Development of a Muskmelon Cultivar with Improved Resistance to Gummy Stem Blight and Desired Agronomic Traits Using Gene Pyramiding

文献类型: 外文期刊

第一作者: Zhang, Ning

作者: Zhang, Ning;Bi, Yan-fei;Lou, Qun-feng;Chen, Jin-feng;Qian, Chun-tao;Xu, Bing-hua;Zhang, Yong-bing;Yi, Hong-ping

作者机构:

关键词: Cucumis melo;Didymella bryoniae;disease resistance breeding;fruit quality;marker-assisted selection

期刊名称:CZECH JOURNAL OF GENETICS AND PLANT BREEDING ( 影响因子:0.865; 五年影响因子:1.017 )

ISSN: 1212-1975

年卷期: 2017 年 53 卷 1 期

页码:

收录情况: SCI

摘要: Gummy stem blight (GSB), caused by Didymella bryoniae (Auersw.) Rehm., is a severe disease affecting Cucurbitaceae crops including melons. The resistance of current melon varieties that carry a single Gsb resistance gene is insufficient to protect against the abundant variation of the D. bryoniae isolates. Pyramiding multiple Gsb resistance genes into melon cultivars is an effective way to develop a broad resistance spectrum and to increase the duration of GSB resistance. In this study, two resistance genes (Gsb-4 and Gsb-6) from two resistant accessions, PI482398 and PI420145, were pyramided into one variety using marker-assisted selection (MAS). The donor parent 4598 that contained Gsb-4 and Gsb-6 was hybridized with muskmelon Baipicui to produce BC1F1 and BC2F1. Phenotyping and MAS enabled identification and pyramiding of two Gsb genes in individuals of F-1, BC1F1 and BC2F1. Field cultivation showed that individuals carrying both Gsb-4 and Gsb-6 had improved resistance to GSB and improved fruit quality. The results indicated that MAS-based pyramiding is an effective strategy for breeding melon cultivars with increased resistance to GSB.

分类号:

  • 相关文献

[1]Rapid and Sensitive Detection of Didymella bryoniae by Visual Loop-Mediated Isothermal Amplification Assay. Yao, Xiefeng,Li, Pingfang,Xu, Jinghua,Zhang, Man,Ren, Runsheng,Liu, Guang,Yang, Xingping. 2016

[2]Identification and Characterization of the Causal Agent of Gummy Stem Blight from Muskmelon and Watermelon in East China. Li, Ping-Fang,Ren, Run-Sheng,Yao, Xie-Feng,Xu, Jin-Hua,Yang, Xing-Ping,Babu, Binoy,Paret, Mathews L..

[3]Melatonin alleviates cold-induced oxidative damage by regulation of ascorbate-glutathione and proline metabolism in melon seedlings (Cucumis melo L.). Zhang, Y. P.,Chen, Y. Y.,Zhang, Y. P.,Xu, S.,Yang, S. J.,Chen, Y. Y..

[4]Differential sensitivity of field muskmelon (Cucumis melo L. var. agrestis Naud.) populations to nicosulfuron, imazapic, fomesafen and bentazon. Xu, Hongle,Su, Wangcang,Lu, Chuantao,Zhang, Zhenchen,Xue, Fei,Wu, Renhai,Xu, Hongle,Su, Wangcang,Lu, Chuantao,Zhang, Zhenchen,Xue, Fei,Wu, Renhai,Li, Honglian,Yang, Meng. 2018

[5]Breeding disease-resistant Hami-melon. Wu, MZ,Yi, HP,Zhai, WQ,Feng, JX. 2004

[6]Molecular Analysis of the Genetic Diversity of Chinese Hami Melon and Its Relationship to the Melon Germplasm from Central and South Asia. Long, Bo,Long, Chunlin,Aierken, Yasheng,Akashi, Yukari,Phan Thi Phuong Nhi,Halidan, Yikeremu,Nishida, Hidetaka,Kato, Kenji,Aierken, Yasheng,Wu, Min Zhu,Tanaka, Katsunori. 2011

[7]Establishment of Molecular Identity Cards for Cucumis melo Cultivars Using SSR Markers. Li, Li,Xu, Xiulan,Wu, Ping,Li, Li,Xu, Xiulan,Wu, Ping,Li, Li,Xu, Xiulan,Wu, Ping,Zhang, Guo,Zhang, Xiaobing. 2018

[8]Effects of melatonin on photosynthetic performance and antioxidants in melon during cold and recovery. Zhang, Y. P.,Chen, Y. Y.,Zhang, Y. P.,Yang, S. J.,Chen, Y. Y..

