Dataset: PHD finger recognition of unmodified histone H3R2 links UHRF1 to regulation of euchromatic gene expression
Histone methylation occurs on both lysine and arginine residues and its dynamic regulation plays a critical role in chromatin biology....
Histone methylation occurs on both lysine and arginine residues and its dynamic regulation plays a critical role in chromatin biology. Here we identify the UHRF1 PHD domain (PHDUHRF1), an important regulator of DNA CpG methylation, as an unanticipated histone H3 unmodified arginine 2 (H3R2)-recognition modality. This conclusion is based on binding studies and co-crystal structures of the PHDUHRF1 bound to histone H3 peptides, where the guanidinium group of unmodified R2 forms an extensive intermolecular hydrogen bond network, with methylation of H3R2, but not H3K4 or H3K9, disrupting complex formation. We have identified direct target genes of UHRF1 from microarray and ChIP studies. Importantly, we show that UHRF1’s ability to repress its direct target gene expression is dependent on PHDUHRF1 binding to unmodified H3R2, thereby demonstrating the functional importance of this recognition event and supporting the potential for crosstalk between histone arginine methylation and UHRF1 function. UHRF1 protein was depleted in HCT116 cells by shRNA treatment. Total RNA was purified and used to determine the global gene transcription profiles by microarray assays. The UHRF1-regulated genes were identified by comparing the gene expression profiles of control and UHRF1-depleted HCT116 cells.
- Species:
- human
- Samples:
- 3
- Source:
- E-GEOD-30478
- Updated:
- Dec.12, 2014
- Registered:
- Sep.16, 2014
Sample | SHRNA |
---|---|
GSM756005 | scrambled shRNA |
GSM756006 | UHRF1 shRNA-2 |
GSM756007 | UHRF1 shRNA-5 |