Plants share their habitats with a multitude of different microbes. This close vicinity promoted
the evolution of interorganismic interactions between plants and many different …

Plants share their habitats with a multitude of different microbes. This close vicinity promoted
the evolution of interorganismic interactions between plants and many different …

Auxin is a key phytohormone that is integral to plant developmental processes including
those underlying root initiation, elongation, and branching. Beneficial microbes have been …

Auxin (indole-3-acetic acid, IAA) is an important phytohormone involved in root growth and
development. Root-interacting beneficial and pathogenic fungi utilize auxin and its target …

A wide variety of microorganisms known to produce auxin and auxin precursors form
beneficial relationships with plants and alter host root development. Moreover, other signals …

The biosynthesis of auxin or indole-3-acetic acid by microorganisms has a major impact on
plant–microbe interactions. Several beneficial microbiota are known to produce auxin, which …

The plant rhizosphere harbors many different microorganisms, ranging from plant growth–
promoting bacteria to devastating plant parasites. Some of these microbes are able to …

Most field-grown plants are surrounded by microbes, especially from the soil. Some of these,
including bacteria, fungi and nematodes, specifically manipulate the growth and …

In natural systems, plant–symbiont–pathogen interactions play important roles in mitigating
abiotic and biotic stresses in plants. Symbionts have their own special recognition ways, but …

Plant growth and development are positively regulated by the endophytic microbiome via
both direct and indirect perspectives. Endophytes use phytohormone production to promote …