Phytopathol Res | 编辑部精选-病毒专题一

学术   2024-07-03 09:02   北京  

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01




Biosynthesis of cupric oxide nanoparticles: its antiviral activities against TMV by directly destroying virion and inducing plant resistance

Shuaikang Liu, Weiqiang Tian, Zhongwei Liu, Xuefeng Wei, Kai Yuan, Wei Du, Siang Chen, Shuhan Chen, Dong Zhou, and Lin Cai

Phytopathology Research volume 6, Article number: 30 (2024) 

引用此文:

Liu, S., Tian, W., Liu, Z. et al. Biosynthesis of cupric oxide nanoparticles: its antiviral activities against TMV by directly destroying virion and inducing plant resistance. Phytopathol Res 6, 30 (2024). https://doi.org/10.1186/s42483-024-00250-z



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02




The mRNA surveillance factor Pelo restricts rice virus propagation in insect vectors and host plants

Xinyan Sun, Heran Guan, Taiyun Wei, and Dongsheng Jia

Phytopathology Research volume 6, Article number: 34 (2024)

引用此文:

Sun, X., Guan, H., Wei, T. et al. The mRNA surveillance factor Pelo restricts rice virus propagation in insect vectors and host plants. Phytopathol Res 6, 34 (2024). https://doi.org/10.1186/s42483-024-00251-y



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03




Engineering of the complementary mutation site in tobacco mosaic virus p126 to develop a stable attenuated mutant for cross-protection

Xiaojie Xu, Xiaoxue Huan, Xiuqi Mu, Qing Zhu, Shaoyan Jiang, Xujie Sun, Yanping Tian, Chao Geng, and Xiangdong Li

Phytopathology Research volume 6, Article number: 27 (2024)

引用此文:

Xu, X., Huan, X., Mu, X. et al. Engineering of the complementary mutation site in tobacco mosaic virus p126 to develop a stable attenuated mutant for cross-protection. Phytopathol Res 6, 27 (2024). https://doi.org/10.1186/s42483-024-00246-9



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04




A highly efficient Agrobacterium-mediated infectious system for Sweet potato leaf curl virus and a deltasatellite-based VIGS vector

Yi Zhang, Xuangang Yang, Lifei Huang, and Shulin Deng

Phytopathology Research volume 6, Article number: 23 (2024)

引用此文:

Zhang, Y., Yang, X., Huang, L. et al. A highly efficient Agrobacterium-mediated infectious system for Sweet potato leaf curl virus and a deltasatellite-based VIGS vector. Phytopathol Res 6, 23 (2024). https://doi.org/10.1186/s42483-024-00244-x



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05




A simple and effective VIGS system facilitates the control of citrus canker by silencing CsLOB1

Chunqing Wang, Zhimin Ma, Jinhuan Zhou, Jiaxin Li, Peng Cao, Chenhu Song, Chuxin Li, Xinliang Wang, Yu Bin, Changyong Zhou, and Zhen Song

Phytopathology Research volume 6, Article number: 12 (2024)

引用此文:

Wang, C., Ma, Z., Zhou, J. et al. A simple and effective VIGS system facilitates the control of citrus canker by silencing CsLOB1. Phytopathol Res 6, 12 (2024). https://doi.org/10.1186/s42483-024-00234-z



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06




Transmission of areca palm velarivirus 1 (APV1) by Pseudococcus cryptus

Xue Zhao, Ruibai Zhao, Xianmei Cao, Yutian Wang, Hongxing Wang, and Xi Huang

Phytopathology Research volume 6, Article number: 10 (2024)

引用此文:

Zhao, X., Zhao, R., Cao, X. et al. Transmission of areca palm velarivirus 1 (APV1) by Pseudococcus cryptusPhytopathol Res 6, 10 (2024). https://doi.org/10.1186/s42483-024-00228-x



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07




Identification of ceRNA-vsiRNA-mRNA network for exploring the mechanism underlying pathogenesis of sugarcane mosaic virus in resistant and susceptible maize inbred lines

Xinran Gao, Kaiqiang Hao, Zhichao Du, Sijia Zhang, Zhiping Wang, Mengnan An, Zihao Xia,and Yuanhua Wu

Phytopathology Research volume 5, Article number: 60 (2023)

引用此文:

Gao, X., Hao, K., Du, Z. et al. Identification of ceRNA-vsiRNA-mRNA network for exploring the mechanism underlying pathogenesis of sugarcane mosaic virus in resistant and susceptible maize inbred lines. Phytopathol Res 5, 60 (2023). https://doi.org/10.1186/s42483-023-00216-7



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08




Development of novel specific molecular markers for the Sw-5b gene to assist with tomato spotted wilt virus-resistant tomato breeding

Cong Tong, Shen Huang, Yajie Shi, Qian Wu, Lingna Shangguan, Haohua Yu, Rongzhen Chen, Zixuan Ding, Yunxia Xiao, Yinghua Ji, Zhongkai Zhang, Hui Zhang, Min Zhu, and Xiaorong Tao

Phytopathology Research volume 5, Article number: 59 (2023)

引用此文:

