Hexaploid-bridged introgression broadens genetic diversity and enriches clubroot-resistance alleles in Brassica juncea
Yongzhi Wu, Jingyan Liao, Yinquan Deng, Fuquan Ce, Peng Bai, Lisha Peng, Xingxing Zhang, Yi Wan, Wei Qian, Jiaqin Mei

TL;DR
A new breeding strategy using hexaploid bridges increases genetic diversity and introduces clubroot resistance in Brassica juncea.
Contribution
A novel hexaploid bridge method is introduced to broaden the genetic base and improve traits in Brassica juncea.
Findings
New-type lines show a genomic shift toward current B. juncea and represent a unique genetic group.
Clubroot resistance was successfully introgressed with a strong negative correlation between donor allele frequency and disease severity.
The hexaploid bridge strategy enabled rapid trait improvement and genetic base broadening in B. juncea.
Abstract
The narrow genetic base of current Brassica juncea (AABB) has limited the genetic improvement of this crop. In this study, we developed novel germplasm by crossing synthetic hexaploid bridge lines (AABBBB and AAAABB) with diploid progenitors B. rapa (AA) and B. nigra (BB), followed by successive selfing and marker-assisted selection. Although the F1 hybrids exhibited wide variation in fertility and morphology, these traits stabilized at levels comparable to current B. juncea by the F2 and F3 generations. Whole-genome resequencing confirmed that the new-type lines not only constitute a unique genetic group but also show a genomic shift toward the current B. juncea cluster in the F2 populations. Consequently, these new-type lines represent a significant new source of genetic diversity. As a practical application, we introgressed clubroot resistance from the European fodder turnip ECD04…
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Taxonomy
TopicsPlant Disease Resistance and Genetics · Nitrogen and Sulfur Effects on Brassica · Weed Control and Herbicide Applications
