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Recognition of modification status on a histone H3 tail by linked histone reader modules of the epigenetic regulator UHRF1.


ABSTRACT: Multiple covalent modifications on a histone tail are often recognized by linked histone reader modules. UHRF1 [ubiquitin-like, containing plant homeodomain (PHD) and really interesting new gene (RING) finger domains 1], an essential factor for maintenance of DNA methylation, contains linked two-histone reader modules, a tandem Tudor domain and a PHD finger, tethered by a 17-aa linker, and has been implicated to link histone modifications and DNA methylation. Here, we present the crystal structure of the linked histone reader modules of UHRF1 in complex with the amino-terminal tail of histone H3. Our structural and biochemical data provide the basis for combinatorial readout of unmodified Arg-2 (H3-R2) and methylated Lys-9 (H3-K9) by the tandem tudor domain and the PHD finger. The structure reveals that the intermodule linker plays an essential role in the formation of a histone H3-binding hole between the reader modules by making extended contacts with the tandem tudor domain. The histone H3 tail fits into the hole by adopting a compact fold harboring a central helix, which allows both of the reader modules to simultaneously recognize the modification states at H3-R2 and H3-K9. Our data also suggest that phosphorylation of a linker residue can modulate the relative position of the reader modules, thereby altering the histone H3-binding mode. This finding implies that the linker region plays a role as a functional switch of UHRF1 involved in multiple regulatory pathways such as maintenance of DNA methylation and transcriptional repression.

SUBMITTER: Arita K 

PROVIDER: S-EPMC3420164 | biostudies-literature | 2012 Aug

REPOSITORIES: biostudies-literature

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Recognition of modification status on a histone H3 tail by linked histone reader modules of the epigenetic regulator UHRF1.

Arita Kyohei K   Isogai Shin S   Oda Takashi T   Unoki Motoko M   Sugita Kazuya K   Sekiyama Naotaka N   Kuwata Keiko K   Hamamoto Ryuji R   Tochio Hidehito H   Sato Mamoru M   Ariyoshi Mariko M   Shirakawa Masahiro M  

Proceedings of the National Academy of Sciences of the United States of America 20120725 32


Multiple covalent modifications on a histone tail are often recognized by linked histone reader modules. UHRF1 [ubiquitin-like, containing plant homeodomain (PHD) and really interesting new gene (RING) finger domains 1], an essential factor for maintenance of DNA methylation, contains linked two-histone reader modules, a tandem Tudor domain and a PHD finger, tethered by a 17-aa linker, and has been implicated to link histone modifications and DNA methylation. Here, we present the crystal structu  ...[more]

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