Bethany Huot, Jian Yao, Beronda L. Montgomery, Sheng Yang He

Slides:

Advertisements

Similar presentations

Prepare a 10’talk for Friday Feb 27 on plant defense responses or describe interactions between plants & pathogens or symbionts Plant defense responses.

Advertisements

Phytochrome: regulation of

Growth regulators Auxins Cytokinins Gibberellins Abscisic Acid

Growth regulators Auxins Cytokinins Gibberellins Abscisic Acid

Growth regulators Auxins Cytokinins Gibberellins Abscisic acid

Growth regulators Auxins Cytokinins Gibberellins Abscisic Acid

Growth regulators Auxins Cytokinins Gibberellins Abscisic acid

Growth regulators Auxins Cytokinins Gibberellins Abscisic Acid

Chapter 14 Physiology – Hormones, signals, growth and development

Information Integration and Communication in Plant Growth Regulation

Volume 22, Issue 18, Pages (September 2012)

MYC2: The Master in Action

Emerging Players in the Nitrate Signaling Pathway

Shogo Ito, Young Hun Song, Takato Imaizumi Molecular Plant

Takayuki Tohge, Alisdair R. Fernie Molecular Plant

Plant hormones: Dissecting the gibberellin response pathway

Plant Hormones and Signaling: Common Themes and New Developments

Volume 5, Issue 1, Pages (January 2012)

To Bring Flowers or Do a Runner: Gibberellins Make the Decision

Live and Let Die: The Core Circadian Oscillator Coordinates Plant Life History and Pilots Leaf Senescence Ulrike Zentgraf, Jasmin Doll, Lena Riester

Two Faces of One Seed: Hormonal Regulation of Dormancy and Germination

Expanding Roles of PIFs in Signal Integration from Multiple Processes

Plant Pathogens Trick Guard Cells into Opening the Gates

Plant Stomata Function in Innate Immunity against Bacterial Invasion

Growth Hormones Syed Abdullah Gilani.

Crystal Structure of Tetrameric Arabidopsis MYC2 Reveals the Mechanism of Enhanced Interaction with DNA Teng-fei Lian, Yong-ping Xu, Lan-fen Li, Xiao-Dong.

Double Repression in Jasmonate-Mediated Plant Defense

Volume 21, Issue 9, Pages R338-R345 (May 2011)

Feng Yu, Wang Tian, Sheng Luan Molecular Plant

Herbivore-associated elicitors: FAC signaling and metabolism

Phytochromes: Where to Start?

Pin-Pointing a New DAP Kinase Function: The Peptidyl-Proly Isomerase Pin1 Is Negatively Regulated by DAP Kinase-Mediated Phosphorylation Shani Bialik,

Volume 7, Issue 5, Pages (May 2014)

Dominique Arnaud, Ildoo Hwang Molecular Plant

The Bare Lymphocyte Syndrome: Molecular Clues to the Transcriptional Regulation of Major Histocompatibility Complex Class II Genes Angela DeSandro, Uma.

Volume 9, Issue 9, Pages (September 2016)

Volume 89, Issue 7, Pages (June 1997)

Peng-Bo Xu, Hong-Li Lian, Wen-Xiu Wang, Feng Xu, Hong-Quan Yang

Volume 22, Issue 18, Pages (September 2012)

Systemin/Jasmonate-Mediated Systemic Defense Signaling in Tomato

To Bloom or Not to Bloom: Role of MicroRNAs in Plant Flowering

Volume 109, Issue 2, Pages (April 2002)

Volume 10, Issue 2, Pages (February 2017)

Brassinosteroids Regulate Root Growth, Development, and Symbiosis

Epigenetic Modifications and Plant Hormone Action

Help needed for Chester Street Elementary School's STEAM Day

Volume 11, Issue 4, Pages (April 2018)

Stem Cells: A Plant Biology Perspective

MYB34, MYB51, and MYB122 Distinctly Regulate Indolic Glucosinolate Biosynthesis in Arabidopsis thaliana Frerigmann Henning , Gigolashvili Tamara Molecular.

Transcriptional Regulation of Pattern-Triggered Immunity in Plants

Jeffrey Caplan, Meenu Padmanabhan, Savithramma P. Dinesh-Kumar

Alexander Kiani, Anjana Rao, Jose Aramburu Immunity

Volume 44, Issue 4, Pages (February 2018)

Crosstalk in Cellular Signaling: Background Noise or the Real Thing?

Interaction of Heterotrimeric G-Protein Components with Receptor-like Kinases in Plants: An Alternative to the Established Signaling Paradigm? Swarup.

Volume 12, Issue 3, Pages (March 2019)

Roles of Defense Hormones in the Regulation of Ozone-Induced Changes in Gene Expression and Cell Death Enjun Xu, Lauri Vaahtera, Mikael Brosché Molecular.

Volume 26, Issue 24, Pages (December 2016)

Recent Insights into Brassinosteroid Signaling in Plants: Its Dual Control of Plant Immunity and Stomatal Development Xiangpei Kong, Jiaowen Pan, Guohua.

