Daniel F. Klessig scite author profile

For more than 200 years, the plant hormone salicylic acid (SA) has been studied for its medicinal use in humans. However, its extensive signaling role in plants, particularly in defense against pathogens, has only become evident during the past 20 years. This review surveys how SA in plants regulates both local disease resistance mechanisms, including host cell death and defense gene expression, and systemic acquired resistance (SAR). Genetic studies reveal an increasingly complex network of proteins required for SA-mediated defense signaling, and this process is amplified by several regulatory feedback loops. The interaction between the SA signaling pathway and those regulated by other plant hormones and/or defense signals is also discussed.

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Defense gene induction in tobacco by nitric oxide, cyclic GMP, and cyclic ADP-ribose

Durner

Wendehenne²,

Klessig³

1998

Proc. Natl. Acad. Sci. U.S.A.

1,187

879

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Arabidopsis MAP Kinase 4 Negatively Regulates Systemic Acquired Resistance

Petersen

Brodersen

Næsted

et al. 2000

Cell

922

789

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Transposon inactivation of Arabidopsis MAP kinase 4 produced the mpk4 mutant exhibiting constitutive systemic acquired resistance (SAR) including elevated salicylic acid (SA) levels, increased resistance to virulent pathogens, and constitutive pathogenesis-related gene expression shown by Northern and microarray hybridizations. MPK4 kinase activity is required to repress SAR, as an inactive MPK4 form failed to complement mpk4. Analysis of mpk4 expressing the SA hydroxylase NahG and of mpk4/npr1 double mutants indicated that SAR expression in mpk4 is dependent upon elevated SA levels but is independent of NPR1. PDF1.2 and THI2.1 gene induction by jasmonate was blocked in mpk4 expressing NahG, suggesting that MPK4 is required for jasmonic acid-responsive gene expression.

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Salicylic Acid: A Likely Endogenous Signal in the Resistance Response of Tobacco to Viral Infection

Malamy

Carr

Klessig

et al. 1990

Science

1,224

740

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Some cultivars of tobacco are resistant to tobacco mosaic virus (TMV) and synthesize pathogenesis-related (PR) proteins upon infection. In a search for the signal or signals that induce resistance or PR genes, it was found that the endogenous salicylic acid levels in resistant, but not susceptible, cultivars increased at least 20-fold in infected leaves and 5-fold in uninfected leaves after TMV inoculation. Induction of PRl genes paralleled the rise in salicylic acid levels. Since earlier work has demonstrated that treatment with exogenous salicylic acid induces PR genes and resistance, these findings suggest that salicylic acid functions as the natural transduction signal.

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Active Oxygen Species in the Induction of Plant Systemic Acquired Resistance by Salicylic Acid

Chen

Silva

Klessig

1993

Science

1,087

653

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A complementary DNA encoding a salicylic acid (SA)-binding protein has been cloned. Its properties suggest involvement in SA-mediated induction of systemic acquired resistance (SAR) in plants. The sequence of the protein is similar to that of catalases and the protein exhibits catalase activity. Salicylic acid specifically inhibited the catalase activity in vitro and induced an increase in H2O2 concentrations in vivo. H2O2 or compounds, such as SA, that inhibit catalases or enhance the generation of H2O2, induced expression of defense-related genes associated with SAR. Thus, the action of SA in SAR is likely mediated by elevated amounts of H2O2.

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Daniel F. Klessig

Salicylic Acid, a Multifaceted Hormone to Combat Disease

Defense gene induction in tobacco by nitric oxide, cyclic GMP, and cyclic ADP-ribose

Arabidopsis MAP Kinase 4 Negatively Regulates Systemic Acquired Resistance

Salicylic Acid: A Likely Endogenous Signal in the Resistance Response of Tobacco to Viral Infection

Active Oxygen Species in the Induction of Plant Systemic Acquired Resistance by Salicylic Acid

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