Durum wheat (Triticum turgidum subsp. durum) is a globally important crop for pasta and couscous production. Chili and Mahmoudi are historically significant Tunisian landraces valued for exceptional grain quality, high protein content, and adaptation to arid Mediterranean climates. Yet, no high-quality reference genome assemblies were available for either variety before this work. We assembled both genomes using publicly available PacBio HiFi long reads and Illumina Hi-C proximity ligation data deposited under NCBI BioProject PRJNA1420514. HiFi reads were assembled with hifiasm v0.25.0 in primary mode, and Hi-C scaffolding was performed with YAHS v1.2a.2 after read alignment with BWA-MEM. Assembly quality was assessed with QUAST v5.3.0 and BUSCO v5.8.0 (embryophyta_odb10 lineage). The Chili assembly spans 10.84 Gbp across 3,472 scaffolds with a scaffold N50 of 844.9 Mbp and BUSCO completeness of 99.4%. The Mahmoudi assembly spans 10.70 Gbp across 3,258 scaffolds with a scaffold N50 of 2,072 Mbp and BUSCO completeness of 99.3%. Merqury v1.3 confirmed high base accuracy (QV 68.0 for Chili, QV 68.3 for Mahmoudi) and k-mer completeness (>98% for both). Both assemblies substantially exceed the contiguity of existing durum wheat references and represent the first chromosome-scale-contiguity genomic resources for North African durum wheat landraces. The entire workflow was executed reproducibly on the public Galaxy Europe platform, demonstrating that reference-quality plant genome assembly is achievable without local HPC infrastructure.
GDOURA BEN AMOR, M., MATHLOUTHI, N. E. H., BELGUITH, I.
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