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Integrated Multi-Omics and Machine Learning Reveal Novel Immune Gene Networks in Multiple Sclerosis
Genetics
Integrated Multi-Omics and Machine Learning Reveal Novel Immune Gene Networks in Multiple Sclerosis

24, Apr 2026

2
NLRC5 and Microglial PANoptosis: A New Molecular Axis in Multiple Sclerosis Neuroinflammation
Genetics
NLRC5 and Microglial PANoptosis: A New Molecular Axis in Multiple Sclerosis Neuroinflammation

23, Apr 2026

3
Novel BTNL3 and BTNL8 Variants in Familial Multiple Sclerosis Reveal a Potential γδ T-Cell Mechanism
Genetics
Novel BTNL3 and BTNL8 Variants in Familial Multiple Sclerosis Reveal a Potential γδ T-Cell Mechanism

22, Apr 2026

4
HIF1A and the Biology of Progression in Multiple Sclerosis
Genetics
HIF1A and the Biology of Progression in Multiple Sclerosis

21, Apr 2026

5
Brain Iron Dysregulation in Multiple Sclerosis: Insights from Mendelian Randomization
Genetics
Brain Iron Dysregulation in Multiple Sclerosis: Insights from Mendelian Randomization

20, Apr 2026

Integrated Multi-Omics and Machine Learning Reveal Novel Immune Gene Networks in Multiple Sclerosis
Genetics
Integrated Multi-Omics and Machine Learning Reveal Novel Immune Gene Networks in Multiple Sclerosis

Alper Bülbül

24, Apr 2026

This blog post examines a recent study that combines genome-wide association data, transcriptomics, proteomics, and machine learning to identify candidate causal genes involved in multiple sclerosis. By integrating eQTL, sQTL, and pQTL analyses with coexpression networks and predictive modeling, the study highlights immune-related pathways as central drivers of disease susceptibility and prioritizes genes such as ZC2HC1A and TRAF3 as promising biomarkers and mechanistic targets. The article also explores how these findings advance understanding of MS pathogenesis and open new directions for early diagnosis, risk prediction, and therapeutic development.

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NLRC5 and Microglial PANoptosis: A New Molecular Axis in Multiple Sclerosis Neuroinflammation
Genetics
NLRC5 and Microglial PANoptosis: A New Molecular Axis in Multiple Sclerosis Neuroinflammation

23, Apr 2026

Novel BTNL3 and BTNL8 Variants in Familial Multiple Sclerosis Reveal a Potential γδ T-Cell Mechanism
Genetics
Novel BTNL3 and BTNL8 Variants in Familial Multiple Sclerosis Reveal a Potential γδ T-Cell Mechanism

22, Apr 2026

HIF1A and the Biology of Progression in Multiple Sclerosis
Genetics
HIF1A and the Biology of Progression in Multiple Sclerosis

21, Apr 2026

Brain Iron Dysregulation in Multiple Sclerosis: Insights from Mendelian Randomization
Genetics
Brain Iron Dysregulation in Multiple Sclerosis: Insights from Mendelian Randomization

20, Apr 2026

Machine Learning Meets Genomics: Decoding Multiple Sclerosis and Alzheimer’s Disease
Genetics
Machine Learning Meets Genomics: Decoding Multiple Sclerosis and Alzheimer’s Disease

18, Apr 2026