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Bibliographic Details
Main Authors: Jiang, Cheng, Ryan, Brady, Crow, Megan, Fletez-Brant, Kipper, Doshi, Kashish, Carlos, Sandra Melo, Huang, Kexin, Hoeckendorf, Burkhard, Yao, Heming, Richmond, David
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.25855
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Table of Contents:
  • Genome-Wide Association Studies (GWAS) identify associations between genetic variants and disease; however, moving beyond associations to causal mechanisms is critical for therapeutic target prioritization. The recently proposed Knowledge Graph GWAS (KGWAS) framework addresses this challenge by linking genetic variants to downstream gene-gene interactions via a knowledge graph (KG), thereby improving detection power and providing mechanistic insights. However, the original KGWAS implementation relies on a large general-purpose KG, which can introduce spurious correlations. We hypothesize that cell-type specific KGs from disease-relevant cell types will better support disease mechanism discovery. Here, we show that the general-purpose KG in KGWAS can be substantially pruned with no loss of statistical power on downstream tasks, and that performance further improves by incorporating gene-gene relationships derived from perturb-seq data. Importantly, using a sparse, context-specific KG from direct perturb-seq evidence yields more consistent and biologically robust disease-critical networks.