[9]A Sequence-amplified Characterized Region Marker for a Single, Dominant Gene in Melon PI 134198 that Confers Resistance to a Unique Race of Podosphaera xanthii in China. Liu, Longzhou,Chen, Youyuan,Su, Zhenghong,Zhang, Hui,Zhu, Weiming. 2010

[10]Crown canker caused by Paramyrothecium roridum on greenhouse muskmelon (Cucumis melo) in China. Chen, Zhen-Dong,Li, Pan-Liang,Chai, A-Li,Guo, Wei-Tao,Shi, Yan-Xia,Xie, Xue-Wen,Li, Bao-Ju. 2018

[11]Genetic diversity of melon landraces (Cucumis melo L.) in the Xinjiang Uygur Autonomous Region on the basis of simple sequence repeat markers. Zhang, Yongbing,Aierken, Yasheng,Ma, Xinli,Yi, Hongping,Wu, Mingzhu,Fan, Xiangbin.

[12]Role of leaf structure in resistance to powdery mildew in water melon. Zhang, Hui-Jun,Ge, Yu,Wang, Qiang,Zhang, Jian-Nong.

[13]Effects of Bagging on the Quality of Pear Fruit and Pesticide Residues. Lin, Jing,Chang, Youhong,Yan, Zhimei,Li, Xiaogang. 2008

[14]Hexose Characteristics of Peach Fruit and Leaves. Wu, B.,Yang, J.,Wang, Y.,Niu, J.,Li, S.,Zhao, J.. 2011

[15]Comparative transcriptome and proteome profiling of two Citrus sinensis cultivars during fruit development and ripening. Liu, Jian-jun,Chen, Ke-ling,Li, Hong-wen,He, Jian,Guan, Bin,He, Li,Wang, Jian-hui,Liu, Jian-jun,Chen, Ke-ling,Li, Hong-wen,He, Jian,Guan, Bin,He, Li,Wang, Jian-hui,Liu, Jian-jun,Chen, Ke-ling,Li, Hong-wen,He, Jian,Guan, Bin,He, Li. 2017

[16]Maternal inheritance of sugars and acids in peach (P. persica (L.) Batsch) fruit. Wu, B. H.,Chen, J.,Xi, H. F.,Zhao, J. B.,Jiang, Q.,Chen, J.,Xi, H. F.,Li, S. H.. 2012

[17]Profiling Taste and Aroma Compound Metabolism during Apricot Fruit Development and Ripening. Xi, Wanpeng,Zheng, Huiwen,Zhang, Qiuyun,Xi, Wanpeng,Li, Wenhui. 2016

[18]Ca(NO3)(2) canopy spraying during physiological fruit drop period has a better influence on the tree character and fruit quality of Newhall navel orange (Citrus sinensis Osbeck). Zheng Yong-qiang,Yang Qiong,Jia Xue-mei,He Shan-ian,Deng Lie,Xie Rang-jin,Yi Shi-lai,Lu Qiang,Liu Yan-mei. 2017

[19]Effect of different potassium levels on growth and quality in two melon cultivars and two growing-seasons. Tang, Mi,Zhao, Hongfei,Li, Qiyou,Shi, Xianfeng,Sun, Yuhong,Bie, Zhilong,Xie, Junjun,Yi, Hongping. 2012

[20]Combined effects of 1-MCP and MAP on the fruit quality of pear (Pyrus bretschneideri Reld cv. Laiyang) during cold storage. Li, Fujun,Guan, Junfeng,Li, Fujun,Zhang, Xinhua,Song, Baicheng,Li, Jiazheng,Shang, Zhonglin,Guan, Junfeng. 2013

作者其他论文 更多>>

微信小程序