Issue 5, 2022

Hotspots of root-exuded amino acids are created within a rhizosphere-on-a-chip

Abstract

The rhizosphere is a challenging ecosystem to study from a systems biology perspective due to its diverse chemical, physical, and biological characteristics. In the past decade, microfluidic platforms (e.g. plant-on-a-chip) have created an alternative way to study whole rhizosphere organisms, like plants and microorganisms, under reduced-complexity conditions. However, in reducing the complexity of the environment, it is possible to inadvertently alter organism phenotype, which biases laboratory data compared to in situ experiments. To build back some of the complexity of the rhizosphere in a fully-defined, parameterized approach we have developed a rhizosphere-on-a-chip platform that mimics the physical structure of soil. We demonstrate, through computational simulation, how this synthetic soil structure can influence the emergence of molecular “hotspots” and “hotmoments” that arise naturally from the plant's exudation of labile carbon compounds. We establish the amenability of the rhizosphere-on-a-chip for long-term culture of Brachypodium distachyon, and experimentally validate the presence of exudate hotspots within the rhizosphere-on-a-chip pore spaces using liquid microjunction surface sampling probe mass spectrometry.

Graphical abstract: Hotspots of root-exuded amino acids are created within a rhizosphere-on-a-chip

Supplementary files

Article information

Article type
Paper
Submitted
10 Aug 2021
Accepted
20 Nov 2021
First published
28 Jan 2022
This article is Open Access
Creative Commons BY license

Lab Chip, 2022,22, 954-963

Hotspots of root-exuded amino acids are created within a rhizosphere-on-a-chip

J. Aufrecht, M. Khalid, C. L. Walton, K. Tate, J. F. Cahill and S. T. Retterer, Lab Chip, 2022, 22, 954 DOI: 10.1039/D1LC00705J

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