NLR1 is a strong candidate for the Rm3 dominant green peach aphid (Myzus persicae) resistance trait in peach
文献类型: 外文期刊
第一作者: Pan, Lei
作者: Pan, Lei;Lu, Zhenhua;Yan, Lele;Zeng, Wenfang;Bu, Lulu;Cui, Guochao;Niu, Liang;Wang, Zhiqiang;Shen, Zhijun;Yu, Mingliang
作者机构:
关键词: Green peach aphid (GPA); Myzus persicae; NLR; Rm3; peach; Prunus persica
期刊名称:JOURNAL OF EXPERIMENTAL BOTANY ( 影响因子:7.298; 五年影响因子:8.291 )
ISSN: 0022-0957
年卷期: 2022 年 73 卷 5 期
页码:
收录情况: SCI
摘要: NLR1is identified as a strong candidate gene for the Rm3locus that confers the dominant green peach aphid resistance trait in peach. The green peach aphid (GPA), Myzus persicae, is a polyphagous, sap-sucking aphid and a vector of many plant viruses. In peach, Prunus persica, three individual dominant GPA resistance loci have been genetically defined (Rm1-3), but knowledge of the underlying genes is limited. In this study, we focused on the Rm3 locus. Bulk segregant analysis (BSA) mapping in segregating progeny populations delimited Rm3 to an interval spanning 160 kb containing 21 genes on chromosome 1. RNA-seq data provided no evidence of candidate genes, but chromosomal structural variations were predicted around a nucleotide-binding site-leucine-rich repeat (NLR) gene (ppa000596m) within the Rm3 fine-mapping interval. Following bacterial artificial chromosome (BAC) library construction for a GPA-resistant peach cultivar and the sequencing of three target BAC clones, a chromosomal structural variation encompassing two novel TIR-NLR-class disease resistance (R) protein-coding genes was identified, and the expressed NLR gene (NLR1) was identified as a candidate for M. persicae resistance. Consistent with its proposed role in controlling GPA resistance, NLR1 was only expressed in the leaves of resistant peach phenotypes. A molecular marker that was designed based on the NLR1 sequence co-segregated with the GPA-resistant phenotype in four segregating populations, 162 peach cultivars, and 14 wild relatives, demonstrating the dominant inheritance of the Rm3 locus. Our findings can be exploited to facilitate future breeding for GPA-resistance in peach.
分类号:
- 相关文献
作者其他论文 更多>>
-
Comparative transcriptomics of Monilinia fructicola- resistant and- susceptible peach fruit reveals gene networks associated with peach resistance to brown rot disease
作者:Li, Shenge;Xu, Jianlan;Cai, ZhiXiang;Ma, Ruijuan;Yu, Mingliang;Shen, Zhijun
关键词:Comparative transcriptome analysis; Disease resistance; NLR; Calcium signaling; Hypersensitive response
-
Multidimensional analysis of the flavor characteristics of yellow peach at different ripening stages: Chemical composition profiling and sensory evaluation
作者:Liu, Huayu;Zhang, Minghao;Su, Mingshen;Du, Jihong;Zhou, Huijuan;Zhang, Xianan;Li, Xiongwei;Ye, Zhengwen;Liu, Huayu;Zhang, Minghao;Su, Mingshen;Du, Jihong;Zhou, Huijuan;Zhang, Xianan;Li, Xiongwei;Ye, Zhengwen;Yang, Xiaofeng;Wang, Shouchuang;Zeng, Wenfang
关键词:Yellow peach; Flavor; GC-MS; OAVs; Metabolomics; E -nose; E -tongue
-
Role of Endogenous Hormones on Seed Hardness in Pomegranate Fruit Development
作者:Li, Haoxian;Chen, Lina;Liu, Ruitao;Lu, Zhenhua;Li, Haoxian;Lu, Zhenhua;Chen, Lina;Lu, Zhenhua;Chen, Lina;Liu, Ruitao;Lu, Zhenhua
关键词:pomegranate; seed hardness; endogenous hormones
-
Assembly and analysis of the complete mitochondrial genome of Prunus davidiana (Rosaceae)
作者:Zhang, Yuyan;Ma, Ruijuan;Yu, Mingliang;Xu, Jianlan;Shen, Zhijun;Zhang, Yuyan;Guo, Xin
关键词:
Prunus davidiana ; mitochondrial genome; repeats; phylogenetic analysis; indel marker -
S-RNase-mediated attenuation of FviPP2Ac-FviRbohH binding promotes ROS accumulation and arrests pollen tube growth in Fragaria viridis
作者:Ni, Zhiyou;Zou, Yuting;Xu, Linlin;Shen, Zhijun;Wu, Ejiao;Qiao, Yushan;Ni, Zhiyou;Pan, Jiaoyan;Zou, Yuting;Pan, Zhiliang;Wang, Tao;Qiao, Yushan
关键词:NADPH oxidase; Phosphatase; ROS; S-RNase; Self-incompatibility; Strawberries
-
Weighted Gene Correlation Network Analysis Reveals Key Regulatory Genes Influencing Selenium Enrichment and Yield with Exogenous Selenite in Tartary Buckwheat
作者:Ye, Xueling;Gan, Zhen;Sun, Wenjun;Fan, Yu;Liu, Changying;Wu, Qi;Wan, Yan;Wu, Xiaoyong;Xiang, Dabing;Mei, Linsen;Wang, Zhiqiang
关键词:
Fagopyrum tataricum (L.) Gaertn.; transcriptome; absorption and transport of selenite; differentially expressed genes; regulation model -
Multi-omic analysis provides new insights into the regulatory mechanism of the LED-induced delay of postharvest senescence and yellowing in broccoli
作者:Wang, Zhiqiang;Lv, Jieyu;Bin, Yuqi;Duan, Wenhui;Shi, Junyan;Gao, Hongdou;Yuan, Shuzhi;Yue, Xiaozhen;Zuo, Jinhua;Wang, Qing;Lv, Jieyu;Duan, Wenhui;Xu, Xiangbin;Wang, Zhiqiang;Li, Xiaojiao
关键词:Broccoli; Red LED light irradiation; Postharvest; Gene expression; Oxidative stress
