Breeding for durable resistance against biotrophic fungal pathogens using transgenes from wheat

Camenzind, Marcela; Koller, Teresa; Armbruster, Cygni; Jung, Esther; Brunner, Susanne; Herren, Gerhard; Keller, Beat

doi:10.1007/s11032-024-01451-2

Cited by 3 publications

References 59 publications

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Capitalizing on genebank core collections for rare and novel disease resistance loci to enhance barley resilience

Yuan,

Rembe,

Mascher

et al. 2024

Journal of Experimental Botany

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In the realm of agricultural sustainability, the utilization of plant genetic resources (PGRs) for enhanced disease resistance is paramount. Preservation efforts in genebanks are justified by their potential contributions to future crop improvement. To capitalize on the potential of PGRs, we focused on a barley core collection from the German ex situ genebank, and contrasted it with a European elite collection. The phenotypic assessment included 812 PGRs and 298 elites with a particular emphasis on four disease traits (Puccinia hordei, Blumeria graminis hordei, Ramularia collo-cygni, and Rhynchosporium commune). An integrated genome-wide association study, employing both Bayesian-information and Linkage-disequilibrium Iteratively Nested Keyway (BLINK) and a linear mixed model, was performed to unravel the genetic underpinnings of disease resistance. A total of 932 marker-trait associations were identified and assigned to 49 quantitative trait loci. The accumulation of novel and rare resistance alleles significantly bolstered the overall resistance level in PGRs. Three PGR donors with high counts of novel/rare alleles and exhibited exceptional resistance to leaf rust and powdery mildew were identified, offering promise for targeted pre-breeding goals and enhanced resilience in forthcoming varieties. Our findings underscore the critical contribution of PGRs to strengthening crop resilience and advancing sustainable agricultural practices.

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Capitalizing on genebank core collections for rare and novel disease resistance loci to enhance barley resilience

Yuan,

Rembe,

Mascher

et al. 2024

Journal of Experimental Botany

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Population genomics and molecular epidemiology of wheat powdery mildew in Europe

Jigisha,

Ly,

Minadakis

et al. 2024

Preprint

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Agricultural diseases are a major threat to sustainable food production. Yet, for many pathogens we know exceptionally little about their epidemiological and population dynamics, and this knowledge gap is slowing the development of efficient control strategies. Here we study the population genomics and molecular epidemiology of wheat powdery mildew, a disease caused by the biotrophic fungus Blumeria graminis forma specialis tritici (Bgt). We sampled Bgt for two consecutive years, 2022 and 2023, from 22 countries in Europe and surrounding regions, and compiled a genomic dataset of 415 Bgt isolates. We found one single epidemic unit in the north of Europe, consisting of a highly homogeneous population. Conversely, the south of Europe hosts smaller local populations which are less interconnected. In addition, we show that the population structure can be largely predicted by the prevalent wind patterns. We identified several loci that were under selection in the recent past, including fungicide targets and avirulence genes. Some of these loci are common between populations, while others are not, suggesting different local selective pressures. We reconstructed the evolutionary history of one of these loci, AvrPm17, coding for an effector recognized by the wheat receptor Pm17. We found evidence for a soft sweep on standing genetic variation. Multiple AvrPm17 haplotypes, which can partially escape recognition by Pm17, spread rapidly throughout the continent upon its introduction in the early 2000s. We also identified a new virulent variant, which emerged more recently and can evade Pm17 resistance altogether. Overall, we highlight the potential of genomic surveillance in resolving the evolutionary and epidemiological dynamics of agricultural pathogens, as well as in guiding control strategies.

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Unveiling Methods to Stimulate Plant Resistance against Pathogens

Saberi Riseh,

Gholizadeh Vazvani

2024

Front. Biosci. (Landmark Ed)

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Plant diseases caused by pathogens pose significant threats to agricultural productivity and food security worldwide. The traditional approach of relying on chemical pesticides for disease management has proven to be unsustainable, emphasizing the urgent need for sustainable and environmentally friendly alternatives. One promising strategy is to enhance plant resistance against pathogens through various methods. This review aims to unveil and explore effective methods for stimulating plant resistance, transforming vulnerable plants into vigilant defenders against pathogens. We discuss both conventional and innovative approaches, including genetic engineering, induced systemic resistance (ISR), priming, and the use of natural compounds. Furthermore, we analyze the underlying mechanisms involved in these methods, highlighting their potential advantages and limitations. Through an understanding of these methods, scientists and agronomists can develop novel strategies to combat plant diseases effectively while minimizing the environmental impact. Ultimately, this research offers valuable insights into harnessing the plant’s innate defense mechanisms and paves the way for sustainable disease management practices in agriculture.

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Breeding for durable resistance against biotrophic fungal pathogens using transgenes from wheat

Cited by 3 publications

References 59 publications

Capitalizing on genebank core collections for rare and novel disease resistance loci to enhance barley resilience

Capitalizing on genebank core collections for rare and novel disease resistance loci to enhance barley resilience

Population genomics and molecular epidemiology of wheat powdery mildew in Europe

Unveiling Methods to Stimulate Plant Resistance against Pathogens

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