AI Article Synopsis
- Histone modifications play a key role in epigenetic regulation, with proteins like bromodomains binding to acetylated lysines, but new non-acetyl modifications like crotonylation are being studied.
- The AF9 YEATS domain has been found to preferentially bind to crotonyllysine instead of acetyllysine, showcasing specific interactions due to its unique structural features.
- Experimental findings indicate that AF9 interacts with crotonylated histone H3 and enhances gene expression, linking crotonylation directly to active transcription processes in cells.
Article Abstract
Recognition of histone covalent modifications by chromatin-binding protein modules ("readers") constitutes a major mechanism for epigenetic regulation, typified by bromodomains that bind acetyllysine. Non-acetyl histone lysine acylations (e.g., crotonylation, butyrylation, propionylation) have been recently identified, but readers that prefer these acylations have not been characterized. Here we report that the AF9 YEATS domain displays selectively higher binding affinity for crotonyllysine over acetyllysine. Structural studies revealed an extended aromatic sandwiching cage with crotonyl specificity arising from π-aromatic and hydrophobic interactions between crotonyl and aromatic rings. These features are conserved among the YEATS, but not the bromodomains. Using a cell-based model, we showed that AF9 co-localizes with crotonylated histone H3 and positively regulates gene expression in a YEATS domain-dependent manner. Our studies define the evolutionarily conserved YEATS domain as a family of crotonyllysine readers and specifically demonstrate that the YEATS domain of AF9 directly links histone crotonylation to active transcription.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4841940 | PMC |
| http://dx.doi.org/10.1016/j.molcel.2016.03.028 | DOI Listing |
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