Literature DB >> 20631708

Regulation of heterochromatic DNA replication by histone H3 lysine 27 methyltransferases.

Yannick Jacob1, Hume Stroud, Chantal Leblanc, Suhua Feng, Luting Zhuo, Elena Caro, Christiane Hassel, Crisanto Gutierrez, Scott D Michaels, Steven E Jacobsen.   

Abstract

Multiple pathways prevent DNA replication from occurring more than once per cell cycle. These pathways block re-replication by strictly controlling the activity of pre-replication complexes, which assemble at specific sites in the genome called origins. Here we show that mutations in the homologous histone 3 lysine 27 (H3K27) monomethyltransferases, ARABIDOPSIS TRITHORAX-RELATED PROTEIN5 (ATXR5) and ATXR6, lead to re-replication of specific genomic locations. Most of these locations correspond to transposons and other repetitive and silent elements of the Arabidopsis genome. These sites also correspond to high levels of H3K27 monomethylation, and mutation of the catalytic SET domain is sufficient to cause the re-replication defect. Mutation of ATXR5 and ATXR6 also causes upregulation of transposon expression and has pleiotropic effects on plant development. These results uncover a novel pathway that prevents over-replication of heterochromatin in Arabidopsis.

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Year:  2010        PMID: 20631708      PMCID: PMC2964344          DOI: 10.1038/nature09290

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  29 in total

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  81 in total

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3.  Quantitative proteomics reveals histone modifications in crosstalk with H3 lysine 27 methylation.

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8.  Reduced activity of Arabidopsis chromosome-cohesion regulator gene CTF7/ECO1 alters cytosine methylation status and retrotransposon expression.

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9.  The Functional Topography of the Arabidopsis Genome Is Organized in a Reduced Number of Linear Motifs of Chromatin States.

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