| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 2824956 | Trends in Genetics | 2013 | 9 Pages |
The cell cycle requires cells to duplicate their chromatin, DNA, and histones, while retaining a subset of epigenetic marks, in a highly coordinated manner. The WEE1 kinase was identified as an important regulator during S phase, preventing entry into mitosis until DNA replication has been completed. Interestingly, WEE1 has also emerged as a key player in regulating histone synthesis. It phosphorylates histone H2B at tyrosine 37 in the nucleosomes found upstream of the histone gene cluster, and this suppresses histone transcription in late S phase. These observations highlight a dual role for WEE1 as both a mitotic gatekeeper and a surveyor of chromatin synthesis, providing a direct link between epigenetics and cell-cycle progression. Importantly, this link has implications for the design of novel epigenetic inhibitors targeting cancers that display elevated expression of this kinase.
