335d4a97e0b833b8