Autor: |
Zhang, Guofang, Zhou, Jinzhi, Peng, Yan, Tan, Zengdong, Zhang, Yuting, Zhao, Hu, Liu, Dongxu, Liu, Xiao, Li, Long, Yu, Liangqian, Jin, Cheng, Fang, Shuai, Shi, Jiawei, Geng, Zedong, Yang, Shanjing, Chen, Guoxing, Liu, Kede, Yang, Qingyong, Feng, Hui, Guo, Liang |
Předmět: |
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Zdroj: |
Plant, Cell & Environment; Feb2023, Vol. 46 Issue 2, p549-566, 18p |
Abstrakt: |
Salt stress is a major limiting factor that severely affects the survival and growth of crops. It is important to understand the salt stress tolerance ability of Brassica napus and explore the underlying related genetic resources. We used a high‐throughput phenotyping platform to quantify 2111 image‐based traits (i‐traits) of a natural population under three different salt stress conditions and an intervarietal substitution line (ISL) population under nine different stress conditions to monitor and evaluate the salt stress tolerance of B. napus over time. We finally identified 928 high‐quality i‐traits associated with the salt stress tolerance of B. napus. Moreover, we mapped the salt stress‐related loci in the natural population via a genome‐wide association study and performed a linkage analysis associated with the ISL population, respectively. These results revealed 234 candidate genes associated with salt stress response, and two novel candidate genes, BnCKX5 and BnERF3, were experimentally verified to regulate the salt stress tolerance of B. napus. This study demonstrates the feasibility of using high‐throughput phenotyping‐based quantitative trait loci mapping to accurately and comprehensively quantify i‐traits associated with B. napus. The mapped loci could be used for genomics‐assisted breeding to genetically improve the salt stress tolerance of B. napus. [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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