Post-GWAS Prioritization of Genome-Phenome Association in Sorghum

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This study developed the Sequential SNP Prioritization Algorithm (SSPA) to identify genetic markers and genes associated with sorghum canopy height and growth rate, demonstrating its effectiveness in prioritizing functionally relevant variants.

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Abstract

Genome-Wide Association Studies (GWAS) are widely used to infer the genetic basis of traits in organisms, yet selecting appropriate thresholds for analysis remains a significant challenge. In this study, we developed the Sequential SNP Prioritization Algorithm (SSPA) to elucidate the genetic underpinnings of two key phenotypes in Sorghum bicolor : maximum canopy height and maximum growth rate. Utilizing a subset of the Sorghum Bioenergy Association Panel cultivated at the Maricopa Agricultural Center in Arizona, our objective was to employ GWAS with specific permissive-filtered thresholds to identify the genetic markers associated with these traits, allowing for a broader collection of explanatory candidate genes. Following this, our proposed method incorporates a feature engineering approach based on statistical correlation coefficient to reveal patterns between phenotypic similarity and genetic proximity across 274 accessions. This approach helps prioritize Single Nucleotide Polymorphisms (SNPs) likely to be associated with the studied phenotype. Additionally, we evaluated the impact of SSPA by considering all variants (SNPs) as inputs, without any GWAS filtering, as a complementary analysis. Empirical evidence including ontology- based gene function, spatial and temporal expression, and similarity to known homologs, demonstrated that SSPA effectively prioritizes SNPs and genes influencing the phenotype of interest, providing valuable insights for functional genetics research.

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last seen: 2026-05-19T01:45:01.086888+00:00