Supplementary File 4: QTL and Gene Data for Wheat Stripe Rust Resistance

Two genomic regions, including the QTL QYr.cib-3AS, were identified as associated with stripe rust resistance in wheat. The study, authored by Jianming Hu and last updated in April 2026, provides supporting data from BSA-seq and QTL mapping using a 120K SNP array. The pyramiding of QYr.cib-3AS with YrT14 increased resistance by 77.20%, and two candidate genes were proposed.

Use Cases

• Validate candidate genes for stripe rust resistance based on transcriptome and sequence variation analysis.
• Design molecular markers for breeding based on the delimited QTL interval flanked by dCAPS-78 and dCAPS-83.
• Study the additive effects of pyramiding resistance genes based on the reported 77.20% increase in resistance.
• Perform comparative genomics based on the reported high collinearity in the candidate interval.

Strengths

• The QTL QYr.cib-3AS was consistently detected across environments, explaining 20.10%–25.21% of phenotypic variance.
• The study identifies 48 high-confidence annotated genes and proposes two specific candidate genes (TraesCS3A03G0118200 and TraesCS3A03G0119800).
• Data is shared under a permissive CC-BY-4.0 license.

Limitations

• The dataset is a 79.8 KB DOCX file, suggesting limited raw data and likely being a supplementary document.
• Column-level documentation and sample data are unavailable, requiring manual inspection after download.
• Row count and the exact structure of any contained data are unknown.

Provenance

Source

figshare, authored by Jianming Hu.

Collection Method

Data likely generated through BSA-seq and QTL mapping using a wheat 120K SNP array.

Freshness

Last updated 2026-04-22 05:46:49.