Natural variation in a calreticulin gene causes reduced resistance to Ca2+ deficiency-induced tipburn in Chinese cabbage (Brassica rapa ssp. pekinensis)
文献类型: 外文期刊
第一作者: Su, Tongbing
作者: Su, Tongbing;Li, Peirong;Wang, Weihong;Zhao, Xiuyun;Yu, Yangjun;Zhang, Deshuang;Yu, Shuancang;Zhang, Fenglan;Su, Tongbing;Li, Peirong;Wang, Huiping;Wang, Weihong;Zhao, Xiuyun;Yu, Yangjun;Zhang, Deshuang;Yu, Shuancang;Zhang, Fenglan;Su, Tongbing;Li, Peirong;Zhao, Xiuyun;Yu, Yangjun;Zhang, Deshuang;Yu, Shuancang;Zhang, Fenglan;Su, Tongbing;Li, Peirong;Wang, Weihong;Yu, Yangjun;Zhang, Deshuang;Yu, Shuancang;Zhang, Fenglan
作者机构:
关键词: calcium; calreticulin; genome-wide association mapping; quantitative trait locus
期刊名称:PLANT CELL AND ENVIRONMENT ( 影响因子:7.228; 五年影响因子:7.791 )
ISSN: 0140-7791
年卷期: 2019 年 42 卷 11 期
页码:
收录情况: SCI
摘要: Tipburn is an irreversible physiological disorder of Chinese cabbage that decreases crop value. Because of a strong environmental component, tipburn-resistant cultivars are the only solution, although tipburn resistance genes are unknown in Chinese cabbage. We studied three populations of Chinese cabbage over four growing seasons under field conditions: (a) 194 diverse inbred lines, (b) a doubled haploid (DH100) population, and (c) an F-2 population. The 194 lines were genotyped using single nucleotide polymorphism markers, and genome-wide-association mapping showed that 24 gQTLs were significantly associated with tipburn disease index. Analysis of the DH100 and F-2 populations identified a shared tipburn-associated locus, gqbTRA06, that was found to cover the region defined by one of the 24 gQTLs. Of 35 genes predicted in the 0.14-Mb quantitative trait locus region, Bra018575 (calreticulin family protein, BrCRT2) showed higher expression levels during disease development. We cloned the two BrCRT2 alleles from tipburn-resistant (BrCRT2 (R)) and tipburn-susceptible (BrCRT2(S)) lines and identified a 51-bp deletion in BrCRT2(S). Overexpression of BrCRT2 (R) increased Ca2+ storage in the Arabidopsis crt2 mutant and also reduced cell death in leaf tips and margins under Ca2+-depleted conditions. Our results suggest that BrCRT2 is a possible candidate gene for controlling tipburn in Chinese cabbage.
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