Switching on plant innate immunity signaling systems : bioengineering and molecular manipulation of PAMP-PIMP-PRR signaling complex /: bioengineering and molecular manipulation of PAMP-PIMP-PRR signaling complex. ([2016])
- Record Type:
- Book
- Title:
- Switching on plant innate immunity signaling systems : bioengineering and molecular manipulation of PAMP-PIMP-PRR signaling complex /: bioengineering and molecular manipulation of PAMP-PIMP-PRR signaling complex. ([2016])
- Main Title:
- Switching on plant innate immunity signaling systems : bioengineering and molecular manipulation of PAMP-PIMP-PRR signaling complex
- Further Information:
- Note: P. Vidhyasekaran.
- Authors:
- Vidhyasekaran, P
- Contents:
- Chapter 1: Introduction; 1.1 Plant Innate Immunity Is a Sleeping Giant to Fight against Pathogens; 1.2 Potential Signals to Switch on Plant Immune System; 1.3 Pathogens Possess Weapons to Switch-Off Plant Immune Systems; 1.4 Bioengineering and Molecular Manipulation Technologies to Switch on the Sleeping Quiescent Plant Immune System to Win the War against Pathogens; 1.5 Switching on Plant Innate Immunity Using PAMP-PIMP-PRR-Transcription Factor Is the Most Potential Biotechnological Approach for Management of Crop Diseases; References. Chapter 2: Role of Plant Immune Signals and Signaling Systems in Plant Pathogenesis2.1 Susceptibility and Disease Resistance Are Two Sides of the Same Coin Modulated by Plant Immune System Signals and Signaling Systems; 2.2 Signals and Signaling Systems Involved in Triggering Immune Responses; 2.2.1 PAMP-PRR Signaling Complex in Triggering Immune Responses; 2.2.2 PAMPs Activate Ca2+ Signaling Systems; 2.2.3 PAMPs Activate G-Protein Signaling; 2.2.4 PAMPs Activate ROS Signaling System; 2.2.5 PAMPs Activate NO Signaling System. 2.2.6 PAMPs Activate Mitogen-Activated Protein Kinase Signaling System2.2.7 PAMPs Activate Salicylic Acid Signaling System; 2.2.8 PAMPs Activate Jasmonate Signaling System; 2.2.9 PAMPs Activate Ethylene Signaling System; 2.2.10 PAMPs Trigger ABA Signaling System; 2.2.11 PAMPs Trigger Expression of Transcription Factors; 2.3 Reduced Activity of PAMPs May Facilitate the Virulent Pathogens to Cause Disease; 2.3.1 PathogenChapter 1: Introduction; 1.1 Plant Innate Immunity Is a Sleeping Giant to Fight against Pathogens; 1.2 Potential Signals to Switch on Plant Immune System; 1.3 Pathogens Possess Weapons to Switch-Off Plant Immune Systems; 1.4 Bioengineering and Molecular Manipulation Technologies to Switch on the Sleeping Quiescent Plant Immune System to Win the War against Pathogens; 1.5 Switching on Plant Innate Immunity Using PAMP-PIMP-PRR-Transcription Factor Is the Most Potential Biotechnological Approach for Management of Crop Diseases; References. Chapter 2: Role of Plant Immune Signals and Signaling Systems in Plant Pathogenesis2.1 Susceptibility and Disease Resistance Are Two Sides of the Same Coin Modulated by Plant Immune System Signals and Signaling Systems; 2.2 Signals and Signaling Systems Involved in Triggering Immune Responses; 2.2.1 PAMP-PRR Signaling Complex in Triggering Immune Responses; 2.2.2 PAMPs Activate Ca2+ Signaling Systems; 2.2.3 PAMPs Activate G-Protein Signaling; 2.2.4 PAMPs Activate ROS Signaling System; 2.2.5 PAMPs Activate NO Signaling System. 2.2.6 PAMPs Activate Mitogen-Activated Protein Kinase Signaling System2.2.7 PAMPs Activate Salicylic Acid Signaling System; 2.2.8 PAMPs Activate Jasmonate Signaling System; 2.2.9 PAMPs Activate Ethylene Signaling System; 2.2.10 PAMPs Trigger ABA Signaling System; 2.2.11 PAMPs Trigger Expression of Transcription Factors; 2.3 Reduced Activity of PAMPs May Facilitate the Virulent Pathogens to Cause Disease; 2.3.1 Pathogen May Modify Its PAMP Structure during Its Pathogenesis to Reduce Its Elicitor Activity. 2.3.2 Virulent Pathogen May Contain Inefficient PAMP and Trigger Subdued Defense Responses Favoring Disease Development2.4 Pathogen-Secreted Effectors Suppress PAMP-Triggered Plant Immune Responses; 2.4.1 Pathogen-Secreted Effector Molecules; 2.4.2 Effectors Suppress PAMP-Triggered Plant Immunity; 2.4.3 Effectors May Disrupt Binding of PAMP with PRR in PAMP-PRR Signaling Complex to Impede PAMP-Triggered Plant Immunity; 2.4.4 Effectors May Promote Ubiquitin-Proteasome-Mediated Degradation of PRRs to Impede PAMP-Triggered Plant Immunity. 2.4.5 Effectors May Target the Kinase Domains of PRR and Inhibit the PRR Receptor Kinase Activity to Block PAMP-Triggered Immunity2.4.6 Effectors May Inhibit Autophosphorylation of PRRs; 2.4.7 Effectors May Bind With the PRR Signal Amplifier BAK1 and Block the Function of PAMP-PRR Signaling Complex; 2.4.8 Effectors May Target the Receptor-Like Cytoplasmic Kinases BIK1 and PBL1; 2.4.9 Effector Suppresses MAPK Signaling to Promote Disease Development; 2.4.10 Effectors May Suppress SA Signaling System to Facilitate Pathogenesis. … (more)
- Publisher Details:
- Cham : Springer
- Publication Date:
- 2016
- Extent:
- 1 online resource
- Subjects:
- 571.7/42
580
Life sciences
Plant cellular signal transduction
Plant immunology
Bioengineering
Botany
NATURE -- Plants -- General
Bioengineering
Botany
Plant cellular signal transduction
Plant immunology
Science -- Life Sciences -- Botany
Botany & plant sciences
Electronic books - Languages:
- English
- ISBNs:
- 9783319261188
3319261185
3319261169
9783319261164 - Related ISBNs:
- 9783319261164
- Notes:
- Note: Includes bibliographical references.
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- Legal Deposit; Only available on premises controlled by the deposit library and to one user at any one time; The Legal Deposit Libraries (Non-Print Works) Regulations (UK).
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- British Library HMNTS - ELD.DS.355290
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