Authentication email has already been sent, please check your email box: and activate it as soon as possible.
You can login to My Profile and manage your email alerts.
If you haven’t received the email, please:
|
|
There are 2 papers published in subject: > since this site started. |
Results per page: |
Select Subject |
Select/Unselect all | For Selected Papers |
Saved Papers
Please enter a name for this paper to be shown in your personalized Saved Papers list
|
1. NbLRK1, an INF1 interact protein, involve in defense response against Phytophthora infestans. | |||
Shao Fang,Wang Haixia,Tian Zhejuan,Tian Zhendong | |||
Agronomy 04 December 2015 | |||
Show/Hide Abstract | Cite this paper︱Full-text: PDF (0 B) | |||
Abstract:INF1 is an extracellular protein secreted by the oomycete Phytophthora infestans, the causal agent of late blight disease in potato. INF1 triggers a wide range of defense responses in most Nicotiana species. Previous studies have shown that INF1 interact with a B-lectin-like receptor kinase, NbLRK1, suggesting that NbLRK1 is a component of the N. benthamiana protein complex that recognizes INF1 elicitor and transduces the HR signal. In this study, functions of NbLRK1 in late blight resistance and in INF1 mediated HR were further investigated. Our results confirmed that silencing of NbLRK1 delayed INF1-mediated HR in N. benthamiana. Silencing of NbLRK1 in N. benthamiana enhances susceptibility to P. infestans accompanied by reduced deposition of H2O2 response to INF1 induction. The N. benthamiana SERK3/BAK1 protein maybe interact with NbLRK1 at the membrane in planta suggesting INF1, NbLRK1 and NbSERK3/BAK1 form a complex to manipulate PTI in N. benthamiana. | |||
TO cite this article:Shao Fang,Wang Haixia,Tian Zhejuan, et al. NbLRK1, an INF1 interact protein, involve in defense response against Phytophthora infestans.[OL].[ 4 December 2015] http://en.paper.edu.cn/en_releasepaper/content/4668879 |
2. Potato U-BOX E3 ubiquitin ligase StPUB17 positively regulates the basal immunity against Phytophthora infestans | |||
He Qin,Chen Yanlin,Wang Haixia,Tian Zhendong | |||
Agronomy 03 December 2015 | |||
Show/Hide Abstract | Cite this paper︱Full-text: PDF (0 B) | |||
Abstract:The oomycete pathogen Phytophthora infestans is the causal agent of the late blight disease. Previous StPUB17 was showed to be significantly induced by P. infestans, suggesting it might play a role in the immunity against P.infestans. However, the function of StPUB17 in potato disease defense is unknown. Here, Silencing StPUB17 in potato by RNAi leaded to the enhanced P.infestans colonization, while overexpressing StPUB17 in potato resulted in the reduced P.infestans colonization and showed an enhanced resistance correlated with callose and H2O2 accumulation, potentially suggesting that the E3 ubiquitin ligase StPUB17 may be a positive role in the basal immunity against P.infestans. | |||
TO cite this article:He Qin,Chen Yanlin,Wang Haixia, et al. Potato U-BOX E3 ubiquitin ligase StPUB17 positively regulates the basal immunity against Phytophthora infestans[OL].[ 3 December 2015] http://en.paper.edu.cn/en_releasepaper/content/4668778 |
Select/Unselect all | For Selected Papers |
Saved Papers
Please enter a name for this paper to be shown in your personalized Saved Papers list
|
Results per page: |
About Sciencepaper Online | Privacy Policy | Terms & Conditions | Contact Us
© 2003-2012 Sciencepaper Online. unless otherwise stated