Add to ORKGPlant roots are colonized by an immense number of microbes, referred to as the root microbiome. Selected strains of beneficial soil-borne bacteria can protect against abiotic stress and prime the plant immune system against a broad range of pathogens. Pseudomonas spp. rhizobacteria represent one of the most abundant genera of the root microbiome. Here, by employing a germ-free experimental system, we demonstrate the ability of selected Pseudomonas spp. strains to promote plant growth and drive developmental plasticity in the roots of Arabidopsis (Arabidopsis thaliana) by inhibiting primary root elongation and promoting lateral root and root hair formation. By studying cell type-specific developmental markers and employing genetic and pharma...
Plants have incredible developmental plasticity, enabling them to respond to a wide range of environ...
The outcome of root-microbiome interactions determines the health and yield of crop plants. Besides ...
Rhizosphere colonization by phytobeneficial Pseudomonas spp. is pivotal in triggering their positive...
Plant roots are colonized by an immense number of microbes, referred to as the root microbiome. Sele...
Plant roots are colonized by an immense number of microbes, referred to as the root microbiome. Sele...
Plants form commensal associations with soil microorganisms, creating a root microbiome that provide...
Beneficial plant root-associated microorganisms carry out a range of functions that are essential fo...
Master's thesis in Biological chemistryPlant root growth is one of the most important factor in dete...
The rhizosphere supports the development and activity of a huge and diversified microbial community,...
Plants grow within a complex web of species that interact with each other and with the plant1–10. Th...
We have billions of micro-organisms in our gut, including bacteria that are fundamental to our healt...
The root microbiome consists of commensal, pathogenic, and plant-beneficial microbes [1]. Most membe...
The plant growth-promoting rhizobacterium (PGPR) Pseudomonas simiae WCS417r stimulates lateral root ...
Plants have incredible developmental plasticity, enabling them to respond to a wide range of environ...
The outcome of root-microbiome interactions determines the health and yield of crop plants. Besides ...
Rhizosphere colonization by phytobeneficial Pseudomonas spp. is pivotal in triggering their positive...
Plant roots are colonized by an immense number of microbes, referred to as the root microbiome. Sele...
Plant roots are colonized by an immense number of microbes, referred to as the root microbiome. Sele...
Plants form commensal associations with soil microorganisms, creating a root microbiome that provide...
Beneficial plant root-associated microorganisms carry out a range of functions that are essential fo...
Master's thesis in Biological chemistryPlant root growth is one of the most important factor in dete...
The rhizosphere supports the development and activity of a huge and diversified microbial community,...
Plants grow within a complex web of species that interact with each other and with the plant1–10. Th...
We have billions of micro-organisms in our gut, including bacteria that are fundamental to our healt...
The root microbiome consists of commensal, pathogenic, and plant-beneficial microbes [1]. Most membe...
The plant growth-promoting rhizobacterium (PGPR) Pseudomonas simiae WCS417r stimulates lateral root ...
Plants have incredible developmental plasticity, enabling them to respond to a wide range of environ...
The outcome of root-microbiome interactions determines the health and yield of crop plants. Besides ...
Rhizosphere colonization by phytobeneficial Pseudomonas spp. is pivotal in triggering their positive...