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01
Overexpression of wheat spermidine synthase gene enhances wheat resistance to Fusarium head blight
Jingyi Ren, Chengliang Li, Qi Xiu, Ming Xu, and Huiquan Liu
Phytopathology Research volume 6, Article number: 24 (2024)
引用此文:
Ren, J., Li, C., Xiu, Q. et al. Overexpression of wheat spermidine synthase gene enhances wheat resistance to Fusarium head blight. Phytopathol Res 6, 24 (2024). https://doi.org/10.1186/s42483-024-00243-y
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02
Banana bunchy top virus movement protein induces resistance in banana against Fusarium wilt
Weiying Wang, Wenqiang Wan, Qian Chen, Taiyun Wei, and Hongxiang Zhang
Phytopathology Research volume 6, Article number: 25 (2024)
引用此文:
Wang, W., Wan, W., Chen, Q. et al. Banana bunchy top virus movement protein induces resistance in banana against Fusarium wilt. Phytopathol Res 6, 25 (2024). https://doi.org/10.1186/s42483-024-00242-z
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03
FpOGT is required for fungal growth, stress response, and virulence of Fusarium proliferatum by affecting the expression of glucokinase and other glucose metabolism-related genes
Yizhou Gao, Yitong Wang, Siming He, Haibo Li, Yuqing Wang, and Zhihong Wu
Phytopathology Research volume 6, Article number: 2 (2024)
引用此文:
Gao, Y., Wang, Y., He, S. et al. FpOGT is required for fungal growth, stress response, and virulence of Fusarium proliferatum by affecting the expression of glucokinase and other glucose metabolism-related genes. Phytopathol Res 6, 2 (2024). https://doi.org/10.1186/s42483-023-00221-w
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04
The sucrose non-fermenting-1 kinase Snf1 is involved in fludioxonil resistance via interacting with the high osmolarity glycerol MAPK kinase Hog1 in Fusarium
Jing Wang, Ziyue Wen, Yun Chen, and Zhonghua Ma
Phytopathology Research volume 5, Article number: 52 (2023)
引用此文:
Wang, J., Wen, Z., Chen, Y. et al. The sucrose non-fermenting-1 kinase Snf1 is involved in fludioxonil resistance via interacting with the high osmolarity glycerol MAPK kinase Hog1 in Fusarium. Phytopathol Res 5, 52 (2023). https://doi.org/10.1186/s42483-023-00208-7
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05
Genetic diversity of field Fusarium asiaticum and Fusarium graminearum isolates increases the risk of fungicide resistance
Ya-Zhou Zhang, Zhuo Li, Jie Man, Dan Xu, Lan Wen, Chen Yang, Qiang Xu, Qian-Tao Jiang, Guo-Yue Chen, Mei Deng, Yun-Liang Peng, Kai Zhong, Peng-Fei Qi,and Yu-Ming Wei
Phytopathology Research volume 5, Article number: 51 (2023)
引用此文:
Zhang, YZ., Li, Z., Man, J. et al. Genetic diversity of field Fusarium asiaticum and Fusarium graminearum isolates increases the risk of fungicide resistance. Phytopathol Res 5, 51 (2023). https://doi.org/10.1186/s42483-023-00206-9
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06
Systemic screening of Fusarium oxysporum candidate effectors reveals FoSSP17 that suppresses plant immunity and contributes to virulence
Tian Wang, Yun Xu, Yang Zhao, Xiaofei Liang, Shuang Liu, Yufang Zhang, Zhensheng Kang, Daipeng Chen, and Li Zheng
Phytopathology Research volume 5, Article number: 42 (2023)
引用此文:
Wang, T., Xu, Y., Zhao, Y. et al. Systemic screening of Fusarium oxysporum candidate effectors reveals FoSSP17 that suppresses plant immunity and contributes to virulence. Phytopathol Res 5, 42 (2023). https://doi.org/10.1186/s42483-023-00198-6
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07
Characterization of mating type, spore killing, and pathogenicity of Fusarium verticillioides populations from maize in China
Fengcheng Zhang, Tingting Tang, Fan Li, and Wei Guo
Phytopathology Research volume 5, Article number: 40 (2023)
引用此文:
Zhang, F., Tang, T., Li, F. et al. Characterization of mating type, spore killing, and pathogenicity of Fusarium verticillioides populations from maize in China. Phytopathol Res 5, 40 (2023). https://doi.org/10.1186/s42483-023-00195-9
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08
The b-ZIP transcription factor, FgBzip16, is essential for fungal development, ascospore discharge, and pathogenicity by modulating fatty acid metabolism in Fusarium graminearum
