Histone methyltransferases Setd1b increases H3K4me3 level to

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Epigenetic regulation of development by histone lysine methylation

Coordinated regulation of cellular identity–associated H3K4me3 breadth by the COMPASS family

Histone methyltransferases Setd1b increases H3K4me3 level to

Expression of the histone lysine methyltransferases SETD1B, SETDB1, SETD2, and CFP1 exhibits significant changes in the oocytes and granulosa cells of aged mouse ovaries

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H3K4me3 is implemented by Set1/COMPASS at more transcriptionally active

Postnatal SETD1B is essential for learning and the regulation of neuronal plasticity genes

Histone methyltransferases Setd1b increases H3K4me3 level to

Frontiers SETD1A Mediated H3K4 Methylation and Its Role in Neurodevelopmental and Neuropsychiatric Disorders

Full article: SET1/MLL family of proteins: functions beyond histone methylation

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SETD1B controls cognitive function via cell type specific regulation of neuronal identity genes