AI Article Synopsis
- Silent chromatin in Saccharomyces cerevisiae is formed through a gradual process involving the SIR complex, which includes the proteins Sir2, Sir3, and Sir4.
- Sir3 is crucial for this process as it binds to histones and aids in the spreading of the SIR complex along chromatin.
- A study identified mutations in the SIR3 gene that disrupt silencing, revealing that specific mutations affect the interaction between Sir3 and nucleosomes, highlighting the importance of these interactions for proper silent chromatin assembly.
Article Abstract
Silent chromatin in Saccharomyces cerevisiae is established in a stepwise process involving the SIR complex, comprised of the histone deacetylase Sir2 and the structural components Sir3 and Sir4. The Sir3 protein, which is the primary histone-binding component of the SIR complex, forms oligomers in vitro and has been proposed to mediate the spreading of the SIR complex along the chromatin fiber. In order to analyze the role of Sir3 in the spreading of the SIR complex, we performed a targeted genetic screen for alleles of SIR3 that dominantly disrupt silencing. Most mutations mapped to a single surface in the conserved N-terminal BAH domain, while one, L738P, localized to the AAA ATPase-like domain within the C-terminal half of Sir3. The BAH point mutants, but not the L738P mutant, disrupted the interaction between Sir3 and nucleosomes. In contrast, Sir3-L738P bound the N-terminal tail of histone H4 more strongly than wild-type Sir3, indicating that misregulation of the Sir3 C-terminal histone-binding activity also disrupted spreading. Our results underscore the importance of proper interactions between Sir3 and the nucleosome in silent chromatin assembly. We propose a model for the spreading of the SIR complex along the chromatin fiber through the two distinct histone-binding domains in Sir3.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2573294 | PMC |
| http://dx.doi.org/10.1128/MCB.01210-08 | DOI Listing |
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