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Plant–microbe interactions in the apoplast: Communication at the plant cell wall

Abstract The apoplast is a continuous plant compartment that connects cells between tissues and organs and is one of the first sites of interaction between plants and microbes. The plant cell wall occupies most of the apoplast and is composed of polysaccharides and associated proteins and ions. This dynamic part of the cell constitutes an essential physical barrier and a source of nutrients for the microbe. At the same time, the plant cell wall serves important functions in the interkingdom detection, recognition, and response to other organisms. Thus, both plant and microbe modify the plant cell wall and its environment in versatile ways to benefit from the interaction. We discuss here crucial processes occurring at the plant cell wall during the contact and communication between microbe and plant. Finally, we argue that these local and dynamic changes need to be considered to fully understand plant–microbe interactions.

Oxford University Press (OUP)

Susanne Dora Oliver M Terrett Clara Sánchez-Rodríguez

The Plant Cell

2022

Title: Plant–microbe interactions in the apoplast: Communication at the plant cell wall

Description:

Abstract The apoplast is a continuous plant compartment that connects cells between tissues and organs and is one of the first sites of interaction between plants and microbes.

The plant cell wall occupies most of the apoplast and is composed of polysaccharides and associated proteins and ions.

This dynamic part of the cell constitutes an essential physical barrier and a source of nutrients for the microbe.

At the same time, the plant cell wall serves important functions in the interkingdom detection, recognition, and response to other organisms.

Thus, both plant and microbe modify the plant cell wall and its environment in versatile ways to benefit from the interaction.

We discuss here crucial processes occurring at the plant cell wall during the contact and communication between microbe and plant.

Finally, we argue that these local and dynamic changes need to be considered to fully understand plant–microbe interactions.

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Plant–microbe interactions in the apoplast: Communication at the plant cell wall

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