Mutagenic effects of low-energy N+ ion implantation on the propamocarb-tolerance of nematophagous fungus Lecanicillium attenuatum

文献类型: 外文期刊

第一作者: Xie, Ming

作者: Xie, Ming;Zhang, Xiao-Lin;Hu, Xin-Ping;Zhang, Yan-Jun;Peng, De-Liang;Li, Qian;Li, Ming

作者机构:

关键词: Biocontrol fungus;Fungicide-tolerance;Ion-beam irradiation;Growth characteristics;Nematicidal activity

期刊名称:BIOLOGICAL CONTROL ( 影响因子:3.687; 五年影响因子:3.962 )

ISSN: 1049-9644

年卷期: 2018 年 117 卷

页码:

收录情况: SCI

摘要: Lecanicillium attenuatum is an important nematophagous fungus with potential as a biopesticide for control of plant-pathogenic nematodes. However, relatively low fungicide-tolerance limits its application in the field. To improve the propamocarb-tolerance of L. attenuatum, a low-energy N+ ion implantation-based mutagenesis system was established. In the first round of N+ ion implantation, a proper conidial lethality rate (87.2-88.8%) and the highest positive mutation rate (11.2-11.4%) were achieved, and the highest propamocarb-tolerant mutant LA-I-R1-T7-M1 and LA-I-R1-T7-M2 were isolated in the experiment 1 and experiment 2 respectively, having a median effective concentration (EC50) value of 1223.6 and 1173.6 mu g/ml respectively. Multiple rounds of N+ ion implantation were further employed, but fungal propamocarb-tolerance had not been significantly enhanced until the fifth-round of ion implantation. The LA-I-R5-M1 was the highest tolerant to propamocarb among all the mutants, whose EC50 value was increased 2.54-fold compared to wild-type strain, reaching to the 1298.7 mu g/ml. Its EC50 value was significantly increased with continuous passaging, which was stable from the fifth-to fifteenth-generation, and then declined. However the EC50 value of the twentieth-generation strain was still higher than the EC50 (1298.7 mu g/ml) of the first-generation strain. The colony growth, conidia yield and conidial germination of mutants on plates, and their parasitism in the nematode eggs of Meloidogyne incognita and Heterodera glycines were not significantly changed in both single-and multiple-round of N+ ion implantation. In conclusion, we had succeeded in improving the propamocarb-tolerance of L. attenuatum through this low-energy N+ ion implantation-based mutagenesis system. The improved strain LA-I-R5-M1 could be potentially applied in combination with propamocarb in the field.

分类号:

  • 相关文献

[1]Improvement of the propamocarb-tolerance of Lecanicillium lecanii through UV-light radiation-based mutagenesis. Xie, Ming,Li, Qian,Hu, Xin-Ping,Zhang, Yan-Jun,Peng, De-Liang,Zhang, Zhao-Rong,Li, Qiang,Liu, Zhi-Qi. 2018

[2]Effects of a NTG-based chemical mutagenesis on the propamocarb-tolerance of the nematophagous fungus Lecanicillium attenuatum. Li, Qian,Hu, Xin-Ping,Zhang, Yan-Jun,Peng, De-Liang,Zhang, Xiao-Lin. 2017

[3]FIELD EVALUATION ON WATER PRODUCTIVITY OF WINTER WHEAT UNDER SPRINKLER OR SURFACE IRRIGATION IN THE NORTH CHINA PLAIN. Liu, Hai-Jun,Kang, Yaohu,Yao, Su-Mei,Sun, Ze-Qiang,Liu, Shi-Ping,Wang, Qing-Gai,Sun, Ze-Qiang. 2013

[4]Effects of Boron and Paclobutrazol on Growth, Fruit Set, Nutrient Uptake, and Alternate Bearing of Muye Red Bayberry. Meng, Ci-Fu,Jiang, Pei-Kuen,Zhou, Guo-Mo,Xu, Qiu-Fang,Meng, Ci-Fu,Cao, Zhi-Hong,Cao, Zhi-Hong. 2012

[5]Physiological Basis of Improved Performance of Super Rice (Oryza sativa) to Deep Placed Fertilizer with Precision Hill-drilling Machine. Kargbo, M. B.,Pan, Shenggang,Mo, Zhaowen,Tian, Hua,Hossain, Md. Faruque,Ashraf, Umair,Tang, Xiangru,Pan, Shenggang,Mo, Zhaowen,Tian, Hua,Ashraf, Umair,Tang, Xiangru,Kargbo, M. B.,Wang, Zaiman,Luo, Xiwen. 2016

[6]Effects of temperature on the growth and reproduction characteristics of Bemisia tabaci B-biotype and Trialeurodes vaporariorum. Wan, F-H,Chen, Y-H,Wu, G..

