Genome-Wide Association Study Reveals Candidate Genes Regulating Plant Height and First-Branch Height in Brassica napus
Tianyu Cui, Xinao Wang, Wenxiang Wang, Hongtao Cheng, Desheng Mei, Qiong Hu, Wenliang Wei, Jia Liu

TL;DR
This study identifies genetic factors influencing plant height and first-branch height in rapeseed, offering insights for improving yield and harvesting efficiency.
Contribution
The study discovers novel loci and candidate genes for plant architecture traits in Brassica napus using GWAS and haplotype analysis.
Findings
13 QTLs for plant height and 15 for first-branch height were identified across four environments.
Five novel loci without nearby annotated genes were found to influence plant architecture traits.
Candidate genes like MOS1 and BnaA05G0163200ZS were linked to plant height and first-branch height.
Abstract
Rapeseed (Brassica napus L., 2n = 38) is an important oil crop worldwide, providing vegetable oil and biofuel. Despite improvements in breeding, rapeseed’s harvest index and yield remain lower than other major crops. Plant height (PH) and first-branch height (FBH) are crucial plant architecture traits affecting yield, lodging resistance and efficiency of mechanical harvesting. Phenotypic analysis of 125 rapeseed accessions across four environments revealed wide variation in PH (100–198 cm) and FBH (15.56–112.4 cm), with high broad-sense heritability (H2 = 81.59% for PH, 77.69% for FBH), and significant positive correlations between traits. To understand the genetic control of PH and FBH, a genome-wide association study (GWAS) of a natural population was conducted, covering 2,131,705 genome variants across four environments. The 13 QTLs for PH and 15 for FBH were identified.…
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Taxonomy
TopicsNitrogen and Sulfur Effects on Brassica · Lipid metabolism and biosynthesis · Genetic Mapping and Diversity in Plants and Animals
