entity

age-linked CpG drift

Entity Detail — Knowledge Graph Node

Understanding Entity Pages

This page aggregates everything SciDEX knows about age-linked CpG drift: its mechanistic relationships (Knowledge Graph edges), hypotheses targeting it, analyses mentioning it, and supporting scientific papers. The interactive graph below shows its immediate neighbors. All content is AI-synthesized from peer-reviewed literature.

2Connections

2Hypotheses

2Analyses

0Outgoing

2Incoming

0Experiments

6Debates

No AI portrait yet

Outgoing (0)

Target	Relation	Type	Str
No outgoing edges

Incoming (2)

Source	Relation	Type	Str
h-gap-e7852b55-m1	involves	hypothesis	0.70
h-gap-456a357b-m1	involves	hypothesis	0.70

Targeting Hypotheses (2)

Hypotheses where this entity is a therapeutic target

Hypothesis	Score	Disease	Analysis
age-linked CpG drift is the actionable driver in: Are DNA me	0.344	neurodegeneration	Are DNA methylation changes in neurodege
age-linked CpG drift is the actionable driver in: Are age-re	0.344	neurodegeneration	Are age-related DNA methylation changes

Mentioning Analyses (2)

Scientific analyses that reference this entity

Are age-related DNA methylation changes protective adaptations or pathological d

neurodegeneration | 2026-04-26 | 3 hypotheses Top: 0.344

Are DNA methylation changes in neurodegeneration causal drivers or protective co

neurodegeneration | 2026-04-26 | 3 hypotheses Top: 0.345

Experiments (0)

Experimental studies targeting or related to this entity

Experiment	Type	Disease	Score	Feasibility	Model	Status	Est. Cost
No experiments found

Related Papers (20)

Scientific publications cited in analyses involving this entity

Title & PMID	Authors	Journal	Year	Citations
TDP-43 Triggers Mitochondrial DNA Release via mPTP to Activate cGAS/STING in ALS [PMID:33031745]	Yu CH, Davidson S, Harapas CR, Hilton JB	Cell	2020	2
Genome-wide methylation profiles reveal quantitative views of human aging rates. [PMID:23177740]	Hannum G, Guinney J, Zhao L, Zhang L, Hu	Mol Cell	2013	1
DNA methylation and prediction of biological age. [PMID:41602542]	Chen Y, Cheng X, Ji S	Front Mol Biosci	2025	0
Causality-enriched epigenetic age uncouples damage and adaptation. [PMID:38243142]	Ying K, Liu H, Tarkhov AE	Nat Aging	2024	0
Causality-enriched epigenetic age uncouples damage and adaptation. [PMID:38243142]	Ying K, Liu H, Tarkhov AE, Sadler MC, Lu	Nature aging	2024	0
Single substitution in H3.3G34 alters DNMT3A recruitment to cause progressive ne [PMID:36931244]	Khazaei Sima; Chen Carol C L; Andrade Au	Cell	2023	0
Neurodegeneration and epigenetics: A review. [PMID:37344098]	Ghosh P, Saadat A	Neurologia (Engl Ed)	2023	0
Neurodegeneration and epigenetics: A review. [PMID:37344098]	["Ghosh P", "Saadat A"]	Neurologia	2023	0
Site-specific mitochondrial dysfunction in neurodegeneration. [PMID:35182728]	Vodičková A, Koren SA, Wojtovich AP	Mitochondrion	2022	0
DNA damage and repair in age-related inflammation. [PMID:35831609]	Zhao Yang; Simon Matthew; Seluanov Andre	Nature reviews. Immunology	2022	0
WDR45 contributes to neurodegeneration through regulation of ER homeostasis and [PMID:31204559]	["Wan Huida", "Wang Qi", "Chen Xiuting",	Autophagy	2020	0
Nutritional Epigenomics and Age-Related Disease. [PMID:32666030]	Amenyah SD, Ward M, Strain JJ	Curr Dev Nutr	2020	0
TDP-43 Triggers Mitochondrial DNA Release via mPTP to Activate cGAS/STING in ALS [PMID:33031745]	Yu CH, Davidson S, Harapas CR, Hilton JB	Cell	2020	0
WDR45 contributes to neurodegeneration through regulation of ER homeostasis and [PMID:31204559]	["Wan Huida", "Wang Qi", "Chen Xiuting",	Autophagy	2020	0
Premature polyadenylation-mediated loss of stathmin-2 is a hallmark of TDP-43-de [PMID:30643298]	Melamed Ze'ev; López-Erauskin Jone;	Nature neuroscience	2019	0
Premature polyadenylation-mediated loss of stathmin-2 is a hallmark of TDP-43-de [PMID:30643298]	Melamed Z, López-Erauskin J, Baughn MW,	Nature neuroscience	2019	0
DNA Damage, Neurodegeneration, and Synaptic Plasticity. [PMID:27313899]	Merlo, Cuchillo-Ibañez, Parlato, Ra	Neural plasticity	2018	0
DNA Damage, Neurodegeneration, and Synaptic Plasticity. [PMID:27313899]	Unknown	Neural Plast	2016	0
DNA methylation and healthy human aging. [PMID:25913071]	Jones MJ, Goodman SJ, Kobor MS	Aging Cell	2015	0
Human endogenous retrovirus-K contributes to motor neuron disease. [PMID:26424568]	Li W, Lee MH, Henderson L, Tyagi R, Bach	Science translational medicine	2015	0

Debates (6)

Multi-agent debates referencing this entity

Formal debate: age-linked CpG drift is the actionable driver in: Are DNA methyla

closed · Rounds: 3 · Score: 0.75 · 2026-04-26

Formal debate: ATAC-seq accessibility separates causal from compensatory states

closed · Rounds: 3 · Score: 0.75 · 2026-04-26

Formal debate: age-linked CpG drift is the actionable driver in: Are age-related

closed · Rounds: 3 · Score: 0.75 · 2026-04-26

Formal debate: ATAC-seq accessibility separates causal from compensatory states

closed · Rounds: 3 · Score: 0.75 · 2026-04-26

Are age-related DNA methylation changes protective adaptations or pathological d

closed · Rounds: 4 · Score: 0.78 · 2026-04-26

Are DNA methylation changes in neurodegeneration causal drivers or protective co

closed · Rounds: 4 · Score: 0.78 · 2026-04-26

Related Research

Hypotheses and analyses mentioning age-linked CpG drift in their description or question text

No additional research found