R. M. Wallsgrove scite author profile

SUMMARY Many secondary metabolites found in plants have a role in defence against herbivores, pests and pathogens. In this review, a few examples are described and discussed, and some of the problems in determining the precise role(s) of such metabolites highlighted. The role of secondary metabolites in defence may involve deterrence/anti‐feedant activity, toxicity or acting as precursors to physical defence systems. Many specialist herbivores and pathogens do not merely circumvent the deterrent or toxic effects of secondary metabolites but actually utilize these compounds as either host recognition cues or nutrients (or both). This is true of both cyanogenic glucosides and glucosinolates, which art discussed in detail as examples of defensive compounds. Their biochemistry is compared and contrasted. An enormous variety of secondary metabolites are derived from shikimic acid or aromatic amino acids, many of which have important roles in defence mechanisms. Several classes of secondary products are ‘induced’ by infection, wounding or herbivory, and examples of these are given. Genetic variation in the speed and extent of such induction may account, at least in part, for the difference between resistant and susceptible varieties. Both salicylates and jasmonates have been implicated as signals in such responses and in many other physiological processes, though their prescise roles and interactions in signalling and development are not fully understood.

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Photorespiratory nitrogen cycle

Keys¹,

Bird²,

Cornelius³

et al. 1978

Nature

504

249

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Evidence for Autoregulation of Cystathionine γ-Synthase mRNA Stability in Arabidopsis

Chiba

Ishikawa

Kijima

et al. 1999

Science

179

234

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Control of messenger RNA (mRNA) stability serves as an important mechanism for regulating gene expression. Analysis of Arabidopsis mutants that overaccumulate soluble methionine (Met) revealed that the gene for cystathionine gamma-synthase (CGS), the key enzyme in Met biosynthesis, is regulated at the level of mRNA stability. Transfection experiments with wild-type and mutant forms of the CGS gene suggest that an amino acid sequence encoded by the first exon of CGS acts in cis to destabilize its own mRNA in a process that is activated by Met or one of its metabolites.

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Barley Mutants Lacking Chloroplast Glutamine Synthetase—Biochemical and Genetic Analysis

Wallsgrove

Turner²,

Hall³

et al. 1987

Plant Physiol.

343

223

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Ecological Genetics of an Induced Plant Defense Against Herbivores: Additive Genetic Variance and Costs of Phenotypic Plasticity

et al. 2002

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Abstract. Adaptive phenotypic plasticity in chemical defense is thought to play a major role in plant-herbivore interactions. We investigated genetic variation for inducibility of defensive traits in wild radish plants and asked if the evolution of induction is constrained by costs of phenotypic plasticity. In a greenhouse experiment using paternal half-sibling families, we show additive genetic variation for plasticity in glucosinolate concentration. Genetic variation for glucosinolates was not detected in undamaged plants, but was significant following herbivory by a specialist herbivore, Pieris rapae. On average, damaged plants had 55% higher concentrations of glucosinolates compared to controls. In addition, we found significant narrow-sense heritabilities for leaf size, trichome number, flowering phenology, and lifetime fruit production. In a second experiment, we found evidence of genetic variation in induced plant resistance to P. rapae. Although overall there was little evidence for genetic correlations between the defensive and life-history traits we measured, we show that more plastic families had lower fitness than less plastic families in the absence of herbivory (i.e., evidence for genetic costs of plasticity). Thus, there is genetic variation for induction of defense in wild radish, and the evolution of inducibility may be constrained by costs of plasticity.

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R. M. Wallsgrove

Secondary metabolites in plant defence mechanisms

Photorespiratory nitrogen cycle

Evidence for Autoregulation of Cystathionine γ-Synthase mRNA Stability in Arabidopsis

Barley Mutants Lacking Chloroplast Glutamine Synthetase—Biochemical and Genetic Analysis

Ecological Genetics of an Induced Plant Defense Against Herbivores: Additive Genetic Variance and Costs of Phenotypic Plasticity

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