Biological and physiological response of a tropical parasitoid, Tetrastichus brontispae (Ferriere) following exposure to low temperature

文献类型: 外文期刊

第一作者: Lu, Baoqian

作者: Lu, Baoqian;Jin, Qi-an;Peng, Zhengqiang;Wen, Haibo;Tang, Zhenzheng;Bellis, Glenn A.;Wright, Mark G.;Wan, Jie;Li, Yiqiong

作者机构:

关键词: Tetrastichus brontispae Ferriere;Cold tolerance;Biological performance;Physical response;Transcriptome

期刊名称:BIOCONTROL ( 影响因子:3.571; 五年影响因子:3.243 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Tetrastichus brontispae FerriSre (Hymenoptera: Eulophidae) is an important natural enemy of the coconut leaf beetle Brontispa longissima (Gestro), a serious invasive pest on palm plants. Exposure to low temperature (2 A degrees C) for 4, 24 and 48 h had an adverse effect on biological performance (survival, parasitism rate) of T. brontispae with immature parasitoids (eggs, larvae, and pupae) being more sensitive to low temperature than adults. Exposure to 2 A degrees C for 24 h reduced the water content and increased the concentration of glycerol and trehalose, and activity of superoxidae in T. brontispae adults. Analysis of suppression subtractive hybridization indicated the integrative controlling and transcriptome regulation of the networks in the cold stress response of T. brontispae. Our study suggests that the allocation of energy reserves to either prevent or repair cold-induced damage may consume resources that could otherwise be invested in reproduction and consequently its ability to exert control on B. longissima.

分类号: S476

  • 相关文献

[1]Genome-wide gene expression profiling of introgressed indica rice alleles associated with seedling cold tolerance improvement in a japonica rice background. Zhang, Fan,Huang, Liyu,Wang, Wensheng,Zhao, Xiuqin,Zhu, Linghua,Fu, Binying,Li, Zhikang,Zhang, Fan,Huang, Liyu,Wang, Wensheng,Zhao, Xiuqin,Zhu, Linghua,Fu, Binying,Li, Zhikang,Li, Zhikang. 2012

[2]Biological assessment of Tetrastichus brontispae, a pupal parasitoid of coconut leaf beetle Brontispa longissima. Peng, Zhengqiang,Xu, Chunai,Tang, Chao,Lu, Baoqian,Jin, Qian,Wen, Haibo,Chen, Qing,Peng, Zhengqiang,Xu, Chunai,Tang, Chao,Lu, Baoqian,Jin, Qian,Wen, Haibo,Chen, Qing,Peng, Zhengqiang,Xu, Chunai,Tang, Chao,Lu, Baoqian,Jin, Qian,Wen, Haibo,Wan, Fanghao. 2010

[3]A collection of 10,096 indica rice full-length cDNAs reveals highly expressed sequence divergence between Oryza sativa indica and japonica subspecies. Liu, Xiaohui,Lu, Tingting,Yu, Shuliang,Li, Ying,Huang, Yuchen,Huang, Tao,Zhang, Lei,Zhu, Jingjie,Zhao, Qiang,Fan, Danlin,Mu, Jie,Shangguan, Yingying,Feng, Qi,Guan, Jianping,Ying, Kai,Zhang, Yu,Lin, Zhixin,Sun, Zongxiu,Qian, Qian,Lu, Yuping,Han, Bin.

[4]Characterization and identification of cold tolerant near-isogenic lines in rice. Zhou, Lei,Hu, Guanglong,Pan, Yinghua,Zhang, Hongliang,Li, Jinjie,Li, Zichao,Zhou, Lei,Hu, Guanglong,Pan, Yinghua,Zhang, Hongliang,Li, Jinjie,Li, Zichao,Zeng, Yawen,Yang, Shuming,Zhou, Lei,You, Aiqing,Hu, Guanglong. 2012

[5]Knock out of the annexin gene OsAnn3 via CRISPR/Cas9-mediated genome editing decreased cold tolerance in rice. Tang, Ning,Cao, Mengliang,Shen, Chunxiu,Que, Zhiqun,Cao, Mengliang,Li, Ding,He, Ronghua. 2017

[6]Seasonal changes in cold hardiness of Ophraella communa. Guo, Jian-Ying,Li, Min,Wan, Fang-Hao,Li, Min,Ai, Hong-Mu. 2011

[7]Large-scale evaluation of pea (Pisum sativum L.) germplasm for cold tolerance in the field during winter in Qingdao. Zhang, Xiaoyan,Wan, Shuwei,Hao, Junjie,Yang, Tao,Zong, Xuxiao,Hu, Jinguo. 2016

[8]Selection of cold tolerant somaclonal variant from Citrus sinensis cv. Jincheng and genetic stability evaluation of its cold tolerance. Lin, DB,Yan, QS,Shen, DX. 1999

[9]Genetic parameters for cold tolerance and body weight of Chinese fleshy prawn, Fenneropenaeus chinensis. Li Wenjia,Luan Sheng,Luo Kun,Sui Juan,Lu Xia,Wang Qingyin,Kong Jie,Li Wenjia,Luan Sheng,Luo Kun,Sui Juan,Lu Xia,Wang Qingyin,Kong Jie. 2016

