What question did this study set out to answer?

The goal is to develop a tool for designing primers that can detect drug resistance in hookworms efficiently.

March 2, 2026

Hooksnip: A Browser Tool for Designing Allele-Specific PCR Primers in Hookworm.

Key Points

The goal is to develop a tool for designing primers that can detect drug resistance in hookworms efficiently.
Developed a browser-based application named hookSNiP.
Incorporated curated reference genomes for primer design.
Validated variant call format compatibility and strand-aware primer orientation.
Implemented tiered rescue modes for strict design constraints.
Enabled rapid detection of drug-resistance markers from hookworm eggs or larvae.
Reduced barriers for SNP validation in field settings.
Expanded feasibility for large-scale monitoring of drug resistance in hookworm populations.

Abstract

Surveillance for anthelmintic resistance in hookworms requires low-cost, field-deployable genotyping strategies. Allele-specific PCR (AS-PCR) is attractive because it discriminates single-nucleotide polymorphisms (SNPs) at the 3' end of a primer without sequencing infrastructure, thereby enabling rapid detection of drug-resistance markers directly from eggs or larvae. Here, we present hookSNiP (https://ohalloranlab.net/hooksnip), a browser-based application that designs allele-specific primer pairs for Ancylostoma species. The tool provides curated reference genomes, validation of variant call format (VCFs) and genome sequence compatibility, strand-aware primer orientation using gene annotations, and tiered rescue modes when strict primer design constraints cannot be met. By combining these features with AS-PCR, hookSNiP reduces practical barriers to SNP validation and expands the feasibility of large-scale resistance monitoring.

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Hooksnip: A Browser Tool for Designing Allele-Specific PCR Primers in Hookworm.

Key Points

Abstract

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