Metabolic Engineering of Plant-derived (E)-ss-farnesene Synthase Genes for a Novel Type of Aphid-resistant Genetically Modified Crop Plants
文献类型: 外文期刊
第一作者: Yu, Xiu-Dao
作者: Yu, Xiu-Dao;Ma, You-Zhi;Xia, Lan-Qin;Pickett, John;Bruce, Toby;Napier, Johnathan;Jones, Huw D.
作者机构:
关键词: Aphids;(E)-ss-farnesene sythase;genetic-modified crops;terpenoid
期刊名称:JOURNAL OF INTEGRATIVE PLANT BIOLOGY ( 影响因子:7.061; 五年影响因子:6.002 )
ISSN: 1672-9072
年卷期: 2012 年 54 卷 5 期
页码:
收录情况: SCI
摘要: Aphids are major agricultural pests that cause significant yield losses of crop plants each year. Excessive dependence on insecticides for long-term aphid control is undesirable because of the development of insecticide resistance, the potential negative effects on non-target organisms and environmental pollution. Transgenic crops engineered for resistance to aphids via a non-toxic mode of action could be an efficient alternative strategy. (E)-beta-Farnesene (E beta F) synthases catalyze the formation of E beta F, which for many pest aphids is the main component of the alarm pheromone involved in the chemical communication within these species. E beta F can also be synthesized by certain plants but is then normally contaminated with inhibitory compounds. Engineering of crop plants capable of synthesizing and emitting E beta F could cause repulsion of aphids and also the attraction of natural enemies that use E beta F as a foraging cue, thus minimizing aphid infestation. In this review, the effects of aphids on host plants, plants defenses against aphid herbivory and the recruitment of natural enemies for aphid control in an agricultural setting are briefly introduced. Furthermore, the plant-derived E beta F synthase genes cloned to date along with their potential roles in generating novel aphid resistance via genetically modified approaches are discussed. [ Lan-Qin Xia (Corresponding author)]
分类号:
- 相关文献
作者其他论文 更多>>
-
Somatic embryogenetic receptor kinase TaSERL2 regulates heat stress tolerance in wheat by influencing TaBZR2 protein stability and transcriptional activity
作者:Hao, Xiang-Yang;Fu, Yi-Han;Xu, Wei-Gang;Hao, Xiang-Yang;Peng, Chao-Jun;Fang, Yu-Hui;Li, Yan;Dong, Hai-Bin;Xu, Wei-Gang;Hao, Xiang-Yang;Yu, Tai-Fei;Xu, Zhao-Shi;Chen, Jun;Ma, You-Zhi;Hao, Xiang-Yang;Peng, Chao-Jun;Fang, Yu-Hui;Li, Yan;Dong, Hai-Bin;Xu, Wei-Gang
关键词:common wheat; TaBZR2; heat stress; interaction identification; signal transduction; negative regulation
-
GmBSK1-GmGSK1-GmBES1.5 regulatory module controls heat tolerance in soybean
作者:Hou, Ze-Hao;Gao, Yuan;Zhao, Meng-Jie;Liu, Ying;Wei, Ji-Tong;Yu, Tai-Fei;Zheng, Lei;Jiao, Yuan-Chen;Yang, Shu-Hui;Hao, Jia-Min;Chen, Jun;Zhou, Yong-Bin;Chen, Ming;Qiu, Lijuan;Ma, You-Zhi;Xu, Zhao-Shi;Zheng, Jia-Cheng;Cui, Xiao-Yu;Li, Zhi-Yong;Ma, You-Zhi;Xu, Zhao-Shi
