Biosynthesis of salicylic acid in plants

Chen, Zhixiang; Zheng, Zuyu; Huang, Junli; Lai, Zhibing; Fan, Baofang

doi:10.4161/psb.4.6.8392

Cited by 425 publications

(296 citation statements)

References 47 publications

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“…It is possible that the phenyl-propanoid and isochorismate pathways are integrated through a metabolic or regulatory grid in SA biosynthesis. The two routes may respond differently to stress conditions and depend on the plant species investigated [13]. In the present study, although the PAL activity increased in certain wheat lines, these changes can hardly explain the dramatic SA accumulations observed.…”

Section: Discussioncontrasting

confidence: 68%

“…The phenyl-propanoid pathway uses Lphenylalanine, derived from chorismate, and synthesises SA via cinnamate, produced by 4 phenylalanine ammonia lyase (PAL), but chorismate can also be converted into SA via isochorismate catalysed by isochorismate synthases (ICS) [12]. Recent publications suggest that the bulk of SA detected after exposure to biotic or abiotic stress is also synthesized from isochorismate, suggesting that the phenyl-propanoid pathway is only responsible for the synthesis of a small percentage of the SA in these plants [13]. How this endogenous signal molecule is synthesized and regulated in response to abiotic stress in plants, especially in crop plants, therefore remains an open question.…”

Section: Introductionmentioning

confidence: 99%

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Synthesis and role of salicylic acid in wheat varieties with different levels of cadmium tolerance

Kovács

Gondor

Szalai

et al. 2014

Journal of Hazardous Materials

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Wheat genotypes with different endogenous SA contents were investigated, in order to reveal how cadmium influences salicylic acid (SA) synthesis, and to find possible relationships between SA and certain protective compounds (members of the antioxidants and the heavy metal detoxification system) and between the SA content and the level of cadmium tolerance.Cadmium exposure induced SA synthesis, especially in the leaves, and it is suggested that the phenyl-propanoid synthesis pathway is responsible for the accumulation of SA observed after cadmium stress. Cadmium influenced the synthesis and activation of protective compounds to varying extents in wheat genotypes with different levels of tolerance; the roots and leaves also responded differently to cadmium stress. Although a direct relationship was not found between the initial SA levels and the degree of cadmium tolerance, the results suggest that the increase in the root SA level during cadmium stress in the Mv varieties could be related with the enhancement of the internal glutathione cycle, thus inducing the antioxidant and metal detoxification systems, which promote Cd stress tolerance in wheat seedlings. The positive correlation between certain SA-related compounds and protective compounds suggests that SA-related signalling may also play a role in the acclimation to heavy metal stress.

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Section: Discussioncontrasting

confidence: 68%

Section: Introductionmentioning

confidence: 99%

Synthesis and role of salicylic acid in wheat varieties with different levels of cadmium tolerance

Kovács

Gondor

Szalai

et al. 2014

Journal of Hazardous Materials

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“…SA biosynthesis may occur through either the isochorismate synthase (ICS) route or via benzoic acid derived from cinnamate (17). The fast-neutron-generated sid2-2 mutant of Arabidopsis contains an exon deletion in the gene encoding ICS (20) that is implicated in SA biosynthesis (18).…”

Section: Resultsmentioning

confidence: 99%

“…The potential relationship between SA levels and lignin is intriguing because SA is biosynthetically related to lignin (17). Two major routes have been proposed for SA biosynthesis in plants.…”

mentioning

confidence: 99%

Salicylic acid mediates the reduced growth of lignin down-regulated plants

Gallego‐Giraldo

Escamilla‐Treviño

Jackson

et al. 2011

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

162

141

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Down-regulation of the enzyme hydroxycinnamoyl CoA: shikimate hydroxycinnamoyl transferase (HCT) in thale cress ( Arabidopsis thaliana ) and alfalfa ( Medicago sativa ) leads to strongly reduced lignin levels, reduced recalcitrance of cell walls to sugar release, but severe stunting of the plants. Levels of the stress hormone salicylic acid (SA) are inversely proportional to lignin levels and growth in a series of transgenic alfalfa plants in which lignin biosynthesis has been perturbed at different biosynthetic steps. Reduction of SA levels by genetically blocking its formation or causing its removal restores growth in HCT–down-regulated Arabidopsis , although the plants maintain reduced lignin levels. SA-mediated growth inhibition may occur via interference with gibberellic acid signaling or responsiveness. Our data place SA as a central component in growth signaling pathways that either sense flux into the monolignol pathway or respond to secondary cell-wall integrity, and indicate that it is possible to engineer plants with highly reduced cell-wall recalcitrance without negatively impacting growth.

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“…The increase in PR-1 protein suggests that there may be an increase in the level of salicylic acid. Interestingly, there are two different possible routes to salicylic acid production (Chen et al 2009). Salicylic acid is known as a signal molecule for defense against nematodes (Branch et al, 2004).…”

Section: Pathogen Related Protein (Pr) and Transcription Factorsmentioning

confidence: 99%