Inter-chromosomal contacts demarcate genome topology along a spatial gradient

Milad Mokhtaridoost; Jordan J. Chalmers; Marzieh Soleimanpoor; Brandon J. McMurray; Daniella F. Lato; Son C. Nguyen; Viktoria Musienko; Joshua O. Nash; Sergio Espeso-Gil; Sameen Ahmed; Kate Delfosse; Jared W.L. Browning; A. Rasim Barutcu; Michael D. Wilson; Thomas Liehr; Adam Shlien; Samin Aref; Eric F. Joyce; Anja Weise; Philipp G. Maass

doi:10.1038/s41467-024-53983-y

Inter-chromosomal contacts demarcate genome topology along a spatial gradient

Milad Mokhtaridoost
, Jordan J. Chalmers
, Marzieh Soleimanpoor
, Brandon J. McMurray
, Daniella F. Lato
, Son C. Nguyen
, Viktoria Musienko
, Joshua O. Nash
, Sergio Espeso-Gil
, Sameen Ahmed
, Kate Delfosse
, Jared W.L. Browning
, A. Rasim Barutcu
, Michael D. Wilson
, Thomas Liehr
, Adam Shlien
, Samin Aref
, Eric F. Joyce
, Anja Weise
, Philipp G. Maass

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Non-homologous chromosomal contacts (NHCCs) between different chromosomes participate considerably in gene and genome regulation. Due to analytical challenges, NHCCs are currently considered as singular, stochastic events, and their extent and fundamental principles across cell types remain controversial. We develop a supervised and unsupervised learning algorithm, termed Signature, to call NHCCs in Hi-C datasets to advance our understanding of genome topology. Signature reveals 40,282 NHCCs and their properties across 62 Hi-C datasets of 53 diploid human cell types. Genomic regions of NHCCs are gene-dense, highly expressed, and harbor genes for cell-specific and sex-specific functions. Extensive inter-telomeric and inter-centromeric clustering occurs across cell types [Rabl’s configuration] and 61 NHCCs are consistently found at the nuclear speckles. These constitutive ‘anchor loci’ facilitate an axis of genome activity whilst cell-type-specific NHCCs act in discrete hubs. Our results suggest that non-random chromosome positioning is supported by constitutive NHCCs that shape genome topology along an off-centered spatial gradient of genome activity.

Original language	English
Article number	9813
Journal	Nature Communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-53983-y
State	Published - Dec 2024
Externally published	Yes

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Mokhtaridoost, M., Chalmers, J. J., Soleimanpoor, M., McMurray, B. J., Lato, D. F., Nguyen, S. C., Musienko, V., Nash, J. O., Espeso-Gil, S., Ahmed, S., Delfosse, K., Browning, J. W. L., Barutcu, A. R., Wilson, M. D., Liehr, T., Shlien, A., Aref, S., Joyce, E. F., Weise, A., & Maass, P. G. (2024). Inter-chromosomal contacts demarcate genome topology along a spatial gradient. Nature Communications, 15(1), Article 9813. https://doi.org/10.1038/s41467-024-53983-y

@article{e21a69981d654515a314ce4959feb6c5,

title = "Inter-chromosomal contacts demarcate genome topology along a spatial gradient",

abstract = "Non-homologous chromosomal contacts (NHCCs) between different chromosomes participate considerably in gene and genome regulation. Due to analytical challenges, NHCCs are currently considered as singular, stochastic events, and their extent and fundamental principles across cell types remain controversial. We develop a supervised and unsupervised learning algorithm, termed Signature, to call NHCCs in Hi-C datasets to advance our understanding of genome topology. Signature reveals 40,282 NHCCs and their properties across 62 Hi-C datasets of 53 diploid human cell types. Genomic regions of NHCCs are gene-dense, highly expressed, and harbor genes for cell-specific and sex-specific functions. Extensive inter-telomeric and inter-centromeric clustering occurs across cell types [Rabl{\textquoteright}s configuration] and 61 NHCCs are consistently found at the nuclear speckles. These constitutive {\textquoteleft}anchor loci{\textquoteright} facilitate an axis of genome activity whilst cell-type-specific NHCCs act in discrete hubs. Our results suggest that non-random chromosome positioning is supported by constitutive NHCCs that shape genome topology along an off-centered spatial gradient of genome activity.",