关键词:Soybean; BR signaling pathway; Heat stress; ROS; Regulation mechanism
-
An ABF5b-HsfA2h/HsfC2a-NCED2b/POD4/HSP26 module integrates multiple signaling pathway to modulate heat stress tolerance in wheat
作者:Wei, Ji-Tong;Zheng, Lei;Ma, Xiao-Jun;Yu, Tai-Fei;Hou, Ze-Hao;Chen, Jun;Zhou, Yong-Bin;Chen, Ming;Jiang, Qi-Yan;Ma, You-Zhi;Xu, Zhao-Shi;Wei, Ji-Tong;Zheng, Wei-Jun;Gao, Xiang;Xu, Zhao-Shi;Liu, Yong-Wei;Cao, Xin-You;Ma, You-Zhi;Xu, Zhao-Shi;Ma, Xiao-Jun
关键词:
Triticum aestivum L; heat shock transcription factor; ABA; signal pathway; regulation mechanism -
TaPPR13, a Pentatricopeptide Repeat Protein Gene Activated by TaBZR2, Confers Drought Stress Tolerance by Enhancing the Antioxidant Defense System and Promoting Retrograde Signaling in Wheat (Triticum aestivum)
作者:Hou, Ze-Hao;Zheng, Lei;Wang, Jing-Yue;Wei, Ji-Tong;Yang, Shu-Hui;Jiao, Yuan-Chen;Cheng, Wen-Jing;Yu, Tai-Fei;Chen, Jun;Zhou, Yong-Bin;Chen, Ming;Li, Li-Hui;Ma, You-Zhi;Xu, Zhao-Shi;Zheng, Wei-Jun;Nie, Xiao-Jun;Zhang, Shuang-Xi;Ma, Xiao-Fei;Ru, Jing-Na;Liu, Yong-Wei;Cao, Xin-You;Li, Li-Hui;Ma, You-Zhi;Xu, Zhao-Shi
关键词:chloroplast; drought tolerance; GWAS; ROS; retrograde signaling
-
Soybean steroids improve crop abiotic stress tolerance and increase yield
作者:Yu, Tai-Fei;Hou, Ze-Hao;Zheng, Lei;Wei, Ji-Tong;Lu, Zhi-Wei;Chen, Jun;Zhou, Yong-Bin;Chen, Ming;Sun, Su-Li;Jiang, Qi-Yan;Jin, Long-Guo;Ma, You-Zhi;Xu, Zhao-Shi;Wang, Hai-Long;Chang, Shi-Yang;Song, Xin-Yuan;Zheng, Wei-Jun;Jiang, Qi-Yan;Ma, You-Zhi;Xu, Zhao-Shi;Xu, Zhao-Shi
关键词:soybean (Glycine max); plant steroid hormone; abiotic stress; regulated mechanism; squalene monooxygenase
-
TaMYB-CC5 gene specifically expressed in root improve tolerance of phosphorus deficiency and drought stress in wheat
作者:Kong, Ya-Nan;Yan, Xue-Chun;Liu, Yuan-Xia;Wang, Xin-Rui;Lan, Jin-Hao;Zheng, Lei;Kong, Ya-Nan;Wang, Xin-Rui;Zhang, Jin-Peng;Wang, Chao;Hou, Ze-Hao;Chen, Jun;Zhou, Yong-Bin;Chen, Ming;Ma, You-Zhi;Xu, Zhao-Shi;Qi, Xue-Li;Cao, Xin-You;Zhang, Shuang-Xi;Liu, Yong-Wei;Zheng, Jia-Cheng;Xu, Zhao-Shi
关键词:MYB-CC transcription factor; Phosphorus deficiency; Drought; Root; ZIFLs genes
-
TaWRKY24 integrates the tryptophan metabolism pathways to participate in defense against Fusarium crown rot in wheat
作者:Xu, Xing;Ma, Jian;Zhang, Zhi-An;Xu, Xing;Yu, Tai-Fei;Wei, Ji-Tong;Zhang, Jin-Peng;Zheng, Lei;Hou, Ze-Hao;Chen, Jun;Zhou, Yong-Bin;Chen, Ming;Li, Li-Hui;Ma, You-Zhi;Xu, Zhao-Shi;Ma, Xiao-Fei;Ji, Hu-Tai;Liu, Yong-Wei;Jiang, Yun-Feng;Li, Li-Hui;Ma, You-Zhi;Xu, Zhao-Shi
关键词:transcriptome and metabolome; molecular mechanism; fusarium crown rot; disease resistance; protein interaction; wheat (
Triticum aestivum L.)
