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H4K20me0 marks post-replicative chromatin and recruits the TONSL–MMS22L DNA repair complex

We have a limited understanding of how cells mark and identify newly replicated genomic loci that have a sister chromatid; here, unmethylated K20 in the tail of new histone H4 is shown to serve as a signature of post-replicative chromatin, which is specifically recognized by the homologous recombina...

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Published in:Nature (London) 2016-06, Vol.534 (7609), p.714-718
Main Authors: Saredi, Giulia, Huang, Hongda, Hammond, Colin M., Alabert, Constance, Bekker-Jensen, Simon, Forne, Ignasi, Reverón-Gómez, Nazaret, Foster, Benjamin M., Mlejnkova, Lucie, Bartke, Till, Cejka, Petr, Mailand, Niels, Imhof, Axel, Patel, Dinshaw J., Groth, Anja
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Language:English
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Summary:We have a limited understanding of how cells mark and identify newly replicated genomic loci that have a sister chromatid; here, unmethylated K20 in the tail of new histone H4 is shown to serve as a signature of post-replicative chromatin, which is specifically recognized by the homologous recombination complex TONSL–MMS22L. A marker for post-replicative chromatin We have a limited understanding of how cells mark and identify newly replicated genomic loci that have a sister chromatid. Here, Anja Groth and colleagues show that histone H4 tails unmethylated at lysine 20 (H4K20me0) serve as a signature of post-replicative chromatin and are specific to new histones incorporated during DNA replication. H4K20me0 is specifically recognized by a 'reader' domain of the TONSL–MMS22L homologous recombination complex, enabling differentiation of pre- and post-replicative chromatin, and allowing TONSL to function as a histone chaperone or guide repair of damaged replication forks. After DNA replication, chromosomal processes including DNA repair and transcription take place in the context of sister chromatids. While cell cycle regulation can guide these processes globally, mechanisms to distinguish pre- and post-replicative states locally remain unknown. Here we reveal that new histones incorporated during DNA replication provide a signature of post-replicative chromatin, read by the human TONSL–MMS22L 1 , 2 , 3 , 4 homologous recombination complex. We identify the TONSL ankyrin repeat domain (ARD) as a reader of histone H4 tails unmethylated at K20 (H4K20me0), which are specific to new histones incorporated during DNA replication and mark post-replicative chromatin until the G2/M phase of the cell cycle. Accordingly, TONSL–MMS22L binds new histones H3–H4 both before and after incorporation into nucleosomes, remaining on replicated chromatin until late G2/M. H4K20me0 recognition is required for TONSL–MMS22L binding to chromatin and accumulation at challenged replication forks and DNA lesions. Consequently, TONSL ARD mutants are toxic, compromising genome stability, cell viability and resistance to replication stress. Together, these data reveal a histone-reader-based mechanism for recognizing the post-replicative state, offering a new angle to understand DNA repair with the potential for targeted cancer therapy.
ISSN:0028-0836
1476-4687
DOI:10.1038/nature18312