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In situ control of root-bacteria interactions using optical trapping in transparent soil

Bacterial attachment on root surfaces is an important step preceding the colonization or internalization and subsequent infection of plants by pathogens. Unfortunately, bacterial attachment is not well understood because the phenomenon is difficult to observe. Here we assessed whether this limitatio...

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Published in:	Journal of experimental botany 2023-02, Vol.74 (3), p.787-799
Main Authors:	Ge, Sisi, Dong, Xingshui, Liu, Yangminghao, Wright, Kathryn M, Humphris, Sonia N, Dupuy, Lionel X, MacDonald, Michael P
Format:	Article
Language:	English
Subjects:	Bacteria Optical Tweezers Plant Roots - metabolism Plants Rhizosphere Soil Soil Microbiology
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creator	Ge, Sisi Dong, Xingshui Liu, Yangminghao Wright, Kathryn M Humphris, Sonia N Dupuy, Lionel X MacDonald, Michael P
description	Bacterial attachment on root surfaces is an important step preceding the colonization or internalization and subsequent infection of plants by pathogens. Unfortunately, bacterial attachment is not well understood because the phenomenon is difficult to observe. Here we assessed whether this limitation could be overcome using optical trapping approaches. We have developed a system based on counter-propagating beams and studied its ability to guide Pectobacterium atrosepticum (Pba) cells to different root cell types within the interstices of transparent soils. Bacterial cells were successfully trapped and guided to root hair cells, epidermal cells, border cells, and tissues damaged by laser ablation. Finally, we used the system to quantify the bacterial cell detachment rate of Pba cells on root surfaces following reversible attachment. Optical trapping techniques could greatly enhance our ability to deterministically characterize mechanisms linked to attachment and formation of biofilms in the rhizosphere.
doi_str_mv	10.1093/jxb/erac437
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subjects	Bacteria Optical Tweezers Plant Roots - metabolism Plants Rhizosphere Soil Soil Microbiology
title	In situ control of root-bacteria interactions using optical trapping in transparent soil
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