Histone methyltransferases Setd1b increases H3K4me3 level to
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The role of histone modifications: from neurodevelopment to neurodiseases
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Histone methyltransferases Setd1b increases H3K4me3 level to
Histone methyltransferases Setd1b increases H3K4me3 level to
KMT2A histone methyltransferase contributes to colorectal cancer development by promoting cathepsin Z transcriptional activation - Fang - 2019 - Cancer Medicine - Wiley Online Library
Feedback Control of Set1 Protein Levels Is Important for Proper H3K4 Methylation Patterns - ScienceDirect
SETD1B controls cognitive function via cell type specific regulation of neuronal identity genes
Postnatal expression of the lysine methyltransferase SETD1B is essential for learning and the regulation of neuron‐enriched genes
Histone H3K4me3 occupancy is globally affected in the third generation
Uhrf1 regulates active transcriptional marks at bivalent domains in pluripotent stem cells through Setd1a
SETD1B controls cognitive function via cell type specific regulation of neuronal identity genes
Targeting histone K4 trimethylation for treatment of cognitive and synaptic deficits in mouse models of Alzheimer's disease
CFP1 coordinates histone H3 lysine-4 trimethylation and meiotic cell cycle progression in mouse oocytes
