1. Gurdon Institute and Department of Pathology, Tennis Court Road, Cambridge CB2 1QN, UK
2. Wellcome Trust Sanger Institute, Hinxton, Cambridge CB10 1HH, UK
3. NimbleGen Systems, Inc., 1 Science Court, Madison, Wisconsin 53711, USA
4. Max Planck Institute for Biochemistry, Department of Proteomics and Signal Transduction, D-82152 Martinsried, Germany

Correspondence to: Tony Kouzarides¹ Correspondence and requests for materials should be addressed to T.K. (Email: t.kouzarides@gurdon.cam.ac.uk).

Abstract

Modifications on histones control important biological processes through their effects on chromatin structure^{1, 2, 3}. Methylation at lysine 4 on histone H3 (H3K4) is found at the 5' end of active genes and contributes to transcriptional activation by recruiting chromatin-remodelling enzymes^{4, 5}. An adjacent arginine residue (H3R2) is also known to be asymmetrically dimethylated (H3R2me2a) in mammalian cells⁶, but its location within genes and its function in transcription are unknown. Here we show that H3R2 is also methylated in budding yeast (Saccharomyces cerevisiae), and by using an antibody specific for H3R2me2a in a chromatin immunoprecipitation-on-chip analysis we determine the distribution of this modification on the entire yeast genome. We find that H3R2me2a is enriched throughout all heterochromatic loci and inactive euchromatic genes and is present at the 3' end of moderately transcribed genes. In all cases the pattern of H3R2 methylation is mutually exclusive with the trimethyl form of H3K4 (H3K4me3). We show that methylation at H3R2 abrogates the trimethylation of H3K4 by the Set1 methyltransferase. The specific effect on H3K4me3 results from the occlusion of Spp1, a Set1 methyltransferase subunit necessary for trimethylation. Thus, the inability of Spp1 to recognize H3 methylated at R2 prevents Set1 from trimethylating H3K4. These results provide the first mechanistic insight into the function of arginine methylation on chromatin.

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