Genome-wide association study in a lettuce core collection from 811 accessions reveals genetic loci for anthocyanin accumulation and cultivar development
Guotao Huo, Haibin Wei, Shuping He, Guojun Ge, Lei Wang, Guangliu Xu, Yan Huang, Yiwen Zhou, Xiao Yang, Zhenzhen Li, Yingyan Han, Shiwei Wei, Lijun Luo

TL;DR
This study identifies genetic loci in lettuce that control leaf traits like anthocyanin accumulation and helps develop a new lettuce variety with improved characteristics.
Contribution
The study identifies genetic loci and candidate genes for leaf traits in lettuce and develops a new high-anthocyanin variety using genomic design breeding.
Findings
A core collection of 268 lettuce accessions captures 99.4% of genetic variation.
Genome-wide association studies identified 13 QTLs and a validated anthocyanin biosynthesis regulator (ANS).
A novel high-anthocyanin lettuce variety (binfen5) was developed using genomic design breeding.
Abstract
Lettuce (Lactuca sativa) is a globally cultivated leafy vegetable with leafy morphology critically influencing consumer preference and market value. Despite the agronomic importance of leaf traits, the genetic basis underlying their diversity remains poorly characterized. To address this, we resequenced 811 accessions collected from major lettuce production areas as well as the relative wild species, and developed a publicly accessible core collection of 268 accessions that captures 99.4% of the total genetic variation. Phenotypic evaluation of 16 leaf morphological traits across two growing seasons identified significant correlations, including negative associations between plant width and anthocyanin content, and positive correlations between apical margin incision and multiple traits. Population structure analysis revealed frequent introgression events from looseleaf type into…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsGrowth and nutrition in plants
