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Integrated Multi-Omics and Machine Learning Reveal Key Immune Genes in Multiple Sclerosis
Genetics
Integrated Multi-Omics and Machine Learning Reveal Key Immune Genes in Multiple Sclerosis

18, Apr 2026

2
Interleukin-7, Metabolic Crosstalk, and Multiple Sclerosis: Genetic Evidence for an Inflammatory–Metabolic Disease Axis
Genetics
Interleukin-7, Metabolic Crosstalk, and Multiple Sclerosis: Genetic Evidence for an Inflammatory–Metabolic Disease Axis

17, Apr 2026

3
Contrasting Genetic Architectures in Multiple Sclerosis: Why Disease Risk and Disease Severity Are Not the Same
Genetics
Contrasting Genetic Architectures in Multiple Sclerosis: Why Disease Risk and Disease Severity Are Not the Same

16, Apr 2026

4
Parental Attitudes Toward Genetic Testing in Multiple Sclerosis: Insights From a Turkish National Sample
Genetics
Parental Attitudes Toward Genetic Testing in Multiple Sclerosis: Insights From a Turkish National Sample

15, Apr 2026

5
TNFα rs361525 Promoter Polymorphism and Multiple Sclerosis Risk: A Critical Reading of a 2025 Meta-Analysis
Genetics
TNFα rs361525 Promoter Polymorphism and Multiple Sclerosis Risk: A Critical Reading of a 2025 Meta-Analysis

14, Apr 2026

Integrated Multi-Omics and Machine Learning Reveal Key Immune Genes in Multiple Sclerosis
Genetics
Integrated Multi-Omics and Machine Learning Reveal Key Immune Genes in Multiple Sclerosis

Alper Bülbül

18, Apr 2026

This blog post examines a recent study that combines genome-wide association data, brain transcriptomic and proteomic QTLs, coexpression network analysis, and machine learning to identify genes that may causally influence multiple sclerosis risk. It highlights how the study prioritized immune-related pathways, developed a robust 10-gene predictive signature, and validated ZC2HC1A and TRAF3 as particularly strong mechanistic and biomarker candidates, offering new insight into the molecular basis of MS and its future diagnostic potential.

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Interleukin-7, Metabolic Crosstalk, and Multiple Sclerosis: Genetic Evidence for an Inflammatory–Metabolic Disease Axis
Genetics
Interleukin-7, Metabolic Crosstalk, and Multiple Sclerosis: Genetic Evidence for an Inflammatory–Metabolic Disease Axis

17, Apr 2026

Contrasting Genetic Architectures in Multiple Sclerosis: Why Disease Risk and Disease Severity Are Not the Same
Genetics
Contrasting Genetic Architectures in Multiple Sclerosis: Why Disease Risk and Disease Severity Are Not the Same

16, Apr 2026

Parental Attitudes Toward Genetic Testing in Multiple Sclerosis: Insights From a Turkish National Sample
Genetics
Parental Attitudes Toward Genetic Testing in Multiple Sclerosis: Insights From a Turkish National Sample

15, Apr 2026

TNFα rs361525 Promoter Polymorphism and Multiple Sclerosis Risk: A Critical Reading of a 2025 Meta-Analysis
Genetics
TNFα rs361525 Promoter Polymorphism and Multiple Sclerosis Risk: A Critical Reading of a 2025 Meta-Analysis

14, Apr 2026

Genetic Determinants of Multiple Sclerosis Severity: Evidence for Central Nervous System Resilience in Disease Progression
Genetics
Genetic Determinants of Multiple Sclerosis Severity: Evidence for Central Nervous System Resilience in Disease Progression

13, Apr 2026