Genome-Wide Association Analysis and Breeding-Oriented SNP Marker Development for Bacterial Wilt Resistance in Tomato (Solanum lycopersicum L.)
Anjana Bhunchoth, Wasin Poncheewin, Arweewut Yongsuwan, Jirawan Chiangta, Burin Thunnom, Wanchana Aesomnuk, Namthip Phironrit, Bencharong Phuangrat, Ratree Koohapitakthum, Rungnapa Deeto, Nuchnard Warin, Samart Wanchana, Siwaret Arikit, Orawan Chatchawankanphanich

TL;DR
This study identifies a key genetic marker linked to bacterial wilt resistance in tomatoes, offering a tool for breeding more resistant varieties.
Contribution
A novel SNP marker (S12_2992992) was developed for efficient breeding of bacterial wilt-resistant tomatoes.
Findings
A major resistance locus was identified on chromosome 12 in tomatoes.
The SNP S12_2992992 is strongly associated with bacterial wilt resistance.
A KASP marker was developed for high-throughput selection of resistant genotypes.
Abstract
Bacterial wilt, caused by Ralstonia solanacearum, is a major constraint to tomato production globally. To uncover resistance loci and develop efficient molecular tools for breeding, we conducted disease phenotyping over two growing seasons, which revealed consistent variation in resistance and moderate broad-sense heritability (H2 = 0.22–0.28), suggesting a genetic basis. A genome-wide association study (GWAS) was performed on a diverse panel of 267 tomato accessions, evaluated against two R. solanacearum strains. A major resistance locus was identified on chromosome 12, with the strongest association observed at SNP S12_2992992, located within a gene encoding a leucine-rich repeat (LRR) receptor-like protein. Haplotype analysis indicated that the resistance-associated allele is relatively rare (~13.5%) in the population, underscoring its potential value in breeding programs. Functional…
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Taxonomy
TopicsPlant Pathogenic Bacteria Studies · Plant-Microbe Interactions and Immunity · Plant Disease Resistance and Genetics
