FaWRKY11 transcription factor positively regulates resistance to Botrytis cinerea in strawberry fruit
文献类型: 外文期刊
第一作者: Wang, Yuanhua
作者: Wang, Yuanhua;Zhang, Geng;Jia, Sizhen;Yan, Zhiming;Wang, Yuanhua;Zhang, Geng;Jia, Sizhen;Yan, Zhiming;Zhao, Fengxia
作者机构:
关键词: Fragaria ananassa; Botrytis cinerea; FaWRKY11; Fruit resistance
期刊名称:SCIENTIA HORTICULTURAE ( 影响因子:3.463; 五年影响因子:3.672 )
ISSN: 0304-4238
年卷期: 2021 年 279 卷
页码:
收录情况: SCI
摘要: Plant WRKY transcriptional factors play an important role in responses to biotic and abiotic stresses and are involved in a wide range of resistance strategies against pathogen attacks. The present study investigated the functional role of FaWRKY11 in the regulation of defense responses to B. cinerea in strawberry fruit (Fragaria ananassa Duch. cv. Benihoppe). As strawberry fruits ripened and developed, FaWRKY11 expression levels gradually decreased and were closely related to the severity of B. cinerea. Transient transformation was conducted to overexpress and silence FaWRKY11 in strawberry fruits, which were later analyzed upon B. cinerea inoculation. The results indicated that 5 days following infestation with B. cinerea, the tissue damage of the fruits with overexpressed FaWRKY11 was significantly alleviated. The disease incidence was significantly lower that of the control. Conversely, the degree of damage suffered by the silenced fruit tissue increased to a certain extent, and the disease incidence was slightly higher than that of the control. The results revealed the positive regulatory function of FaWRKY11 in the resistance of strawberries against B. cinerea. Once the FaWRKY11 gene was overexpressed and silenced, the expression levels of the genes related to B. cinerea of the fruit were regulated to diverse extents. The most significant variations were observed in the expression levels of transcription factors related to disease resistance, and also in genes related to metabolism of phytohormones. Our study inferred that the FaWRKY11 might regulate the resistance of strawberries against B. cinerea through regulating some disease-resistance transcription factors and metabolic genes. Our study demonstrated the regulatory mechanism of FaWRKY11 regarding the defense in strawberries against B. cinerea.
分类号:
- 相关文献
作者其他论文 更多>>
-
FvWRKY50 is an important gene that regulates both vegetative growth and reproductive growth in strawberry
作者:Chen, Yating;Liu, Liping;Feng, Qianqian;Liu, Chuang;Bao, Yujuan;Zhang, Nan;Sun, Ronghui;Yin, Zhaonan;Zhong, Chuanfei;Li, Qian;Li, Bingbing;Zhong, Chuanfei;Wang, Yuanhua;Wang, Yuanhua
关键词:
-
Effect of CaCl2 Treatment on Enzymatic Browning of Fresh-Cut Luffa (Luffa cylindrica)
作者:Feng, Yingna;Wang, Yuanhua;Gao, Shuai;Sun, Pengpeng;Yan, Zhiming;Sun, Ying;Zhu, Qianqian;Feng, Yingna;Wang, Yuanhua;Sun, Pengpeng;Yan, Zhiming;Feng, Cui;Su, Xiaojun
关键词:luffa; calcium chloride; fresh-cut browning; gene expression; ultrastructure; lipid peroxidation
-
A strawberry mitogen-activated protein kinase gene, FaMAPK19, is involved in disease resistance against Botrytis cinerea
作者:Zhang, Geng;Jia, Sizhen;Yan, Zhiming;Wang, Yuanhua;Sun, Yefan;Zhang, Geng;Jia, Sizhen;Yan, Zhiming;Wang, Yuanhua;Zhao, Fengxia
关键词:Fragaria x ananassa; MAPK cascade; Gray mold; Hormone metabolism; Defense response
-
A PSO-XGBoost Model for Estimating Daily Reference Evapotranspiration in the Solar Greenhouse
作者:Yu, Jingxin;Zheng, Wengang;Zhangzhong, Lili;Shan, Feifei;Zhang, Geng;Yu, Jingxin;Xu, Linlin
关键词:Reference evapotranspiration; XGBoost; particle swarm optimization; solar greenhouse
-
Adventitious shoot regeneration from leaves of apple rootstock 'Pingyitiancha' (Malus hupehensis var. pinyiensis) and genetic fidelity of regenerated plantlets using SSR markers
作者:Jin, Wanmei;Wang, Yuanhua;Wang, Hua
关键词:Plant growth regulators;dark;rooting;explant orientation;molecular marker
-
RNA sequencing reveals high resolution expression change of major plant hormone pathway genes after young seedless grape berries treated with gibberellin
作者:Chai, Lijuan;Li, Yanmei;Ma, Huiqin;Chen, Shangwu;Perl, Avihai;Zhao, Fengxia
关键词:Additional berry enlargement;Gibberellin acid treatment;Plant hormone cross talk;Plant hormone gene expression change;RNA sequencing;Seedless grape berry
-
Purification and characterization of ZmRIP1, a novel reductant-inhibited protein tyrosine phosphatase from maize
作者:Li, Bingbing;Zhao, Yanxia;Liang, Liyan;Ren, Huibo;Xing, Yu;Chen, Lin;Sun, Mingzhu;Wang, Yuanhua;Han, Yu;Jia, Haifeng;Jia, Wensuo;Huang, Conglin;Wu, Zhongyi
关键词:
