Proteomics

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N-terminus of Spt16 anchors FACT to Mcm2 for parental histone recycling


ABSTRACT: Parental histone recycling is essential for the restoration of chromatin-based epigenetic information during chromatin replication; however, the specific mechanisms underlying the local recycling of parental histones remain poorly understood. Here, we reveal an unexpected role of the Spt16-N domain in histone chaperone FACT during parental histone recycling and transfer in budding yeast. We found that depletion of Spt16 or mutations in the Spt16 middle domain leads to defects in both parental histone recycling and new histone deposition, affecting both the leading and lagging strands of DNA replication forks, highlighting the essential role of the FACT complex in both parental histone recycling and new histone deposition. Surprisingly, Spt16-N deletion results in an apparent defect in parental histone recycling, with a more pronounced defect on the lagging strand than the corresponding leading strand. Mechanistically, the Spt16-N domain acts as a protective barrier, shielding FACT-bound histone H3-H4 and facilitating its interaction with Mcm2, which ensures efficient local parental histone recycling. Collectively, the Spt16-N domain provides a protein–protein interaction module allowing FACT to act as a shuttle chaperone, cooperate with multiple replisome components, which act as co-chaperones, to form a complex involving the shuttle chaperone, histones, and co-chaperones, during parental histone recycling and transfer.

INSTRUMENT(S): Orbitrap Fusion Lumos

ORGANISM(S): Saccharomyces Cerevisiae (baker's Yeast)

TISSUE(S): Cell Culture

SUBMITTER: Qing Li  

LAB HEAD: Qing Li

PROVIDER: PXD043392 | Pride | 2024-01-26

REPOSITORIES: Pride

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Publications

The N-terminus of Spt16 anchors FACT to MCM2-7 for parental histone recycling.

Wang Xuezheng X   Tang Yuantao Y   Xu Jiawei J   Leng He H   Shi Guojun G   Hu Zaifeng Z   Wu Jiale J   Xiu Yuwen Y   Feng Jianxun J   Li Qing Q  

Nucleic acids research 20231101 21


Parental histone recycling is vital for maintaining chromatin-based epigenetic information during replication, yet its underlying mechanisms remain unclear. Here, we uncover an unexpected role of histone chaperone FACT and its N-terminus of the Spt16 subunit during parental histone recycling and transfer in budding yeast. Depletion of Spt16 and mutations at its middle domain that impair histone binding compromise parental histone recycling on both the leading and lagging strands of DNA replicati  ...[more]

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