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Literature DB >> 23870750

Systemic signaling during plant defense.

Abstract

Systemic acquired resistance (SAR) is a type of pathogen-induced broad-spectrum resistance in plants. During SAR, primary infection-induced rapid generation and transportation of mobile signal(s) 'prepare' the rest of the plant for subsequent infections. Several, seemingly unrelated, mobile chemical inducers of SAR have been identified, at least two of which function in a feed-back regulatory loop with a lipid transfer-like protein. Signal(s) perception in the systemic tissues relies on the presence of an intact cuticle, the waxy layer covering all aerial parts of the plant. SAR results in chromatin modifications, which prime systemic tissues for enhanced and rapid signaling derived from salicylic acid, which along with its signaling components is key for SAR induction. This review summarizes recent findings related to SAR signal generation, movement, and perception.

Entities: Chemical Disease

Mesh：

Substances：
Chromatin
Salicylic Acid

Year: 2013 PMID： 23870750 DOI： 10.1016/j.pbi.2013.06.019

Source DB: PubMed Journal: Curr Opin Plant Biol ISSN： 1369-5266 Impact factor: 7.834

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Cited

52 in total

1. Contrasting Roles of the Apoplastic Aspartyl Protease APOPLASTIC, ENHANCED DISEASE SUSCEPTIBILITY1-DEPENDENT1 and LEGUME LECTIN-LIKE PROTEIN1 in Arabidopsis Systemic Acquired Resistance.

Authors: Heiko H Breitenbach; Marion Wenig; Finni Wittek; Lucia Jordá; Ana M Maldonado-Alconada; Hakan Sarioglu; Thomas Colby; Claudia Knappe; Marlies Bichlmeier; Elisabeth Pabst; David Mackey; Jane E Parker; A Corina Vlot
Journal: Plant Physiol Date: 2014-04-22 Impact factor: 8.340

10. Comparative proteomic analysis reveals the role of hydrogen sulfide in the adaptation of the alpine plant Lamiophlomis rotata to altitude gradient in the Northern Tibetan Plateau.

Authors: Lan Ma; Liming Yang; Jingjie Zhao; Jingjing Wei; Xiangxiang Kong; Chuntao Wang; Xiaoming Zhang; Yongping Yang; Xiangyang Hu
Journal: Planta Date: 2014-12-20 Impact factor: 4.116

Systemic signaling during plant defense.

1. Contrasting Roles of the Apoplastic Aspartyl Protease APOPLASTIC, ENHANCED DISEASE SUSCEPTIBILITY1-DEPENDENT1 and LEGUME LECTIN-LIKE PROTEIN1 in Arabidopsis Systemic Acquired Resistance.

Review 2. Associations between phytohormones and cellulose biosynthesis in land plants.

3. Removal of trimethylamine (fishy odor) by C₃ and CAM plants.

4. A novel protein elicitor (SsCut) from Sclerotinia sclerotiorum induces multiple defense responses in plants.

5. ROS, Calcium, and Electric Signals: Key Mediators of Rapid Systemic Signaling in Plants.

Review 6. Trained immunity and host-pathogen interactions.

7. Branch-Localized Induction Promotes Efficacy of Volatile Defences and Herbivore Predation in Trees.

8. Nitric oxide and reactive oxygen species are required for systemic acquired resistance in plants.

9. Role of plasmodesmata and plasmodesmata localizing proteins in systemic immunity.

10. Comparative proteomic analysis reveals the role of hydrogen sulfide in the adaptation of the alpine plant Lamiophlomis rotata to altitude gradient in the Northern Tibetan Plateau.