Identification candidate genes for salt resistance through quantitative trait loci-sequencing in Brassica napus L
Zhang, Yan, Zhiting Guo, Xiaoqin Chen, Xinru Li, Yiji Shi, Liang Xu, Chengyu Yu, Bing Jing, Weiwei Li, Aixia Xu, Xue Shi, Keqi Li and Zhen Huang
Journal of plant physiology
https://doi.org/10.1016/j.jplph.2024.154187
ABSTRACT
Rapeseed (Brassica napus L.) is one of the most important oil crops worldwide. However, its yield is greatly limited by salt stress, one of the primary abiotic stresses. Identification of salt-tolerance genes and breeding salttolerant varieties is an effective approach to address this issue. Unfortunately, little is known about the salttolerance quantitative trait locus (QTL) and the identification of salt tolerance genes in rapeseed. In this study, high-throughput quantitative trait locus sequencing (QTL-seq) was applied to identifying salt-tolerant major QTLs based on two DNA pools from an F2:3 population of a cross between rapeseed line 2205 (salt tolerant) and 1423 (salt sensitive). A total of twelve major QTLs related to the salt tolerance rating (STR) were detected on chromosomes A03, A08, C02, C03, C04, C06, C07 and C09. To further enhance our understanding, we integrated QTL-seq data with transcriptome analysis of the two parental rapeseed plants subjected to salt stress, through which ten candidate genes for salt tolerance were identified within the major QTLs by gene differential expression, variation and annotated functions analysis. The marker SNP820 linked to salt tolerance was successfully validated and would be useful as a diagnostic marker in marker-assisted breeding. These findings provide valuable insights for future breeding programs aimed at developing rapeseed cultivars resistant to salt stresses.