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Coniferyl aldehyde from the phenylpropanoid pathway targets pyruvate kinase in Dactylobotrys graminicola to confer sheath rot resistance in hulless barley(中科院一区,IF=10.8)

Zheng Haowen*, Chen Liyifan*, Wei Jianguo, Xu Yuandi, Chen Rangrang, Li Yu, Liu Yan, Yan Jiahui, Hou Lu, Chen Yiliang, Kang Zhensheng, Zhang Haifeng, Yao Qiang. Coniferyl aldehyde from the phenylpropanoid pathway targets pyruvate kinase in Dactylobotrys graminicola to confer sheath rot resistance in hulless barley. Journal of Integrative Plant Biology, 2026, 00: 1–18.

Genomic analysis, trajectory tracking and field survey reveal sources and long-distance dispersal routes of wheat stripe rust pathogen in China(中科院一区,IF=11.8)

Yuxiang Li#, Jichen Dai#, Taixue Zhang#, Baotong Wang, Siyue Zhang, Conghao Wang, Jiguang Zhang, Qiang Yao, Mingju Li, Chengyun Li, Yuelin Peng, Shiqin Cao, Gangming Zhan, Fei Tao, Haifeng Gao, Weili Huang, Xiaojun Feng, Yingwen Bai, Zhuoma Qucuo, Hongsheng Shang, Chong Huang, Wancai Liu, Jiasui Zhan, Xiangming Xu, Xianming Chen, Zhensheng Kang*, and Xiaoping Hu*. Genomic analysis, trajectory tracking and field survey reveal sources and long-distance dispersal routes of wheat stripe rust pathogen in China. Plant Communications, 2023, 4(4):100563

Migration of wheat stripe rust from the primary oversummering region to neighboring regions in China(中科院一区,IF=5.8)

Li, Y., Zhang, S., Liu, D. et al. Migration of wheat stripe rust from the primary oversummering region to neighboring regions in China. Commun Biol 8, 350 (2025). https://doi.org/10.1038/s42003-025-07789-3

Genome Assembly of Dactylobotrys graminicola Reveals the Terpene Toxin Biosynthesis Gene Cluster that Uncovers 4,15 Diacetylverrucarol as a Phytotoxin with Virulence and Herbicidal Activity(IF=6.4)

Chen, Liyifan*; Zheng, Haowen*; Li, Yu; Li, Kainan; Dong, Ruifang; Zhang, Haiqing; Liu, Yan; Xia, Chongjing; Ye, Yonghao; Zhang, Haifeng; Yao, Qiang; Genome Assembly of Dactylobotrys graminicola Reveals the Terpene Toxin Biosynthesis Gene Cluster that Uncovers 4,15 Diacetylverrucarol as a Phytotoxin with Virulence and Herbicidal Activity, Journal of Agricultural and Food Chemistry, 2025, 73(24): 15067-15077.

Range of the Key Oversummering Regions of Puccinia striiformis f. sp. tritici in Northwestern China Has Expanded Westward(JCR Q1,IF=3.5)

Liang Huang, Miaomiao Huang, Anna Berlin, Shiqin Cao, Jonathan Yuen, Jiasui Zhan, Zhenyu Sun, Qiang Yao, Hao Zhang, Bo Liu, Wanquan Chen, and Taiguo Liu. Range of the Key Oversummering Regions of Puccinia striiformis f. sp. tritici in Northwestern China Has Expanded Westward. Phytopathology,2025,115(2):1649-1658.10.1094/PHYTO-05-25-0180-R

Re-delimiting oversummering regions of Puccinia striiformis f. sp. tritici in China(JCR Q1,IF=3.5)

Zhang, J., Li, Y., Liu, D. et al. Re-delimiting oversummering regions of Puccinia striiformis f. sp. tritici in China. Phytopathol Res 7, 13 (2025). https://doi.org/10.1186/s42483-024-00308-y

The development and validation of a genotyping-by-target sequencing chip for fungal population genetic analysis(IF=6.3)

Yan, H., Ma, Z., Yao, Q. et al. The development and validation of a genotyping-by-target sequencing chip for fungal population genetic analysis. Stress Biology 6, 7 (2026). https://doi.org/10.1007/s44154-025-00281-2

Establishment of a recombinase polymerase amplification detection method for Puccinia striiformis f. sp. tritici(JCR Q1,IF=3.9)

Liu, Y., Hao, J., Guo, Q. et al. Establishment of a recombinase polymerase amplification detection method for Puccinia striiformis f. sp. tritici. Sci Rep 13, 16133 (2023). https://doi.org/10.1038/s41598-023-42663-4

Semantic Segmentation of Wheat Stripe Rust Images Using Deep Learning(JCR Q1,IF=3.4)

