Supplementary file 1_Integrative genomic and multi-omics analyses identify oxidative stres
by Jingjie Han·Updated 1mo ago
2.1 MB1files
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Description
Supplementary data from a multi-omics study investigating oxidative stress-related pathways in tinnitus. The dataset, authored by Jingjie Han and last updated in April 2026, integrates GWAS meta-analysis with DNA methylation, gene expression, and protein QTLs for 1,844 oxidative stress-related genes. It includes results from prioritization, validation in independent cohorts, and molecular docking analyses.
Use Cases
Prioritizing candidate genes for tinnitus based on integrated multi-omics evidence.
Investigating oxidative stress-mediated immune and metabolic pathways in auditory disorders.
Identifying druggable targets and repurposable drugs like fenretinide via molecular docking.
Validating genetic findings in independent cohorts and brain-specific datasets.
Strengths
Integrates data from GWAS meta-analysis, DNA methylation, gene expression, and protein QTLs.
Focuses on a specific set of 1,844 oxidative stress-related genes.
Includes experimental validation of ACADVL mRNA and protein levels in human plasma.
Released under a permissive CC-BY-4.0 license.
Limitations
Column-level documentation is absent; field semantics must be inferred after download.
Row count is unknown, which may limit suitability assessment.
The primary file is a 2.1 MB DOCX document, which may require extraction of structured data.
Provenance
Source
figshare
Collection Method
Integrated genomic and multi-omics analyses, including GWAS, QTL mapping, and experimental validation.
Time Range
null
Freshness
Last updated 2026-04-28 04:24:50; freshness should be verified.
Geography
null
Data is provided in a DOCX file format, which may require conversion or text extraction for computational analysis.