[7]Nitrogen-Fixing and Plant Growth-Promoting Ability of Two Endophytic Bacterial Strains Isolated from Sugarcane Stalks. Xing, Yong-Xiu,Wei, Chun-Yan,Mo, Yao,Yang, Li-Tao,Li, Yang-Rui,Xing, Yong-Xiu,Yang, Li-Tao,Huang, Si-Liang,Li, Yang-Rui. 2016

[8]Changes in plant growth and photosynthetic performance of Zizania latifolia exposed to different phosphorus concentrations under hydroponic condition. Yan, N.,Zhang, Y. -L.,Xue, H. -M.,Zhang, X. -H.,Wang, Z. -D.,Shi, L. -Y.,Guo, D. -P.,Yan, N..

[9]Effect of imazapic residues on photosynthetic traits and chlorophyll fluorescence of maize seedlings. Su, W. C.,Sun, L. L.,Wu, R. H.,Ma, Y. H.,Wang, H. L.,Xu, H. L.,Lu, C. T.,Yan, Z. L..

[10]Continuous in vitro cultivation of a recently identified Babesia that infects small ruminants in China. Guan, Guiquan,Ma, Miling,Liu, Aihong,Du, Pengfei,Ren, Qiaoyun,Li, Youquan,Wang, Jinming,Liu, Zhijie,Yin, Hong,Luo, Jianxun. 2012

[11]Gas Chromatography-Mass Spectrometric Analysis of Nematicidal Essential Oil of Valeriana amurensis P Smirn ex Kom (Valerianaceae) Roots and its Activity against Heterodera avenae. Li, Yun Chao,Ji, Hua,Li, Hong Tao. 2015

[12]Isolation of nematicidal constituents from essential oil of Kaempferia galanga L rhizome and their activity against Heterodera avenae Wollenweber. Li, Yun Chao,Ji, Hua,Li, Hong Tao,Li, Yun Chao,Ji, Hua,Li, Hong Tao,Li, Xiu Hua,Zhang, Hai Xin. 2017

[13]Nematicidal activity of Gymnoascus reesii against Meloidogyne incognita. Liu, Jian-Hua,Qiu, Ji-Yan,Jiang, Li-li,Yan, Ji-Ye,Liu, Ting,Liu, Wei-Cheng,Liu, Jian-Hua,Duan, Yu-Xi,Wang, Li. 2011

[14]Isolation and identification of chemical constituents from the bacterium Bacillus sp and their nematicidal activities. Zeng, Liming,Jin, Hui,Yangl, Xiaoyan,Pan, Le,Cui, Haiyan,He, Xiaofeng,Qiul, Hongdeng,Qin, Bo,Zeng, Liming,Jin, Hui,Yangl, Xiaoyan,Pan, Le,Cui, Haiyan,He, Xiaofeng,Qiul, Hongdeng,Qin, Bo,Zeng, Liming,Pan, Le,Cui, Haiyan,Jin, Hui,Lu, Dengxue.

[15]The recombinant serine protease XAoz1 of Arthrobotrys oligospora exhibits potent nematicidal activity against Caenorhabditis elegans and Haemonchus contortus. Wang Junwei,Meng Qingling,Qiao Jun,Wang Weisheng,Chen Shuangqing,Zhao Chunguang,Chen Chuangfu,Luo Jianxun.

[16]GC-MS Analysis of Nematicidal Essential Oil of Mentha canadensis Aerial Parts against Heterodera avenae and Meloidogyne incognita. Ji, Hua,Li, Yun Chao,Wen, Zhi Yu,Li, Hong Tao,Ji, Hua,Li, Yun Chao,Wen, Zhi Yu,Li, Hong Tao,Li, Xiu Hua,Zhang, Hai Xin.

[17]A new nematicidal compound produced by Streptomyces albogriseolus HA10002. Zeng, Qingfei,Huang, Huiqin,Zhu, Jun,Fang, Zhe,Sun, Qianguang,Bao, Shixiang.

[18]Complete genome sequence of Bacillus thuringiensis YC-10, a novel active strain against plant-parasitic nematodes. Song, Zhiqiang,Cheng, Ju'e,Zhang, Deyong,Liu, Yong,Cheng, Feixue,Song, Zhiqiang,Cheng, Ju'e,Zhang, Deyong,Liu, Yong,Wang, Jian.

[19]Mycology, cultivation, traditional uses, phytochemistry and pharmacology of Wolfiporia cocos (Schwein.) Ryvarden et Gilb.: A review. Wang, Yuan-Zhong,Zhang, Ji,Zhao, Yan-Li,Li, Wan-Yi,Li, Tao,Shen, Tao,Li, Jie-Qing,Liu, Hong-Gao.

作者其他论文 更多>>

微信小程序