Salicylic Acid Signaling Networks

Salicylic Acid Signaling Networks

The small phenolic compound salicylic acid (SA) is critical for plant defense against a broad spectrum of pathogens. SA is also involved in multi-layered defense responses, from pathogen-associated molecular pattern triggered basal defense, resistance gene-mediated defense, to systemic acquired resi...

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Superior document:Frontiers Research Topics
:
Loreto Holuigue
Jean Toby Greenberg
Hua Lu
Year of Publication:2016
Language:English
Series:Frontiers Research Topics
Physical Description:1 electronic resource (188 p.)
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Salicylic Acid Signaling Networks
Frontiers Media SA 2016
1 electronic resource (188 p.)
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Frontiers Research Topics
The small phenolic compound salicylic acid (SA) is critical for plant defense against a broad spectrum of pathogens. SA is also involved in multi-layered defense responses, from pathogen-associated molecular pattern triggered basal defense, resistance gene-mediated defense, to systemic acquired resistance. Recent decades have witnessed tremendous progress towards our understanding of SA-mediated signaling networks. Many genes have been identified to have direct or indirect effect on SA biosynthesis or to regulate SA accumulation. Several SA receptors have been identified and characterization of these receptors has shed light on the mechanisms of SA-mediated defense signaling, which encompass chromosomal remodeling, DNA repair, epigenetics, to transcriptional reprogramming. Molecules from plant-associated microbes have been identified, which manipulate SA levels and/or SA signaling. SA does not act alone. It engages in crosstalk with other signaling pathways, such as those mediated by other phytohormones, in an agonistic or antagonistic manner, depending on hormones and pathosystems. Besides affecting plant innate immunity, SA has also been implicated in other cellular processes, such as flowering time determination, lipid metabolism, circadian clock control, and abiotic stress responses, possibly contributing to the regulation of plant development. The multifaceted function of SA makes it critically important to further identify genes involved in SA signaling networks, understand their modes of action, and delineate interactions among the components of SA signaling networks. In addition, genetic manipulation of genes involved in SA signaling networks has also provided a promising approach to enhance disease resistance in economically important plants. This ebook collects articles in the Research Topic "Salicylic Acid Signaling Networks". For this collection we solicited reviews, perspectives, and original research articles that highlight recent exciting progress on the understanding of molecular mechanisms underlying SA-mediated defense, SA-crosstalk with other pathways and how microbes impact these events.
English
Circadian clock
systemic acquired resistance
Reactive Oxygen Species
crosstalk
pathogen effector
NPR1
Cellular redox
Lipid Metabolism
flowering
SA receptors
2-88919-827-8
Jean Toby Greenberg auth
Hua Lu auth
language English
format eBook
author Loreto Holuigue
spellingShingle Loreto Holuigue
Salicylic Acid Signaling Networks
Frontiers Research Topics
author_facet Loreto Holuigue
Jean Toby Greenberg
Hua Lu
author_variant l h lh
author2 Jean Toby Greenberg
Hua Lu
author2_variant j t g jtg
h l hl
author_sort Loreto Holuigue
title Salicylic Acid Signaling Networks
title_full Salicylic Acid Signaling Networks
title_fullStr Salicylic Acid Signaling Networks
title_full_unstemmed Salicylic Acid Signaling Networks
title_auth Salicylic Acid Signaling Networks
title_new Salicylic Acid Signaling Networks
title_sort salicylic acid signaling networks
series Frontiers Research Topics
series2 Frontiers Research Topics
publisher Frontiers Media SA
publishDate 2016
physical 1 electronic resource (188 p.)
isbn 2-88919-827-8
illustrated Not Illustrated
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