Histone methyltransferases G9a and GLP form heteromeric complexes and are both crucial for methylation of euchromatin at H3-K9
Copyright policy )Histone methyltransferases G9a and GLP form heteromeric complexes and are both crucial for methylation of euchromatin at H3-K9
Histone H3 Lys 9 (H3-K9) methylation is a crucial epigenetic mark for transcriptional silencing. G9a is the major mammalian H3-K9 methyltransferase that targets euchromatic regions and is essential for murine embryogenesis. There is a single G9a-related methyltransferase in mammals, called GLP/Eu-HMTase1. Here we show that GLP is also important for H3-K9 methylation of mouse euchromatin. GLP-deficiency led to embryonic lethality, a severe reduction of H3-K9 mono- and dimethylation, the induction of Mage-a gene expression, and HP1 relocalization in embryonic stem cells, all of which were phenotypes of G9a-deficiency. Furthermore, we show that G9a and GLP formed a stoichiometric heteromeric complex in a wide variety of cell types. Biochemical analyses revealed that formation of the G9a/GLP complex was dependent on their enzymatic SET domains. Taken together, our new findings revealed that G9a and GLP cooperatively exert H3-K9 methyltransferase function in vivo, likely through the formation of higher-order heteromeric complexes.
- Kyoto University Japan
- Kumamoto University Japan
- Japan Atomic Energy Agency Japan
- Advanced Science Research Center Japan
- University of Tokyo Japan
Euchromatin, Histones, Mice, Lysine, Stem Cells, Histone Methyltransferases, Animals, Histone-Lysine N-Methyltransferase, Protein Methyltransferases, Protein Structure, Quaternary, Methylation
Euchromatin, Histones, Mice, Lysine, Stem Cells, Histone Methyltransferases, Animals, Histone-Lysine N-Methyltransferase, Protein Methyltransferases, Protein Structure, Quaternary, Methylation
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