Yang Cang-Jin , Zhang Chi , Lu Yang-Ning , Jin Jia-Qi , Wang Xue-Lu

DELLA Proteins Promote Anthocyanin Biosynthesis via Sequestering MYBL2 and JAZ Suppressors of the MYB/bHLH/WD40 Complex in Arabidopsis thaliana Ye Xie,

Stephen T. Chisholm, Gitta Coaker, Brad Day, Brian J. Staskawicz Cell

Roles of Plant Hormones and Their Interplay in Rice Immunity

Phytochromes and Phytohormones: The Shrinking Degree of Separation

Lucie Camut, Jean-Michel Davière, Patrick Achard Molecular Plant

Volume 2, Issue 5, Pages (September 2009)

Comprehensive Transcriptome Analysis of Auxin Responses in Arabidopsis

Volume 11, Issue 7, Pages (July 2018)

Regulation of Shoot and Root Development through Mutual Signaling

The Tangled Web of Signaling in Innate Immunity

Presentation transcript:

Growth–Defense Tradeoffs in Plants: A Balancing Act to Optimize Fitness Bethany Huot, Jian Yao, Beronda L. Montgomery, Sheng Yang He Molecular Plant Volume 7, Issue 8, Pages 1267-1287 (August 2014) DOI: 10.1093/mp/ssu049 Copyright © 2014 The Authors. All rights reserved. Terms and Conditions

Figure 1 A diagram depicting the concept of growth-defense tradeoffs. Plants use photosynthesis to convert light energy into chemical energy in the form of carbohydrates. These resources are then allocated towards growth or defense, depending on the presence or absence of specific stresses. This process is facilitated by hormone crosstalk and is referred to as the growth–defense tradeoff. BR, brassinosteroid; GA, gibberellin; PTI, pathogen-associated-molecular-pattern-triggered immunity; SA, salicylic acid; JA, jasmonates. Molecular Plant 2014 7, 1267-1287DOI: (10.1093/mp/ssu049) Copyright © 2014 The Authors. All rights reserved. Terms and Conditions

Figure 2 Known Signaling Contributing to Growth–Defense Tradeoffs between PTI-Mediated Defense and Auxin-, Brassinosteroid (BR)-, and Gibberellin (GA)-Mediated Growth. Black arrows and red, blunted lines represent positive and negative regulation, respectively. Double helices with arrows represent global transcriptional reprogramming, and gray lines with dots at both ends indicate protein–protein interactions. Solid lines indicate a known connection between two components, whereas dashed lines indicate unknown connections or missing steps between two components. The solid blue line with an arrow represents expression of TIR1/AFB genes, the transcripts of which are targeted by miR393. FLS2, FLAGELLIN SENSING 2; ROS, reactive oxygen species; WRKY, WRKY DNA-BINDING PROTEIN; miR393, microRNA 393; TIR1, TRANSPORT INHIBITOR RESPONSE 1; AFB, AUXIN SIGNALING F-BOX; AUX/IAA, AUXIN-INDUCIBLE/INDOLE-3-ACETIC ACID INDUCIBLE; ARF, AUXIN RESPONSE FACTOR; BAK1, BRI1-ASSOCIATED RECEPTOR KINASE 1; BRI1, BRASSINOSTEROID INSENSITIVE 1; BSU1, BRI1 SUPPRESSOR 1; BIN2, BRASSINOSTEROID INSENSITIVE 2; BES1, BRI1-EMS-SUPPRESSOR 1; BZR1, BRASSINAZOLE-RESISTANT 1; SLY1, SLEEPY 1; GID1, GA INSENSITIVE DWARF 1A; DELLA, repressor protein; PIF, PHYTOCHROME INTERACTING FACTOR. Molecular Plant 2014 7, 1267-1287DOI: (10.1093/mp/ssu049) Copyright © 2014 The Authors. All rights reserved. Terms and Conditions

Figure 3 Known Signaling Contributing to Growth–Defense Tradeoffs between Salicylic Acid (SA)-Mediated Defense and Auxin-, Brassinosteroid (BR)-, and Gibberellin (GA)-Mediated Growth. As in Figure 2, black arrows and red, blunted lines represent positive and negative regulation, respectively. Double helices with arrows represent global transcriptional reprogramming, and solid lines associated with arrows represent expression of TIR1/AFB and GH3.5 genes. Solid lines indicate a known connection between two components, whereas dashed lines indicate unknown connections or missing steps in between two components. NPR1, NONEXPRESSOR OF PR GENES 1; TGA, TGACG SEQUENCE-SPECIFIC BINDING PROTEIN; PR, PATHOGENESIS RELATED; IAA, INDOLE-3-ACETIC ACID; Asp, aspartate; TIR1, TRANSPORT INHIBITOR RESPONSE 1; AFB, AUXIN SIGNALING F-BOX; AUX/IAA, AUXIN-INDUCIBLE/IAA INDUCIBLE; ARF, AUXIN RESPONSE FACTOR. Molecular Plant 2014 7, 1267-1287DOI: (10.1093/mp/ssu049) Copyright © 2014 The Authors. All rights reserved. Terms and Conditions

Figure 4 Known Signaling Contributing to Growth–Defense Tradeoffs between Jasmonate (JA)-Mediated Defense and Auxin-, Brassinosteroid (BR)-, and Gibberellin (GA)-Mediated Growth. As in Figures 2 and 3, black arrows and red, blunted lines represent positive and negative regulation, respectively. Double helices with arrows represent global transcriptional reprogramming, and solid lines with arrows represent expression of JAZ and PLT genes. Solid lines indicate a known connection between two components, whereas dashed lines indicate unknown connections or missing steps in between two components. COI1, CORONATINE INSENSITIVE 1; JAZ, JASMONATE ZIM DOMAIN; MYC, transcription factor; SLY1, SLEEPY 1; GID1, GA INSENSITIVE DWARF 1A; DELLA, repressor protein; PIF, PHYTOCHROME INTERACTING FACTOR; PLT, PLETHORA. Molecular Plant 2014 7, 1267-1287DOI: (10.1093/mp/ssu049) Copyright © 2014 The Authors. All rights reserved. Terms and Conditions