Plant roots interact with an enormous diversity of commensal, mutualistic, and pathogenic microbes, which poses a big challenge to roots to distinguish beneficial microbes from harmful ones. Plants can effectively ward off pathogens following immune recognition of conserved microbe-associated molecular patterns (MAMPs). However, such immune elicitors are essentially not different from those of neutral and beneficial microbes that are abundantly present in the root microbiome. Recent studies indicate that the plant immune system plays an active role in influencing rhizosphere microbiome composition. Moreover, it has become increasingly clear that root-invading beneficial microbes, including rhizobia and arbuscular mycorrhiza, evade or suppre...
Beneficial soil-borne microorganisms, such as plant growth promoting rhizobacteria and mycorrhizal f...
The interface between roots and their adjacent soil layer, the rhizosphere, constitutes a hotspot of...
Despite significant advances in crop protection, plant diseases cause a 20% yield loss in food and c...
Plant roots interact with an enormous diversity of commensal, mutualistic, and pathogenic microbes, ...
In the ecosystem, microbiome widely exists in soil, animals, and plants. With the rapid development ...
In nature, plants abundantly form beneficial associations with soilborne microbes that are important...
Microbial communities play a pivotal role in the functioning of superior organisms by influencing th...
The rhizosphere microbiome plays a pivotal role in the functioning of plants by influencing their ph...
The diversity of microbes associated with plant roots is enormous, in the order of tens of thousands...
Plants grown in natural soil are colonized by phylogenetically structured communities of microbes kn...
Plants host a mesmerizing diversity of microbes inside and around their roots, known as the microbio...
Plants grown in natural soil are colonized by phylogenetically structured communities of microbes kn...
Managing plant health is a great challenge for modern food production and is further complicated by ...
The root microbiome consists of commensal, pathogenic, and plant-beneficial microbes [1]. Most membe...
Beneficial soil-borne microorganisms, such as plant growth promoting rhizobacteria and mycorrhizal f...
The interface between roots and their adjacent soil layer, the rhizosphere, constitutes a hotspot of...
Despite significant advances in crop protection, plant diseases cause a 20% yield loss in food and c...
Plant roots interact with an enormous diversity of commensal, mutualistic, and pathogenic microbes, ...
In the ecosystem, microbiome widely exists in soil, animals, and plants. With the rapid development ...
In nature, plants abundantly form beneficial associations with soilborne microbes that are important...
Microbial communities play a pivotal role in the functioning of superior organisms by influencing th...
The rhizosphere microbiome plays a pivotal role in the functioning of plants by influencing their ph...
The diversity of microbes associated with plant roots is enormous, in the order of tens of thousands...
Plants grown in natural soil are colonized by phylogenetically structured communities of microbes kn...
Plants host a mesmerizing diversity of microbes inside and around their roots, known as the microbio...
Plants grown in natural soil are colonized by phylogenetically structured communities of microbes kn...
Managing plant health is a great challenge for modern food production and is further complicated by ...
The root microbiome consists of commensal, pathogenic, and plant-beneficial microbes [1]. Most membe...
Beneficial soil-borne microorganisms, such as plant growth promoting rhizobacteria and mycorrhizal f...
The interface between roots and their adjacent soil layer, the rhizosphere, constitutes a hotspot of...
Despite significant advances in crop protection, plant diseases cause a 20% yield loss in food and c...
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