Structural basis of telomeric nucleosome recognition by shelterin factor TRF1

Hongmiao Hu; Anne Marie M. van Roon; George E. Ghanim; Bilal Ahsan; Abraham O. Oluwole; Sew Yeu Peak-Chew; Carol V. Robinson; Thi Hoang Duong Nguyen

doi:10.1126/sciadv.adi4148

Structural basis of telomeric nucleosome recognition by shelterin factor TRF1

Hongmiao Hu, Anne Marie M. van Roon, George E. Ghanim, Bilal Ahsan, Abraham O. Oluwole, Sew Yeu Peak-Chew, Carol V. Robinson, Thi Hoang Duong Nguyen

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

8 Scopus citations

Abstract

Shelterin and nucleosomes are the key players that organize mammalian chromosome ends into the protective telomere caps. However, how they interact with each other at telomeres remains unknown. We report cryo-electron microscopy structures of a human telomeric nucleosome both unbound and bound to the shelterin factor TRF1. Our structures reveal that TRF1 binds unwrapped nucleosomal DNA ends by engaging both the nucleosomal DNA and the histone octamer. Unexpectedly, TRF1 binding shifts the register of the nucleosomal DNA by 1 bp. We discovered that phosphorylation of the TRF1 C terminus and a noncanomical DNA binding surface on TRF1 are critical for its association with telomeric nucleosomes. These insights into shelterin-chromatin interactions have crucial implications for understanding telomeric chromatin organization and other roles of shelterin at telomeres including replication and transcription.

Original language	English (US)
Article number	eadi4148
Journal	Science Advances
Volume	9
Issue number	34
DOIs	https://doi.org/10.1126/sciadv.adi4148
State	Published - Aug 2023
Externally published	Yes

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title = "Structural basis of telomeric nucleosome recognition by shelterin factor TRF1",

abstract = "Shelterin and nucleosomes are the key players that organize mammalian chromosome ends into the protective telomere caps. However, how they interact with each other at telomeres remains unknown. We report cryo-electron microscopy structures of a human telomeric nucleosome both unbound and bound to the shelterin factor TRF1. Our structures reveal that TRF1 binds unwrapped nucleosomal DNA ends by engaging both the nucleosomal DNA and the histone octamer. Unexpectedly, TRF1 binding shifts the register of the nucleosomal DNA by 1 bp. We discovered that phosphorylation of the TRF1 C terminus and a noncanomical DNA binding surface on TRF1 are critical for its association with telomeric nucleosomes. These insights into shelterin-chromatin interactions have crucial implications for understanding telomeric chromatin organization and other roles of shelterin at telomeres including replication and transcription.",

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AU - Hu, Hongmiao

AU - van Roon, Anne Marie M.

AU - Ghanim, George E.

AU - Ahsan, Bilal

AU - Oluwole, Abraham O.

AU - Peak-Chew, Sew Yeu

AU - Robinson, Carol V.

AU - Nguyen, Thi Hoang Duong

PY - 2023/8

Y1 - 2023/8

N2 - Shelterin and nucleosomes are the key players that organize mammalian chromosome ends into the protective telomere caps. However, how they interact with each other at telomeres remains unknown. We report cryo-electron microscopy structures of a human telomeric nucleosome both unbound and bound to the shelterin factor TRF1. Our structures reveal that TRF1 binds unwrapped nucleosomal DNA ends by engaging both the nucleosomal DNA and the histone octamer. Unexpectedly, TRF1 binding shifts the register of the nucleosomal DNA by 1 bp. We discovered that phosphorylation of the TRF1 C terminus and a noncanomical DNA binding surface on TRF1 are critical for its association with telomeric nucleosomes. These insights into shelterin-chromatin interactions have crucial implications for understanding telomeric chromatin organization and other roles of shelterin at telomeres including replication and transcription.

AB - Shelterin and nucleosomes are the key players that organize mammalian chromosome ends into the protective telomere caps. However, how they interact with each other at telomeres remains unknown. We report cryo-electron microscopy structures of a human telomeric nucleosome both unbound and bound to the shelterin factor TRF1. Our structures reveal that TRF1 binds unwrapped nucleosomal DNA ends by engaging both the nucleosomal DNA and the histone octamer. Unexpectedly, TRF1 binding shifts the register of the nucleosomal DNA by 1 bp. We discovered that phosphorylation of the TRF1 C terminus and a noncanomical DNA binding surface on TRF1 are critical for its association with telomeric nucleosomes. These insights into shelterin-chromatin interactions have crucial implications for understanding telomeric chromatin organization and other roles of shelterin at telomeres including replication and transcription.

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Structural basis of telomeric nucleosome recognition by shelterin factor TRF1

Abstract

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