Table of Contents
- Reflections on The Plant Cell Classics
- How Virus Resistance Provided a Mechanistic Foundation for RNA Silencing
- Genomic Balance Plays Out in Evolution
- Auxin-Mediated Cell Cycle Activation during Early Lateral Root Initiation
- Auxin and organogenesis: Initiation of organs and nurturing a scientific spirit
- FLOWERING LOCUS C Isolation and Characterization: Two Papers that Opened Many Doors
- Genes Directing Flower Development in Arabidopsis
- The Discovery of Plant D-type Cyclins
- DREB Duo Defines Distinct Drought and Cold Response Pathways
- RPN10: A Case Study for Ubiquitin-Binding Proteins and More
- Identification of cup-shaped cotyledon: New Ways to Think about Organ Initiation
- Auspicious Beginnings for the Defense Hormone Jasmonate
- LOF and GOF alleles shed light on the molecular basis of phyB signaling in plants
- Flor-iculture: Ellis and Dodds’ Illumination of Gene-for-Gene Biology
- Behind the Screen: How a Simple Seedling Response Helped Unravel Ethylene Signaling in Plants
- Questionomics: Using Big Data to Ask and Answer Big Questions
- Put on Your Sunscreen: The Birth of Arabidopsis Abiotic Stress Genetics
- Reflections on the issue of regulation in molecular and cellular biology
- MicroRNAs in Plants: Key Findings from the Early Years
- Illuminating (White and) Purple Patches
- Dissecting the Biological Functions of ARF and Aux/IAA Genes
- Early Leads to Mechanisms of Plant Cultivar-Specific Disease Resistance
- Reverse-Genetics of IRT1, or How to Catch an Iron Transporter and Pin It Down
- Signal Transduction in Systemic Immunity
- From Ethylene-Auxin Interactions to Auxin Biosynthesis and Signal Integration
- The Emergence of a Mobile Signal for Systemic Acquired Resistance
- Understanding the Molecular Bases of Agronomic Trait Improvement in Rice
- All in the Family: The First Whole-genome Survey of NLR Genes
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The Emergence of a Mobile Signal for Systemic Acquired Resistance
by Hainan Tian and Yuelin Zhang


The Emergence of a Mobile Signal for Systemic Acquired Resistance by Hainan Tian and Yuelin Zhang.pdf
Publication Discussed
- Navarova H, Bernsdorff F, Doring AC, Zeier J. 2012. Pipecolic acid, an endogenous mediator of defense amplification and priming, is a critical regulator of inducible plant immunity. Plant Cell 24: 5123-5141.