Cucumber Fusarium wilt resistance induced by intercropping with celery differs from that induced by the cucumber genotype and is related to sulfur-containing allelochemicals
文献类型: 外文期刊
作者: Gao, Xiaomin 1 ; Li, Ke 2 ; Ma, Zhiling 2 ; Zou, Huafen 2 ; Jin, Hui 2 ; Wang, Jugang 1 ;
作者机构: 1.Tongren Univ, Coll Agroforestry Engn & Planning, Tongren 554300, Peoples R China
2.Chinese Acad Trop Agr Sci, South Subtrop Crops Res Inst, Zhanjiang 524091, Peoples R China
3.Minist Agr, Key Lab Trop Fruit Biol, Zhanjiang 524091, Peoples R China
关键词: Fusarium oxysporum; Resista; nce mechanism; Transcriptome; Allelopathic effect; Organosulfur compounds
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: 2020 年 271 卷
页码:
收录情况: SCI
摘要: Fusarium wilt is a serious soil-borne disease for cucumber production; however, intercropping with celery and using resistant cultivars could alleviate this problem. The aims of the study were to verify whether cucumber Fusarium wilt resistance induced by intercropping with celery differs from that induced by the cucumber genotype and whether celery synthesizes organosulfur allelochemicals to inhibit the growth of Fusarium oxysporum f. sp. cucumerinum (Foc). First, biochemical and transcriptome analyses were performed for the roots of two cucumber cultivars during the response to Foc infection in a monoculture system and cucumber/celery intercropping system, and the results indicated that the Fusarium wilt-resistant cucumber cultivar and cucumber intercropped with celery resulted in different immune responses against Foc inoculation. Then, the possible allelochemicals in the fresh root and rhizosphere soil of celery were extracted with acetone, separated and purified by chromatography four times and cocultured with Foc in vitro. Three organosulfur compounds, namely, thioglycolic acid, propanethiol and isopropyl isothiocyanate, were identified from the chromatography fractions, with the highest inhibition on Foc in the fourth chromatography by gas chromatography/mass spectrometry. All these compounds exhibited inhibitory effects on Foc, but thioglycolic acid showed stronger inhibition than the other two compounds and completely inhibited the growth of Foc colonies at concentrations of 50-100 mu mol L-1. The information obtained will permit new management practices that prevent and control cucumber Fusarium wilt.
- 相关文献
作者其他论文 更多>>
-
Soil carbon pool dynamics, microbial community diversity and pineapple (Ananas comosus) productivity response to partial organic substitution strategies: A four-year study
作者:Yan, Chengming;An, Dongsheng;Ma, Haiyang;Zhao, Baoshan;Liu, Yanan;Hu, Xiaowen;Ma, Zhiling
关键词:Pineapple; Organic substitution; Soil carbon pool; Soil quality; Organic fertilizers
-
StWRKY65 stimulates thermotolerance in potato (Solanum tuberosum L.) through antioxidant and photosynthetic modulation
作者:Zhu, Xi;Luo, Junfu;Guan, Nengkang;Zheng, Haifei;Zou, Huafen;Jin, Hui;Chen, Zhuo;Zhang, Yu;Zhu, Xi;Zhang, Yu;Duan, Xiaoqin;Majeed, Yasir;Duan, Xiaoqin;Majeed, Yasir;Luo, Junfu;Guan, Nengkang;Zheng, Haifei
关键词:StWRKY65;
Solanum tuberosum ; heat stress; antioxidant enzymes; photosynthesis -
Functional analysis of CBL-interacting protein kinases 15 (StCIPK15) in response to salt and heat stress in potato (Solanum tuberosum L.)
作者:Zhu, Xi;Duan, Huimin;Li, Wei;Jin, Hui;Chen, Zhuo;Chen, Shu;Tang, Jinghua;Zhang, Yu;Zhu, Xi;Majeed, Yasir;Zhang, Ning;Wang, Kaitong;Dou, Xueting;Si, Huaijun;Majeed, Yasir;Zhang, Ning;Wang, Kaitong;Dou, Xueting;Si, Huaijun
关键词:StCIPK15; Potato; Salt and heat stress; Physiological; Photosynthetic efficiency
-
DlMYB1 positively regulates anthocyanin biosynthesis and contributes to red exocarp coloration in red-skinned longan
作者:Hu, Xiaowen;Liu, Liqin;Shi, Shengyou;Lu, Yiying;Xu, Liangyu;Zhang, Linsi;Zhu, Lifei;Ma, Zhiling;Zhang, Jiaming;Hu, Xiaowen;Shi, Shengyou
关键词:Red-skinned longan; MYB1; Anthocyanin; Transcription factor; Fruit peel
-
StMAPKK1 Enhances Thermotolerance in Potato (Solanum tuberosum L.) by Enhancing Antioxidant Defense and Photosynthetic Efficiency Under Heat Stress
作者:Zhu, Xi;Guan, Nengkang;Luo, Junfu;Zheng, Haifei;Zou, Huafen;Jin, Hui;Chen, Zhuo;Zhang, Yu;Zhu, Xi;Zhang, Yu;Majeed, Yasir;Wang, Kaitong;Duan, Xiaoqin;Majeed, Yasir;Wang, Kaitong;Duan, Xiaoqin;Guan, Nengkang;Luo, Junfu;Zheng, Haifei
关键词:
StMAPKK1 ; thermotolerance;Solanum tuberosum ; antioxidant; photosynthetic efficiency -
Functional analysis of StWRKY75 gene in response to heat stress in potato (Solanum tuberosum L.)
作者:Zhu, Xi;Luo, Junfu;Guan, Nengkang;Zheng, Haifei;Zou, Huafen;Jin, Hui;Chen, Zhuo;Zhang, Yu;Zhu, Xi;Luo, Junfu;Guan, Nengkang;Zheng, Haifei;Zou, Huafen;Jin, Hui;Chen, Zhuo;Zhang, Yu;Zhu, Xi;Zhang, Yu;Duan, Xiaoqin;Majeed, Yasir;Duan, Xiaoqin;Majeed, Yasir;Luo, Junfu;Guan, Nengkang;Zheng, Haifei
关键词:
StWRKY75 ;Solanum tuberosum ; heat stress; transgenic; photosynthetic efficiency -
StMAPKK5 responds to heat stress by regulating potato growth, photosynthesis, and antioxidant defenses
作者:Zhu, Xi;Li, Wei;Jin, Hui;Duan, Huimin;Chen, Zhuo;Chen, Shu;Wang, Qihua;Tang, Jinghua;Zhou, Jiannan;Zhang, Yu;Zhu, Xi;Li, Wei;Jin, Hui;Duan, Huimin;Chen, Zhuo;Chen, Shu;Wang, Qihua;Tang, Jinghua;Zhou, Jiannan;Zhang, Yu;Zhu, Xi;Zhang, Ning;Si, Huaijun;Zhang, Ning;Si, Huaijun
关键词:potato; heat stress; StMAPKK5; transpiration; photosynthesis
