Dirk Balmer scite author profile

SUMMARYTo obtain further insight into the intricate inter-play between maize (Zea mays) and the fungal pathogen Colletotrichum graminicola, the local and systemic molecular and chemical defence responses of maize leaves and roots were simultaneously investigated and compared. Similar gene expression and hormonal patterns were detected in both above-and below-ground organs; however, roots responded more rapidly and accumulated higher levels of defence-related hormones than leaves. Leaf and root infection with C. graminicola triggered systemic resistance in the foliage against the same fungus. This systemic defence response was associated with systemic transcriptional adaptations, and elevated levels of salicylic acid and abscisic acid. Metabolomic profiling revealed significant differences in the composition of secondary metabolites in leaves and roots, indicating that these organs employ distinct chemical defence systems. In addition, higher basal levels of antimicrobial flavonoids suggest an enhanced basal defensive state of roots. Our findings reveal tissue-specific local and systemic antifungal defence mechanisms in maize.

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Metabolomics of cereals under biotic stress: current knowledge and techniques

Balmer¹,

Flors²,

Glauser³

et al. 2013

Front. Plant Sci.

126

108

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Prone to attacks by pathogens and pests, plants employ intricate chemical defense mechanisms consisting of metabolic adaptations. However, many plant attackers are manipulating the host metabolism to counteract defense responses and to induce favorable nutritional conditions. Advances in analytical chemistry have allowed the generation of extensive metabolic profiles during plant-pathogen and pest interactions. Thereby, metabolic processes were found to be highly specific for given tissues, species, and plant-pathogen/pest interactions. The clusters of identified compounds not only serve as base in the quest of novel defense compounds, but also as markers for the characterization of the plants' defensive state. The latter is especially useful in agronomic applications where meaningful markers are essential for crop protection. Cereals such as maize make use of their metabolic arsenal during both local and systemic defense responses, and the chemical response is highly adapted to specific attackers. Here, we summarize highlights and recent findings of metabolic patterns of cereals under pathogen and pest attack.

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Insect and pathogen attack and resistance in maize and its wild ancestors, the teosintes

et al. 2014

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SummaryMaize (Zea mays ssp. mays) is one of the most important crops worldwide and there are many reports in the literature on its constitutive and inducible defenses against pathogens and insects. However, research on its wild ancestors, the teosintes, with respect to resistance against these antagonists is limited. Here, we review what is known about the different arthropods and microbes that are associated with maize and teosintes in Mexico and Central America, the area of origin, and evaluate the plants' mechanisms of resistance against biotic stresses. Teosintes appear to have greater resistance against a number of pests than their cultivated counterpart. We therefore highlight the need to study the teosintes in order to identify resistance traits that can be improved in maize. As teosintes are at risk of becoming extinct, there is a need to protect their germplasm for future generations.

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Synergies and trade‐offs between insect and pathogen resistance in maize leaves and roots

Erb

Balmer

Lange

et al. 2011

Plant Cell & Environment

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Determining links between plant defence strategies is important to understand plant evolution and to optimize crop breeding strategies. Although several examples of synergies and trade-offs between defence traits are known for plants that are under attack by multiple organisms, few studies have attempted to measure correlations of defensive strategies using specific single attackers. Such links are hard to detect in natural populations because they are inherently confounded by the evolutionary history of different ecotypes. We therefore used a range of 20 maize inbred lines with considerable differences in resistance traits to determine if correlations exist between leaf and root resistance against pathogens and insects. Aboveground resistance against insects was positively correlated with the plant's capacity to produce volatiles in response to insect attack. Resistance to herbivores and resistance to a pathogen, on the other hand, were negatively correlated. Our results also give first insights into the intraspecific variability of root volatiles release in maize and its positive correlation with leaf volatile production. We show that the breeding history of the different genotypes (dent versus flint) has influenced several defensive parameters. Taken together, our study demonstrates the importance of genetically determined synergies and trade-offs for plant resistance against insects and pathogens.

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A dispensable paralog of succinate dehydrogenase subunit C mediates standing resistance towards a subclass of SDHI fungicides in Zymoseptoria tritici

et al. 2019

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Dirk Balmer

Induced resistance in maize is based on organ‐specific defence responses

Metabolomics of cereals under biotic stress: current knowledge and techniques

Insect and pathogen attack and resistance in maize and its wild ancestors, the teosintes

Synergies and trade‐offs between insect and pathogen resistance in maize leaves and roots

A dispensable paralog of succinate dehydrogenase subunit C mediates standing resistance towards a subclass of SDHI fungicides in Zymoseptoria tritici

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