Genetic diversity and aggressiveness of Fusarium species isolated from soybean in Alberta, Canada
文献类型: 外文期刊
第一作者: Zhou, Qixing
作者: Zhou, Qixing;Chang, Kan-Fa;Hwang, Sheau-Fang;Fu, Heting;Turnbull, George D.;Li, Nana;Strelkov, Stephen E.;Conner, Robert L.;McLaren, Debra L.;Harding, Michael W.
作者机构:
关键词: Fusarium root rot; ITS; EF-1 alpha; Aggressiveness; Soybean
期刊名称:CROP PROTECTION ( 影响因子:2.571; 五年影响因子:3.11 )
ISSN: 0261-2194
年卷期: 2018 年 105 卷
页码:
收录情况: SCI
摘要: Soybean (Glycine max (L.) Merr.) has excellent potential as an alternative crop to canola in southern Alberta farming systems. However, soybean is susceptible to Fusarium root rot, which usually results in the occurrence of dead or dying plants in mid-to-late summer and severe reductions in yield. A total of 102 isolates identified as Fusarium were recovered from diseased soybean root samples collected from central and southern Alberta from 2011 to 2013. Ten species of Fusarium were identified, with F. acuminatum as the predominant species (31 out of 102 isolates, 30.39%), followed by F. equiseti (16.67%), F. culmorum (13.73%), F. avenaceum (10.78%), F. oxysporum (8.82%), F. redolens (7.84%), F. torulosum (4.90%), F. tricinctum (2.94%), F. commune (1.96%) and F. proliferatum (0.98%). This is the first report of F. commune, F. redolens and F. torulosum causing root rot in soybean in Canada. Phylogenetic analyses based on sequence data from the translation elongation factor 1-a (EFla) and the internal transcribed spacer (ITS) region were used to evaluate genetic variation and, in conjunction with morphological characters, for species identification. All of the Fusarium isolates were able to infect soybean, although some exhibited varying levels of aggressiveness.
分类号:
- 相关文献
作者其他论文 更多>>
-
CsCIPK20 Improves Tea Plant Cold Tolerance by Modulating Ascorbic Acid Synthesis Through Attenuation of CsCSN5-CsVTC1 Interaction
作者:Di, Taimei;Wu, Yedie;Wang, Jie;He, Mingming;Huang, Jianyan;Li, Nana;Hao, Xinyuan;Ding, Changqing;Zeng, Jianming;Yang, Yajun;Wang, Xinchao;Wang, Lu
关键词:ascorbic acid; CsCIPK20; CsVTC1; low temperature
-
Chlorogenic acid targets SIRT6 to relieve UVB - induced UV damage
作者:Wu, Simin;He, Wei;Zhang, Dongying;Li, Xiaoyong;Wu, Simin;Zhou, Qixing;Feng, Jingying;Zhang, Dongying;Wu, Simin;Gao, Ziqi;Man, Jiaxu
关键词:Chlorogenic acid; Skin Photoaging; DNA damage; SIRT6; Deacetylation
-
Differential Rooting Efficacy of Growth Regulators in Camellia sinensis Cuttings: A Physiological and Biochemical Analysis
作者:Zhou, Yingyi;Zhang, Wenting;Zhou, Yingyi;Wei, Kang;Hao, Xinyuan;Wang, Lu;Li, Nana;Li, Dongliang;Wei, Kang;Hao, Xinyuan;Wang, Lu;Li, Nana;Tang, Shi;Li, Dongliang;Zhang, Wen
关键词:
Camellia sinensis ; cutting propagation; nutrients; enzyme activity; endogenous hormones -
Integrated metabolomics and proteomics analyses reveal the molecular mechanism underlying the yellow leaf phenotype of Camellia sinensis
作者:Li, Nana;Ye, Yufan;He, Mingn'Iing;Di, Tain'Iei;Hao, Xinyuan;Ding, Changqing;Yang, Yajun;Wang, Lu;Wang, Xinchao;He, Weizhong;Ye, Yufan
关键词:Tea plant; Chlorophyll-deficient mutant; Chlorophyll biosynthesis; Photosynthetic protein; Antioxidant capacity; Photooxidative stress
-
Hexokinase gene CsHXK4 positively regulates cold resistance in tea plants (Camellia sinensis)
作者:Wang, Yujie;Zheng, Yiqian;Wang, Lu;Ye, Yufan;Shen, Xinbo;Hao, Xinyuan;Ding, Changqing;Yang, Yajun;Wang, Xinchao;Li, Nana;Zheng, Yiqian
关键词:Camellia sinensis; Hexokinase; Cold tolerance; Sugar signaling; CBF
-
Based on Network Pharmacology and Molecular Docking, the Active Components, Targets, and Mechanisms of Flemingia philippinensis in Improving Inflammation Were Excavated
作者:Zhang, Dongying;Li, Xiaoyong;Zhou, Qixing;Zhang, Zhen;Yang, Xiangxuan;Wang, Dongxue;Man, Jiaxu
关键词:Flemingia philippinensis; improve inflammation; network pharmacology; molecular docking
-
The Host Range of Fusarium proliferatum in Western Canada
作者:Yu, Haitian;Hwang, Sheau-Fang;Strelkov, Stephen E.;Yu, Haitian
关键词:disease severity; Fusarium proliferatum; growth parameters; host range; principal component analysis; resistance; root rot