Bing Li, Yuhe Shen, Yupan Zhu, Lingling Yang, Ruonan Ma, Hao Sun, Jingang Liang, Kangkang Chen, Zhen Jiao, and Wenchao Yang
Phytopathology Research volume 5, Article number: 36 (2023)
引用此文:
Li, B., Shen, Y., Zhu, Y. et al. The b-ZIP transcription factor, FgBzip16, is essential for fungal development, ascospore discharge, and pathogenicity by modulating fatty acid metabolism in Fusarium graminearum. Phytopathol Res 5, 36 (2023). https://doi.org/10.1186/s42483-023-00190-0
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09
Enhancing tomato resistance by exploring early defense events against Fusarium wilt disease
Jingtao Li, Chenyang Wang, Limei Yang, Fahui Qiu, Yue Li, Yaning Zheng, Sihui Liu, Limin Song, and Wenxing Liang
Phytopathology Research volume 5, Article number: 24 (2023)
引用此文:
Li, J., Wang, C., Yang, L. et al. Enhancing tomato resistance by exploring early defense events against Fusarium wilt disease. Phytopathol Res 5, 24 (2023). https://doi.org/10.1186/s42483-023-00176-y
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10
The effector Fg62 contributes to Fusarium graminearum virulence and induces plant cell death
Shuchen Wang, Sen Yang, Kaixin Dai, Wenyue Zheng, Xiaoyi Zhang, Bo Yang, Wenwu Ye, Xiaobo Zheng, and Yuanchao Wang
Phytopathology Research volume 5, Article number: 12 (2023)
引用此文:
Wang, S., Yang, S., Dai, K. et al. The effector Fg62 contributes to Fusarium graminearum virulence and induces plant cell death. Phytopathol Res 5, 12 (2023). https://doi.org/10.1186/s42483-023-00167-z
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11
Combatting Fusarium head blight: advances in molecular interactions between Fusarium graminearum and wheat
Ming Xu, Qinhu Wang, Guanghui Wang, Xue Zhang, Huiquan Liu, and Cong Jiang
Phytopathology Research volume 4, Article number: 37 (2022)
引用此文:
Xu, M., Wang, Q., Wang, G. et al. Combatting Fusarium head blight: advances in molecular interactions between Fusarium graminearum and wheat. Phytopathol Res 4, 37 (2022). https://doi.org/10.1186/s42483-022-00142-0
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12
Loss of glucosylceramide synthase impairs the growth and virulence of Fusarium oxysporum f. sp. cubense
Jian Wang, Kun Zhang, Li-Qun Huang, He-Nan Bao, Na Hai, Yu-Bing Yang, Si-Wen Liu, Chun-Yu Li, and Nan Yao
Phytopathology Research volume 4, Article number: 31 (2022)
引用此文:
Wang, J., Zhang, K., Huang, LQ. et al. Loss of glucosylceramide synthase impairs the growth and virulence of Fusarium oxysporum f. sp. cubense. Phytopathol Res 4, 31 (2022). https://doi.org/10.1186/s42483-022-00136-y
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13
FpCzf14 is a putative C2H2 transcription factor regulating conidiation in Fusarium pseudograminearum
Linlin Chen, Jingya Zhao, Huiqing Xia, Yuming Ma, Yankun Liu, Mengya Peng, Xiaoping Xing, Bingjian Sun, Yan Shi, and Honglian Li
Phytopathology Research volume 2, Article number: 33 (2020)
引用此文:
Chen, L., Zhao, J., Xia, H. et al. FpCzf14 is a putative C2H2 transcription factor regulating conidiation in Fusarium pseudograminearum. Phytopathol Res 2, 33 (2020). https://doi.org/10.1186/s42483-020-00074-7
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14
Spatiotemporal nature of Fusarium graminearum-wheat coleoptile interactions
Han Qiu, Xu Zhao, Wenqin Fang, Huiming Wu, Yakubu Saddeeq Abubakar, Guo-dong Lu, Zonghua Wang, and Wenhui Zheng
Phytopathology Research volume 1, Article number: 26 (2019)
引用此文:
Qiu, H., Zhao, X., Fang, W. et al. Spatiotemporal nature of Fusarium graminearum-wheat coleoptile interactions. Phytopathol Res 1, 26 (2019). https://doi.org/10.1186/s42483-019-0033-7
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15
Phospholipid homeostasis plays an important role in fungal development, fungicide resistance and virulence in Fusarium graminearum
Jing Wang, Haixia Wang, Chenying Zhang, Tianjing Wu, Zhonghua Ma, and Yun Chen
Phytopathology Research volume 1, Article number: 16 (2019)
引用此文:
Wang, J., Wang, H., Zhang, C. et al. Phospholipid homeostasis plays an important role in fungal development, fungicide resistance and virulence in Fusarium graminearum. Phytopathol Res 1, 16 (2019). https://doi.org/10.1186/s42483-019-0023-9
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