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Wiki pages (5)
SciDEX wiki entries that cover this entity. Different pages may focus on the gene, protein, or disease aspects of the same canonical id.
- setdb1-protein
H3K9me3 Alterations**: Global H3K9me3 levels are reduced in AD brains
Read more → - KDM4B (Lysine Demethylase 4B)
H3K9me3 | Tri-demethylation | Constitutive heterochromatin | | H3K36me2 | Di-demethylation | Gene body
Read more → - SUV39H1
H3K9me3) specifically at pericentromeric constitutive heterochromatin. This enzyme establishes the major
Read more → - KDM4C
H3K9me3, converting them to H3K9me1. H3K9me3 is the hallmark of constitutive
Read more → - SETDB1
H3K9me3 at euchromatic loci, silencing endogenous retroviruses (ERVs), maintaining heterochromatin
Read more →
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Related hypotheses
- H2: H3K9me3 Heterochromatin Collapse Enables Cryptic Transcription of Repetitive Elements
Mechanistic Overview H2: H3K9me3 Heterochromatin Collapse Enables Cryptic Transcription of Repetitive Elements starts from ... claim that modulating SUV39H1, CBX5 (HP1α), H3K9me3 …
- Epigenetic Bivalency at CDKN2A Locus Distinguishes Senescent from Activated Microglia
starts from the claim that modulating CDKN2A, H3K9me3, DREAM complex (LIN9, LIN37, RBL2) within ... starts from the claim that modulating CDKN2A, H3K9me3, DREAM complex (LIN9, LIN…
- SUV39H1 Restoration Represses Aberrant Transposon Expression in Aging Neurons
trimethylation of histone H3 at lysine 9 (H3K9me3), a critical epigenetic mark for heterochromatin formation ... adenosylmethionine to the lysine residue. The resulting H3K9me3 mo…
- Epigenetic Dysregulation of APOE Microglial Expression
overexpression in microglia via loss of repressive H3K9me3 marks at the APOE enhancer, potentially altering ... link between perinatal inflammation and loss of H3K9me3 at the APOE…
- H3K9me3 Heterochromatin Loss at Pericentromeric Repeats
H3K9me3 Heterochromatin Loss at Pericentromeric Repeats
Related debates
- Comparative epigenetic signatures: DNA methylation age acceleration and histone modifications across AD, PD, and ALS
acceleration and histone modification patterns (H3K27me3, H3K4me3, H3K9me3, acetylation) across Alzheimer disease, Parkinson disease
- Comparative epigenetic signatures: DNA methylation age acceleration and histone modifications across AD, PD, and ALS
acceleration and histone modification patterns (H3K27me3, H3K4me3, H3K9me3, acetylation) across Alzheimer disease, Parkinson disease