Li, Y.; Qiao, T.; Leng, W.; Jiao, W.; Luo, J.; Lv, Y.; Tong, Y.; Mei, X.; Li, H.; Hu, Q.; et al. Semantic Segmentation of Wheat Stripe Rust Images Using Deep Learning. Agronomy 2022, 12, 2933. https://doi.org/10.3390/agronomy12122933

Phenotyping and Genotyping Analyses Reveal the Spread of Puccinia striiformis f. sp. tritici Aeciospores From Susceptible Barberry to Wheat in Qinghai of China(JCR Q1 IF=4.8)

Chen W, Zhang Z, Ma X, Zhang G, Yao Q, Kang Z and Zhao J (2021) Phenotyping and Genotyping Analyses Reveal the Spread of Puccinia striiformis f. sp. tritici Aeciospores From Susceptible Barberry to Wheat in Qinghai of China. Front. Plant Sci. 12:764304. doi: 10.3389/fpls.2021.764304

姚强,郭青云,闫佳会,张贵,侯生英,陈万权.青海东部麦区小麦条锈菌越冬调查初报[J].植物保护学报,2014,41(05):578-583.DOI:10.13802/j.cnki.zwbhxb.2014.05.030.

卢恩钰,郑倪,郭青云,赵杰,康振生,姚强.青海小麦条锈菌侵染小檗有性生殖发生率检测[J].植物病理学报,2025,55(03):517-521.DOI:10.13926/j.cnki.apps.000951.

马文龙,高威正,王成,郭青云,刘万才,姚强.条锈病对青海不同抗性小麦品种的为害损失率及防治阈值[J].中国植保导刊,2025,45(03):54-59+75.

郭阳,郑倪,王璇,马文龙,闫佳会,郭青云,陈红雨,姚强.防治小麦条锈病新药剂的筛选[J].西北农业学报,2025,34(04):733-738.

王璇,卢恩钰,周小妹,马文龙,康振生,陈万权,郭青云,姚强.2023年青海越夏菌源区冬小麦秋苗条锈病发生动态[J].植物保护,2025,51(04):330-335.DOI:10.16688/j.zwbh.2024379.

赵雪梅,刘耀霞,郭青云,姚强.2020年与2021年青海省小麦条锈菌越冬情况监测[J].中国植保导刊,2025,45(02):39-44.

郭阳,卢恩钰,周小妹,郭青云,康振生,姚强.208份春小麦资源抗条锈性评价及抗病基因检测[J].麦类作物学报,2025,45(04):448-461.

周小妹,严浩浩,高威正,闫佳会,侯璐,康振生,姚强.青海和甘肃两省小麦条锈菌越夏菌源群体毒性多样性分析[J].植物医学,2025,4(02):12-22.DOI:10.13718/j.cnki.zwyx.2025.02.002.

郑倪,马文龙,陈建雄,侯璐,闫佳会,郭青云,詹刚明,康振生,姚强.2016年青海省小麦条锈菌群体遗传多样性分析[J].植物病理学报,2025,55(06):1265-1276.DOI:10.13926/j.cnki.apps.000955.

陈建雄,詹刚明,郭青云,康振生,姚强.青海省2014—2016年小麦条锈菌越夏菌源群体毒性结构分析[J].植物病理学报,2024,54(03):561-570.DOI:10.13926/j.cnki.apps.001618.

李婷婷,赵雅琼,金社林,姚强,王海光.甘肃和青海小麦条锈菌UV-B辐射敏感性测定[J].植物病理学报,2024,54(03):591-606.DOI:10.13926/j.cnki.apps.000929.

周聪颖,吕璇,邓杰,赵宝强,高图强,姚强,马占鸿.青海省东部地区小麦条锈菌群体遗传结构分析[J].植物病理学报,2023,53(05):922-933.DOI:10.13926/j.cnki.apps.000841.

刘耀霞,张学飞,闫佳会,姚强,郭青云.小麦条锈菌实时荧光定量PCR检测方法的建立[J].青海大学学报,2022,40(02):35-39+70.DOI:10.13901/j.cnki.qhwxxbzk.2022.02.006.

严浩浩,闫佳会,侯璐,姚强.青海省春小麦条锈病减药防控技术研究[J].青海大学学报,2020,38(04):12-18.DOI:10.13901/j.cnki.qhwxxbzk.2020.04.003.

杜志敏,姚强,黄淑杰,闫佳会,侯璐,郭青云,赵杰,康振生.青海东部小麦条锈菌转主寄主小檗资源调查与鉴定[J].植物病理学报,2019,49(03):370-378.DOI:10.13926/j.cnki.apps.000290.