Variation in Growth, Colonization of Maize, and Metabolic Parameters of GFP- and DsRed-Labeled Fusarium verticillioides Strains
文献类型: 外文期刊
第一作者: Wu, Lei
作者: Wu, Lei;Wang, Xiaoming;Li, Hongjie;Conner, R. L.;Xu, Rongqi
作者机构:
期刊名称:PHYTOPATHOLOGY ( 影响因子:4.025; 五年影响因子:4.394 )
ISSN:
年卷期:
页码:
收录情况: SCI
摘要: Autofluorescent proteins are frequently applied as visual markers in the labeling of filamentous fungi. Genes gfp and DsRed were transformed into the genome of Fusarium verticillioides via the Agrobacterium tumefaciens-mediated transformation method. The selected transformants displayed a bright green or red fluorescence in all the organelles of the growing fungal mycelia and spores (except for the vacuoles) both in cultures and in the maize (Zea mays) roots they colonized. The results of gene-specific polymerase chain reaction (PCR) analysis and the thermal asymmetrical interlaced (TAIL)-PCR analysis demonstrated that gfp and DsRed were integrated on different chromosomes of the fungus. Reductions in the colony growth on the plates at pH 4.0 and 5.5 was observed for the green fluorescent protein (GFP)-transformant G3 and the DsRed-transformant R4, but transformants G4 and R1 grew as well as the wild-type strain at pH 4.0. The speed of growth of all the transformants was similar to the wild-type strain at pH >= 7. The insertion of gfp and DsRed did not alter the production of extracellular enzymes and fumonisin B by F. verticillioides. The transformants expressing GFP and DsRed proteins were able to colonize maize roots. However, the four transformants examined produced fewer CFU in the root samples than the wild-type strain during a sampling period of 7 to 28 days after inoculation.
分类号: S432.1
- 相关文献
作者其他论文 更多>>
-
Species-specific IL-1β is an inflammatory sensor of Seneca Valley Virus 3C Protease
作者:Huang, Xiangyu;Zhao, Zhenchao;Chai, Lvye;Yan, Ya;Yuan, Ye;Wu, Lei;Li, Minjie;Jiang, Xiaohan;Li, Xin;Huang, Xiangyu;Zhao, Zhenchao;Chai, Lvye;Yan, Ya;Yuan, Ye;Wu, Lei;Li, Minjie;Jiang, Xiaohan;Li, Xin;Zhu, Cheng;Wang, Haiwei;Liu, Zheng;Li, Pingwei
关键词:
-
New vegetable field converted from rice paddy increases net economic benefits at the expense of enhanced carbon and nitrogen footprints
作者:He, Zhilong;Xu, Minggang;Zhang, Wenju;Wu, Lei;He, Zhilong;Zhang, Ying;Hu, Ronggui;Wu, Xian;Tang, Shuirong;Zhang, Ying;He, Zhilong;Wu, Lei
关键词:Newly converted vegetable field; Life cycle assessment; Carbon and nitrogen footprints; Net ecosystem economic benefit
-
Two new species of Begoniaceae from China mainland
作者:Tian, Daike;Wang, Songwei;Li, Xin;Tian, Daike;Wei, Hongjing;Wang, Songwei;Li, Xin;Huang, Cunzhong;Wu, Lei;Chen, Zhilin;Guo, Zhiyou;Gao, Qingmei;Sun, Xiaojun
关键词:WORDS; Begonia ruchengensis; Begonia auritalata; new taxa; taxonomy; flora of China; morphology; conservation
-
A phase-separated protein hub modulates resistance to Fusarium head blight in wheat
作者:He, Yi;Wang, Yuhua;Dong, Yifan;Zhang, Zhengguang;Li, Gang;He, Yi;Wu, Lei;Jiang, Peng;Zhang, Xu;Yang, Xiujuan;Tucker, Matthew R.;Xia, Xiaobo;Jiang, Cong;Ma, Hongxiang;Ma, Wujun;Liu, Cong;Whitford, Ryan
关键词:
-
Molecular characterization of the integrative and conjugative elements harbouring multidrug resistance genes in Glaesserella parasuis
作者:Che, Yongliang;Wua, Renjie;Li, Hongjie;Wang, Longbai;Wu, Xuemin;Chen, Qiuyong;Chen, Rujing;Zhou, Lunjiang;Che, Yongliang;Wang, Longbai;Wu, Xuemin;Chen, Qiuyong;Chen, Rujing;Zhou, Lunjiang
关键词:Glaesserella (Haemophilus) parasuis; Integrative and conjugative element (ICE); Multidrug resistance; ICEHpa1 family; rhs family
-
Large-scale breeding population validating significant loci for the 1000-kernel weight of wheat
作者:Jiang, Peng;Li, Chang;Wu, Lei;He, Yi;Zhang, Peng;Zhang, Xu;Jiang, Peng;Wu, Lei;He, Yi;Zhang, Peng;Zhang, Xu;Cui, Fa;Zhang, Zhaoyang;Ma, Hongxiang;Zhang, Xu;Jiang, Peng;Zhang, Xu
关键词:
-
Effects of pressure in hand kneading and mechanical bionic kneading on dough formation and texture properties
作者:Liu, Qiannan;Li, Kang;Wu, Lei;Liu, Wei;Zhao, Ruixuan;Zhang, Liang;Hu, Honghai;Liu, Qiannan;Zhang, Liang;Hu, Honghai
关键词:Dough; Hand kneading; Mechanical bionic kneading; Gluten network; Protein second structure
