Add to ORKGRapid (co-)evolution at multiple timescales is a hallmark of plant-microbe interactions. The mechanistic basis for the rapid evolution largely rests on the features of the genomes of the interacting partners involved. Here, we review recent insights into genomic characteristics and mechanisms that enable rapid evolution of both plants and phytopathogens. These comprise fresh insights in allelic series of matching pairs of resistance and avirulence genes, the generation of novel pathogen effectors, the recently recognised small RNA warfare, and genomic aspects of secondary metabolite biosynthesis. In addition, we discuss the putative contributions of permissive host environments, transcriptional plasticity and the role of ploidy on the inter...
autre Projet Européen : 3334036, SEPARATE Identification of Sclerotinia sclerotiorum Effector Protei...
Many species of fungi and oomycetes are plant pathogens of great economic importance. Over the past ...
BGPI : équipe 4 Interactions Céréales Agents Pathogènes (ICAP)International audienceDespite the impo...
Rapid (co-)evolution at multiple timescales is a hallmark of plant-microbe interactions. The mechani...
Summary Access to greater genomic resolution through new sequencing technologies is transforming the...
The interaction of pathogens with their hosts creates strong reciprocal selection pressures. Pathoge...
Many pathogen recognition genes, such as plant R-genes, undergo rapid adaptive evolution, providing ...
Abstract. The analysis of plant–pathogen interactions is a rapidly moving research field and one tha...
Phytopathogens are a global threat to plant agriculture and biodiversity. The genomics era has lead ...
The genomic perspective aids in integrating the analysis of single resistance (R-) genes into a high...
International audienceIdentifying the genes underlying adaptation, their distribution in genomes and...
International audienceDuring 450 million years of diversification on land, plants and microbes have ...
Bacterial pathogens continue to pose a major threat to economically important plant resources. Disea...
Understanding the interactions of co-occurring species within and across trophic levels provides key...
Interaction between plants and their pathogens is complex, involving multifaceted recognition of pat...
autre Projet Européen : 3334036, SEPARATE Identification of Sclerotinia sclerotiorum Effector Protei...
Many species of fungi and oomycetes are plant pathogens of great economic importance. Over the past ...
BGPI : équipe 4 Interactions Céréales Agents Pathogènes (ICAP)International audienceDespite the impo...
Rapid (co-)evolution at multiple timescales is a hallmark of plant-microbe interactions. The mechani...
Summary Access to greater genomic resolution through new sequencing technologies is transforming the...
The interaction of pathogens with their hosts creates strong reciprocal selection pressures. Pathoge...
Many pathogen recognition genes, such as plant R-genes, undergo rapid adaptive evolution, providing ...
Abstract. The analysis of plant–pathogen interactions is a rapidly moving research field and one tha...
Phytopathogens are a global threat to plant agriculture and biodiversity. The genomics era has lead ...
The genomic perspective aids in integrating the analysis of single resistance (R-) genes into a high...
International audienceIdentifying the genes underlying adaptation, their distribution in genomes and...
International audienceDuring 450 million years of diversification on land, plants and microbes have ...
Bacterial pathogens continue to pose a major threat to economically important plant resources. Disea...
Understanding the interactions of co-occurring species within and across trophic levels provides key...
Interaction between plants and their pathogens is complex, involving multifaceted recognition of pat...
autre Projet Européen : 3334036, SEPARATE Identification of Sclerotinia sclerotiorum Effector Protei...
Many species of fungi and oomycetes are plant pathogens of great economic importance. Over the past ...
BGPI : équipe 4 Interactions Céréales Agents Pathogènes (ICAP)International audienceDespite the impo...