[10]A novel functional gene associated with cold tolerance at the seedling stage in rice. Zhao, Junliang,Zhang, Shaohong,Dong, Jingfang,Yang, Tifeng,Mao, Xingxue,Liu, Qing,Wang, Xiaofei,Liu, Bin,Zhao, Junliang,Zhang, Shaohong,Dong, Jingfang,Yang, Tifeng,Mao, Xingxue,Liu, Qing,Wang, Xiaofei,Liu, Bin. 2017

[11]Comparative transcriptomics analysis reveals difference of key gene expression between banana and plantain in response to cold stress. Yang, Qiao-Song,Gao, Jie,He, Wei-Di,Dou, Tong-Xin,Ding, Li-Jie,Wu, Jun-Hua,Li, Chun-Yu,Yi, Gan-Jun,Yang, Qiao-Song,Gao, Jie,He, Wei-Di,Dou, Tong-Xin,Ding, Li-Jie,Wu, Jun-Hua,Li, Chun-Yu,Yi, Gan-Jun,Gao, Jie,Dou, Tong-Xin,Ding, Li-Jie,Wu, Jun-Hua,Peng, Xin-Xiang,He, Wei-Di,Zhang, Sheng. 2015

[12]Rapid mapping of candidate genes for cold tolerance in Oryza rufipogon Griff. by QTL-seq of seedlings. Luo Xiang-dong,Liu Jian,Zhao Jun,Dai Liang-fang,Chen Ya-ling,Zhang Ling,Zhang Fan-tao,Xie Jian-kun,Hu Biao-lin. 2018

[13]Identification of QTLs for cold tolerance at seedling stage in rice (Oryza sativa L.) using two distinct methods of cold treatment. Zhang, Shaohong,Liu, Bin,Zhao, Junliang,Wang, Xiaofei,Yang, Tifeng,Huang, Zhanghui,Zheng, Jingsheng,Peng, Shaobing,Leung, Hei. 2014

[14]Differentially gene expression in the brain of common carp (Cyprinus carpio) response to cold acclimation. Liang, Liqun,Li, Shaowu,Chang, Yumei,Li, Yong,Sun, Xiaowen,Liang, Liqun,Lei, Qingquan,Li, Shaowu. 2008

[15]A genetic linkage map of common carp (Cyprinus carpio L.) And mapping of a locus associated with cold tolerance. Sun, XW,Liang, LQ. 2004

[16]Screening and identification of microsatellite markers associated with cold tolerance in Nile tilapia Oreochromis niloticus. Zhu, H. P.,Liu, Z. G.,Lu, M. X.,Gao, F. Y.,Ke, X. L.,Huang, Z. H.. 2015

[17]Over-expression of ThpI from Choristoneura fumiferana enhances tolerance to cold in Arabidopsis. Zhu, Bo,Xiong, Ai-Sheng,Peng, Ri-He,Jin, Xiao-Fen,Yao, Quan-Hong,Zhu, Bo,Xu, Jing,Meng, Xiu-Rong.

[18]Rapid Cold Hardening and Expression of Heat Shock Protein Genes in the B-Biotype Bemisia tabaci. Lei, Zhongren,Li, Xue,Oetting, Ronald D..

[19]Host diapause status and host diets augmented with cryoprotectants enhance cold hardiness in the parasitoid Nasonia vitripennis. Li, Yuyan,Zhang, Lisheng,Chen, Hongyin,Li, Yuyan,Zhang, Lisheng,Chen, Hongyin,Li, Yuyan,Zhang, Qirui,Denlinger, David L.,Li, Yuyan,Zhang, Qirui,Denlinger, David L.,Li, Yuyan,Zhang, Qirui,Denlinger, David L..

[20]MpMYBS3 as a crucial transcription factor of cold signaling confers the cold tolerance of banana. Dou, Tong-xin,Sun, Xiao-xuan,Wu, Jun-hua,Ding, Li-jie,Gao, Jie,Yang, Qiao-song,Yi, Gan-jun,Dou, Tong-xin,Hu, Chun-hua,Sun, Xiao-xuan,Shao, Xiu-hong,Wu, Jun-hua,Ding, Li-jie,Gao, Jie,He, Wei-di,Biswas, Manosh-Kumar,Yang, Qiao-song,Yi, Gan-jun,Dou, Tong-xin,Hu, Chun-hua,Sun, Xiao-xuan,Shao, Xiu-hong,Wu, Jun-hua,Ding, Li-jie,Gao, Jie,He, Wei-di,Biswas, Manosh-Kumar,Yang, Qiao-song,Yi, Gan-jun,Dou, Tong-xin,Hu, Chun-hua,Sun, Xiao-xuan,Shao, Xiu-hong,Wu, Jun-hua,Ding, Li-jie,Gao, Jie,He, Wei-di,Biswas, Manosh-Kumar,Yang, Qiao-song,Yi, Gan-jun,Shao, Xiu-hong,He, Wei-di.

作者其他论文 更多>>

微信小程序