Unknown

Dataset Information

0

Hemi-methylated DNA opens a closed conformation of UHRF1 to facilitate its histone recognition.

ABSTRACT: UHRF1 is an important epigenetic regulator for maintenance DNA methylation. UHRF1 recognizes hemi-methylated DNA (hm-DNA) and trimethylation of histone H3K9 (H3K9me3), but the regulatory mechanism remains unknown. Here we show that UHRF1 adopts a closed conformation, in which a C-terminal region (Spacer) binds to the tandem Tudor domain (TTD) and inhibits H3K9me3 recognition, whereas the SET-and-RING-associated (SRA) domain binds to the plant homeodomain (PHD) and inhibits H3R2 recognition. Hm-DNA impairs the intramolecular interactions and promotes H3K9me3 recognition by TTD-PHD. The Spacer also facilitates UHRF1-DNMT1 interaction and enhances hm-DNA-binding affinity of the SRA. When TTD-PHD binds to H3K9me3, SRA-Spacer may exist in a dynamic equilibrium: either recognizes hm-DNA or recruits DNMT1 to chromatin. Our study reveals the mechanism for regulation of H3K9me3 and hm-DNA recognition by URHF1.

SUBMITTER: Fang J 

PROVIDER: S-EPMC4822050 | biostudies-literature | 2016 Apr

REPOSITORIES: biostudies-literature

Json Xml
altmetric image

Publications

Hemi-methylated DNA opens a closed conformation of UHRF1 to facilitate its histone recognition.

Fang Jian J   Cheng Jingdong J   Wang Jiaolong J   Zhang Qiao Q   Liu Mengjie M   Gong Rui R   Wang Ping P   Zhang Xiaodan X   Feng Yangyang Y   Lan Wenxian W   Gong Zhou Z   Tang Chun C   Wong Jiemin J   Yang Huirong H   Cao Chunyang C   Xu Yanhui Y  

Nature communications 20160405

UHRF1 is an important epigenetic regulator for maintenance DNA methylation. UHRF1 recognizes hemi-methylated DNA (hm-DNA) and trimethylation of histone H3K9 (H3K9me3), but the regulatory mechanism remains unknown. Here we show that UHRF1 adopts a closed conformation, in which a C-terminal region (Spacer) binds to the tandem Tudor domain (TTD) and inhibits H3K9me3 recognition, whereas the SET-and-RING-associated (SRA) domain binds to the plant homeodomain (PHD) and inhibits H3R2 recognition. Hm-D  ...[more]

Similar Datasets

Unknown A Bifunctional Role for the UHRF1 UBL Domain in the Control of Hemi-methylated DNA-Dependent Histone Ubiquitylation.
| S-EPMC6239910 | biostudies-literature
Unknown Hemi-methylated DNA regulates DNA methylation inheritance through allosteric activation of H3 ubiquitylation by UHRF1.
| S-EPMC5012860 | biostudies-literature
Proteomics Hemi-methylated DNA regulates DNA methylation inheritance through allosteric control of H3 ubiquitylation by UHRF1
2016-08-25 | PXD003983 | Pride
Unknown The DNA methyltransferase Dnmt1 directly interacts with the SET and RING finger-associated (SRA) domain of the multifunctional protein Uhrf1 to facilitate accession of the catalytic center to hemi-methylated DNA.
| S-EPMC3879560 | biostudies-literature
Unknown Recognition of multivalent histone states associated with heterochromatin by UHRF1 protein.
| S-EPMC3129210 | biostudies-literature
Unknown Association of UHRF1 with methylated H3K9 directs the maintenance of DNA methylation.
| S-EPMC3492551 | biostudies-literature
Unknown Engineering affinity agents for the detection of hemi-methylated CpG sites in DNA.
| S-EPMC5450655 | biostudies-literature
Unknown Dynamics of Methylated Cytosine Flipping by UHRF1.
| S-EPMC5335914 | biostudies-literature
Unknown Structural Insight into Recognition of Methylated Histone H3K4 by Set3.
| S-EPMC5374059 | biostudies-literature
Unknown Specific Recognition of Arginine Methylated Histone Tails by JMJD5 and JMJD7.
| S-EPMC5818494 | biostudies-literature