author = "Milad Mokhtaridoost and Chalmers, \{Jordan J.\} and Marzieh Soleimanpoor and McMurray, \{Brandon J.\} and Lato, \{Daniella F.\} and Nguyen, \{Son C.\} and Viktoria Musienko and Nash, \{Joshua O.\} and Sergio Espeso-Gil and Sameen Ahmed and Kate Delfosse and Browning, \{Jared W.L.\} and Barutcu, \{A. Rasim\} and Wilson, \{Michael D.\} and Thomas Liehr and Adam Shlien and Samin Aref and Joyce, \{Eric F.\} and Anja Weise and Maass, \{Philipp G.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2024",

month = dec,

doi = "10.1038/s41467-024-53983-y",

language = "English",

volume = "15",

journal = "Nature Communications",

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Mokhtaridoost, M, Chalmers, JJ, Soleimanpoor, M, McMurray, BJ, Lato, DF, Nguyen, SC, Musienko, V, Nash, JO, Espeso-Gil, S, Ahmed, S, Delfosse, K, Browning, JWL, Barutcu, AR, Wilson, MD, Liehr, T, Shlien, A, Aref, S, Joyce, EF, Weise, A & Maass, PG 2024, 'Inter-chromosomal contacts demarcate genome topology along a spatial gradient', Nature Communications, vol. 15, no. 1, 9813. https://doi.org/10.1038/s41467-024-53983-y

TY - JOUR

T1 - Inter-chromosomal contacts demarcate genome topology along a spatial gradient

AU - Mokhtaridoost, Milad

AU - Chalmers, Jordan J.

AU - Soleimanpoor, Marzieh

AU - McMurray, Brandon J.

AU - Lato, Daniella F.

AU - Nguyen, Son C.

AU - Musienko, Viktoria

AU - Nash, Joshua O.

AU - Espeso-Gil, Sergio

AU - Ahmed, Sameen

AU - Delfosse, Kate

AU - Browning, Jared W.L.

AU - Barutcu, A. Rasim

AU - Wilson, Michael D.

AU - Liehr, Thomas

AU - Shlien, Adam

AU - Aref, Samin

AU - Joyce, Eric F.

AU - Weise, Anja

AU - Maass, Philipp G.

PY - 2024/12

Y1 - 2024/12

N2 - Non-homologous chromosomal contacts (NHCCs) between different chromosomes participate considerably in gene and genome regulation. Due to analytical challenges, NHCCs are currently considered as singular, stochastic events, and their extent and fundamental principles across cell types remain controversial. We develop a supervised and unsupervised learning algorithm, termed Signature, to call NHCCs in Hi-C datasets to advance our understanding of genome topology. Signature reveals 40,282 NHCCs and their properties across 62 Hi-C datasets of 53 diploid human cell types. Genomic regions of NHCCs are gene-dense, highly expressed, and harbor genes for cell-specific and sex-specific functions. Extensive inter-telomeric and inter-centromeric clustering occurs across cell types [Rabl’s configuration] and 61 NHCCs are consistently found at the nuclear speckles. These constitutive ‘anchor loci’ facilitate an axis of genome activity whilst cell-type-specific NHCCs act in discrete hubs. Our results suggest that non-random chromosome positioning is supported by constitutive NHCCs that shape genome topology along an off-centered spatial gradient of genome activity.

AB - Non-homologous chromosomal contacts (NHCCs) between different chromosomes participate considerably in gene and genome regulation. Due to analytical challenges, NHCCs are currently considered as singular, stochastic events, and their extent and fundamental principles across cell types remain controversial. We develop a supervised and unsupervised learning algorithm, termed Signature, to call NHCCs in Hi-C datasets to advance our understanding of genome topology. Signature reveals 40,282 NHCCs and their properties across 62 Hi-C datasets of 53 diploid human cell types. Genomic regions of NHCCs are gene-dense, highly expressed, and harbor genes for cell-specific and sex-specific functions. Extensive inter-telomeric and inter-centromeric clustering occurs across cell types [Rabl’s configuration] and 61 NHCCs are consistently found at the nuclear speckles. These constitutive ‘anchor loci’ facilitate an axis of genome activity whilst cell-type-specific NHCCs act in discrete hubs. Our results suggest that non-random chromosome positioning is supported by constitutive NHCCs that shape genome topology along an off-centered spatial gradient of genome activity.

UR - https://www.scopus.com/pages/publications/85209178769

U2 - 10.1038/s41467-024-53983-y

DO - 10.1038/s41467-024-53983-y

M3 - Article

C2 - 39532865

AN - SCOPUS:85209178769

SN - 2041-1723

VL - 15

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 9813

ER -

Inter-chromosomal contacts demarcate genome topology along a spatial gradient

Abstract

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