2022
DOI: 10.1101/2022.05.09.491085
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Cell-type specific transcriptomics reveals roles for root hairs and endodermal barriers in interaction with beneficial rhizobacterium

Abstract: Growth-promoting bacteria can boost crop productivity in a sustainable way. Pseudomonas simiae WCS417 is a well-studied bacterium that promotes growth of many plant species. Upon colonization, WCS417 affects root system architecture resulting in an expanded root system. Both immunity and root system architecture, are controlled by root-cell-type specific biological mechanisms, but it is unknown how WCS417 affects these mechanisms. Therefore, here, we transcriptionally profiled five Arabidopsis thaliana root ce… Show more

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Cited by 3 publications
(6 citation statements)
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References 99 publications
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“…Moreover, this effectiveness was attributed to a combination of molecular mechanisms related to plant immunity and microbial interactions, which were contributed by bacterial and fungal communities [115,116]. These findings provide insights into how microbiome dynamics affect plant immunity, and the manipulation of SynComs can be a novel strategy to mitigate FW [116]. Applying a biochar amendment can enhance plant resistance, and the existence of beneficial bacteria such as Pseudomonas can protect plants from FW [117].…”
Section: Fusarium Wilt (Fw)mentioning
confidence: 85%
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“…Moreover, this effectiveness was attributed to a combination of molecular mechanisms related to plant immunity and microbial interactions, which were contributed by bacterial and fungal communities [115,116]. These findings provide insights into how microbiome dynamics affect plant immunity, and the manipulation of SynComs can be a novel strategy to mitigate FW [116]. Applying a biochar amendment can enhance plant resistance, and the existence of beneficial bacteria such as Pseudomonas can protect plants from FW [117].…”
Section: Fusarium Wilt (Fw)mentioning
confidence: 85%
“…A mixture of fungi and bacteria in cross-kingdom SynComs was more effective in suppressing FW than fungi or bacteria alone [115]. Moreover, this effectiveness was attributed to a combination of molecular mechanisms related to plant immunity and microbial interactions, which were contributed by bacterial and fungal communities [115,116]. These findings provide insights into how microbiome dynamics affect plant immunity, and the manipulation of SynComs can be a novel strategy to mitigate FW [116].…”
Section: Fusarium Wilt (Fw)mentioning
confidence: 90%
“…nodule‐forming rhizobia (Dolan et al , 1993 ; Datta et al , 2011 ; Hassan & Mathesius, 2012 ; Salazar‐Henao et al , 2016 ). Interestingly, the cell type‐specific analysis of defence‐related gene expression in Arabidopsis trichoblasts versus atrichoblasts suggests a more important role for trichoblasts in immunity activation, at least in response to the beneficial rhizobacterium Pseudomonas simiae WCS417 (preprint: Verbon et al , 2022 ). Epidermis cells accumulate secondary metabolites such as dipeptides and flavonoids and regulate soil nutrient availability and microbiome composition through the exudation of organic compounds (Saslowsky & Winkel‐Shirley, 2001 ; Badri & Vivanco, 2009 ; Datta et al , 2011 ; Hassan & Mathesius, 2012 ; Moussaieff et al , 2013 ).…”
Section: Concept Of Cell Identity In the Regulation Of Immunitymentioning
confidence: 99%
“…In addition, cortex cells of certain plant species allow for the accommodation of arbuscules and subsequent nutrient exchange in the mutualistic interaction with arbuscular mycorrhizal fungi (Lanfranco et al , 2018 ). The suberin‐containing endodermis cell layer can physically prevent pathogens from entering into the vascular stele and even limit root colonisation by beneficial microbes (Geldner, 2013 ; Robbins et al , 2014 ; Fröschel et al , 2021 ; preprint: Verbon et al , 2022 ). Recent findings indicate the endodermis‐specific synthesis of certain phenylpropanoid metabolites required for Casparian strip formation and suberin deposition in this cell type.…”
Section: Concept Of Cell Identity In the Regulation Of Immunitymentioning
confidence: 99%
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