Tong, C., Huang, S., Shi, Y. et al. Development of novel specific molecular markers for the Sw-5b gene to assist with tomato spotted wilt virus-resistant tomato breeding. Phytopathol Res 5, 59 (2023). https://doi.org/10.1186/s42483-023-00214-9



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09




Development and application of a self-assembling split-fluorescent protein toolkit to monitor geminiviral movement and infection in plant

Yaqin Wang, Tao Hu, Hui Liu, Chenlu Su, Li Xie, Zhanqi Wang, and  Xueping Zhou

Phytopathology Research volume 5, Article number: 55 (2023)

引用此文:

Wang, Y., Hu, T., Liu, H. et al. Development and application of a self-assembling split-fluorescent protein toolkit to monitor geminiviral movement and infection in plant. Phytopathol Res 5, 55 (2023). https://doi.org/10.1186/s42483-023-00209-6



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10




Global phylodynamics of two relevant aphid-transmitted viruses in cucurbit crops: cucurbit aphid-borne yellows virus and watermelon mosaic virus

M. P. Rabadán and P. Gómez 

Phytopathology Research volume 5, Article number: 53 (2023)

引用此文:

Rabadán, M.P., Gómez, P. Global phylodynamics of two relevant aphid-transmitted viruses in cucurbit crops: cucurbit aphid-borne yellows virus and watermelon mosaic virus. Phytopathol Res 5, 53 (2023). https://doi.org/10.1186/s42483-023-00207-8



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11




Rice yellow stunt virus p3 protein enters the nucleus of leafhopper cell and localizes to viroplasm through interaction with N protein via importin α3-mediated pathway

Zhejun Huang, Zhenxi Ji, Juan Wang, Zhanpeng Li, Zhoumian Jiang, Wei Ni, Hongyan Chen, Taiyun Wei, and Xiao-Feng Zhang

Phytopathology Research volume 5, Article number: 48 (2023)

引用此文:

Huang, Z., Ji, Z., Wang, J. et al. Rice yellow stunt virus p3 protein enters the nucleus of leafhopper cell and localizes to viroplasm through interaction with N protein via importin α3-mediated pathway. Phytopathol Res 5, 48 (2023). https://doi.org/10.1186/s42483-023-00203-y



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12




Molecular characterization of a novel polerovirus from bitter gourd plants and dynamic subcellular localization of the virus-encoded proteins

Rui Qiao, Linhao Ge, Mengjiao Pan, Shoulin Jiang, Jieyin Chen, Wenxing Liang, Xueping Zhou, and Fangfang Li

Phytopathology Research volume 5, Article number: 41 (2023)

引用此文:

Qiao, R., Ge, L., Pan, M. et al. Molecular characterization of a novel polerovirus from bitter gourd plants and dynamic subcellular localization of the virus-encoded proteins. Phytopathol Res 5, 41 (2023). https://doi.org/10.1186/s42483-023-00192-y



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13




Epidemiological evaluation and identification of the insect vector of soybean stay-green associated virus

Ruixiang Cheng, Rong Yan, Ruoxin Mei, Yaodi Wang, Wei Niu, Hao Ai, Sijing Qiao, Mengjia Xu, Wei Yu, Wenwu Ye, Yuanchao Wang, Xiaorong Tao, Xueping Zhou, and Yi Xu

Phytopathology Research volume 5, Article number: 20 (2023)

引用此文:

Cheng, R., Yan, R., Mei, R. et al. Epidemiological evaluation and identification of the insect vector of soybean stay-green associated virus. Phytopathol Res 5, 20 (2023). https://doi.org/10.1186/s42483-023-00177-x



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14




Leafhopper transmits soybean stay-green associated virus to leguminous plants

Jinlong Yin, Zhuangzhuang Hu, Shuqi Xu, Xin Hong, Yanglin Qiu, Xinge Cheng, Liqun Wang, Weiliang Shen, Haijian Zhi, Kai Li, and Kai Xu

Phytopathology Research volume 5, Article number: 17 (2023)

引用此文:

Yin, J., Hu, Z., Xu, S. et al. Leafhopper transmits soybean stay-green associated virus to leguminous plants. Phytopathol Res 5, 17 (2023). https://doi.org/10.1186/s42483-023-00172-2



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15




Molecular characteristics and pathogenicity of infectious cDNA clones of the Chinese isolates of pea enation mosaic virus 1 and pea enation mosaic virus 2

Xiaojiao Chen, Min Xie, Honglin Chen, Yue Zhang, Kehua Li, Pingxiu Lan, Taiyun Wei, and Fan Li

Phytopathology Research volume 5, Article number: 15 (2023)

引用此文:

Chen, X., Xie, M., Chen, H. et al. Molecular characteristics and pathogenicity of infectious cDNA clones of the Chinese isolates of pea enation mosaic virus 1 and pea enation mosaic virus 2. Phytopathol Res 5, 15 (2023). https://doi.org/10.1186/s42483-023-00169-x



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PR植物病理学研究
Phytopathology Research (PR)是我国植物病理学科的第一个英文期刊,由中国植物病理学会和中国农业大学联合主办,与BMC合作出版,于2019年1月正式上线。
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