Defense-Related Gene Expression Following an Orthotospovirus Infection Is Influenced by Host Resistance in Arachis hypogaea

被引:5
作者
Catto, Michael A. [1 ]
Shrestha, Anita [2 ]
Abney, Mark R. [2 ]
Champagne, Donald E. [1 ]
Culbreath, Albert K. [3 ]
Leal-Bertioli, Soraya C. M. [4 ]
Hunt, Brendan G. [5 ]
Srinivasan, Rajagopalbabu [5 ]
机构
[1] Univ Georgia, Dept Entomol, Athens, GA 30606 USA
[2] Univ Georgia, Dept Entomol, Tifton, GA 31793 USA
[3] Univ Georgia, Dept Plant Pathol, Tifton, GA 31793 USA
[4] Univ Georgia, Dept Plant Pathol, Athens, GA 30602 USA
[5] Univ Georgia, Dept Entomol, Griffin, GA 30223 USA
来源
VIRUSES-BASEL | 2021年 / 13卷 / 07期
关键词
tomato spotted wilt orthotospovirus; field-resistant peanut cultivars; Sunoleic; 97R; Tifguard; differential gene expression; TOMATO-SPOTTED-WILT; TOBACCO-MOSAIC-VIRUS; TRANSCRIPTION FACTORS; PLANT-RESISTANCE; PEANUT; PROTEIN; GENOME; ANNOTATION; TOSPOVIRUS; RESPONSES;
D O I
10.3390/v13071303
中图分类号
Q93 [微生物学];
学科分类号
071005 ; 100705 ;
摘要
Planting resistant cultivars is the most effective tactic to manage the thrips-transmitted tomato spotted wilt orthotospovirus (TSWV) in peanut plants. However, molecular mechanisms conferring resistance to TSWV in resistant cultivars are unknown. In this study, transcriptomes of TSWV-susceptible (SunOleic 97R) and field-resistant (Tifguard) peanut cultivars with and without TSWV infection were assembled and differentially expressed genes (DEGs) were compared. There were 4605 and 2579 significant DEGs in SunOleic 97R and Tifguard, respectively. Despite the lower number of DEGs in Tifguard, an increased proportion of defense-related genes were upregulated in Tifguard than in the susceptible cultivar. Examples included disease resistance (R) proteins, leucine-rich repeats, stilbene synthase, dicer, and calmodulin. Pathway analysis revealed the increased downregulation of genes associated with defense and photosynthesis in the susceptible cultivar rather than in the resistant cultivar. These results suggest that essential physiological functions were less perturbed in the resistant cultivar than in the susceptible cultivar and that the defense response following TSWV infection was more robust in the resistant cultivar than in the susceptible cultivar.
引用
收藏
页数:17
相关论文
共 97 条
  • [91] WEGO 2.0: a web tool for analyzing and plotting GO annotations, 2018 update
    Ye, Jia
    Zhang, Yong
    Cui, Huihai
    Liu, Jiawei
    Wu, Yuqing
    Cheng, Yun
    Xu, Huixing
    Huang, Xingxin
    Li, Shengting
    Zhou, An
    Zhang, Xiuqing
    Bolund, Lars
    Chen, Qiang
    Wang, Jian
    Yang, Huanming
    Fang, Lin
    Shi, Chunmei
    [J]. NUCLEIC ACIDS RESEARCH, 2018, 46 (W1) : W71 - W75
  • [92] A stilbene synthase gene (SbSTS1) is involved in host and nonhost defense responses in Sorghum
    Yu, CKY
    Springob, K
    Schmidt, JR
    Nicholson, RL
    Chu, IK
    Yip, WK
    Lo, C
    [J]. PLANT PHYSIOLOGY, 2005, 138 (01) : 393 - 401
  • [93] Frequent Gain and Loss of Resistance against Tobacco Mosaic Virus in Nicotiana Species
    Yuan, Xinjie
    Yan, Chenghuan
    Wu, Zhujun
    Ren, Feihong
    Zhang, Hui
    Baker, Barbara
    Chen, Jiongjiong
    Kuang, Hanhui
    [J]. MOLECULAR PLANT, 2015, 8 (12) : 1813 - 1815
  • [94] Involvement of calmodulin and calmodulin-like proteins in plant responses to abiotic stresses
    Zeng, Houqing
    Xu, Luqin
    Singh, Amarjeet
    Wang, Huizhong
    Du, Liqun
    Poovaiah, B. W.
    [J]. FRONTIERS IN PLANT SCIENCE, 2015, 6
  • [95] Plant Immunity Triggered by Microbial Molecular Signatures
    Zhang, Jie
    Zhou, Jian-Min
    [J]. MOLECULAR PLANT, 2010, 3 (05) : 783 - 793
  • [96] Refining a major QTL controlling spotted wilt disease resistance in cultivated peanut (Arachis hypogaea L.) and evaluating its contribution to the resistance variations in peanut
    Zhao, Zifan
    Tseng, Yu-Chien
    Peng, Ze
    Lopez, Yolanda
    Chen, Charles Y.
    Tillman, Barry L.
    Phat Dang
    Wang, Jianping
    [J]. BMC GENETICS, 2018, 19
  • [97] The genome of cultivated peanut provides insight into legume karyotypes, polyploid evolution and crop domestication
    Zhuang, Weijian
    Chen, Hua
    Yang, Meng
    Wang, Jianping
    Pandey, Manish K.
    Zhang, Chong
    Chang, Wen-Chi
    Zhang, Liangsheng
    Zhang, Xingtan
    Tang, Ronghua
    Garg, Vanika
    Wang, Xingjun
    Tang, Haibao
    Chow, Chi-Nga
    Wang, Jinpeng
    Deng, Ye
    Wang, Depeng
    Khan, Aamir W.
    Yang, Qiang
    Cai, Tiecheng
    Bajaj, Prasad
    Wu, Kangcheng
    Guo, Baozhu
    Zhang, Xinyou
    Li, Jingjing
    Liang, Fan
    Hu, Jiang
    Liao, Boshou
    Liu, Shengyi
    Chitikineni, Annapurna
    Yan, Hansong
    Zheng, Yixiong
    Shan, Shihua
    Liu, Qinzheng
    Xie, Dongyang
    Wang, Zhenyi
    Khan, Shahid Ali
    Ali, Niaz
    Zhao, Chuanzhi
    Li, Xinguo
    Luo, Ziliang
    Zhang, Shubiao
    Zhuang, Ruirong
    Peng, Ze
    Wang, Shuaiyin
    Mamadou, Gandeka
    Zhuang, Yuhui
    Zhao, Zifan
    Yu, Weichang
    Xiong, Faqian
    [J]. NATURE GENETICS, 2019, 51 (05) : 865 - +
12345678910