Between form and function: The complexity of genome folding

Oudelaar, A. M.; Hanssen, L. L. P.; Hardison, R. C.; Kassouf, M. T.; Hughes, J. R.; Higgs, D. R.

doi:10.1093/hmg/ddx306

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Between form and function: The complexity of genome folding

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Oudelaar, A. M.
Lise Meitner Group Genome Organization and Regulation, MPI for Biophysical Chemistry, Max Planck Society;

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Citation

Oudelaar, A. M., Hanssen, L. L. P., Hardison, R. C., Kassouf, M. T., Hughes, J. R., & Higgs, D. R. (2017). Between form and function: The complexity of genome folding. Human Molecular Genetics, 26(R2), R208-R215. doi:10.1093/hmg/ddx306.

Cite as: https://hdl.handle.net/21.11116/0000-0007-616D-2

Abstract

It has been known for over a century that chromatin is not randomly distributed within the nucleus. However, the question of how DNA is folded and the influence of such folding on nuclear processes remain topics of intensive current research. A longstanding, unanswered question is whether nuclear organization is simply a reflection of nuclear processes such as transcription and replication, or whether chromatin is folded by independent mechanisms and this per se encodes function? Evidence is emerging that both may be true. Here, using the α-globin gene cluster as an illustrative model, we provide an overview of the most recent insights into the layers of genome organization across different scales and how this relates to gene activity.