<i>Arabidopsis thaliana</i>zinc accumulation in leaf trichomes is correlated with zinc concentration in leaves

Ricachenevsky, Felipe Klein; Punshon, Tracy; Salt, David E.; Fett, Janette Palma; Guerinot, Mary Lou

doi:10.1101/2020.09.10.291880

Cited by 4 publications

(8 citation statements)

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“…A. thaliana trichomes contain two distinct PM domains, with EXO70H4 and specific phospholipids being enriched in the apical one (Kubátová et al, 2019). We, thus, believe that the basal localization of zinc in trichomes as described before (Ricachenevsky et al, 2021;Kulich et al, 2015) represents part of the basal domain defined by the absence of EXO70H4 and the presence of EXO70A1 (Kulich et al, 2018;Kubátová et al, 2019). Our HM staining experiments as well as EXO70H4 localization data further support this notion.…”

Section: Discussionsupporting

confidence: 82%

Section: Discussionmentioning

confidence: 70%

“…The zinc ZIP transporters are highly expressed in trichomes (Jakoby et al, 2008), and a copper transporter (COPT5, At5g20650) was found to be the most enriched protein in a comprehensive trichome proteome analysis (Huebbers et al, 2022). Recent studies reported that zinc accumulates at the basal part of the trichome (Kulich et al, 2015; Ricachenevsky et al, 2021), roughly corresponding to the region of the OR. Therefore, zinc and other heavy metal transporters can be considered additional candidates for the EXO70H4-MLO secretory pathway.…”

Section: Discussionmentioning

confidence: 99%

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Interplay of EXO70 and MLO proteins modulates trichome cell wall composition and powdery mildew susceptibility

Huebbers

Caldarescu

Kubátová

et al. 2022

Preprint

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EXO70 proteins are essential constituents of the octameric exocyst complex implicated in vesicle tethering during exocytosis, while MLO proteins are plant-specific calcium channels of which some isoforms play a key role during fungal powdery mildew pathogenesis. We here detected by a variety of histochemical staining procedures an unexpected phenotypic overlap ofA. thaliana exo70H4andmlo2 mlo6 mlo12triple mutant plants regarding the biogenesis of leaf trichome secondary cell walls. Biochemical and Fourier transform infrared spectroscopic analyses of isolated trichomes corroborated deficiencies in the composition of trichome cell walls inexo70H4andmlo2 mlo6 mlo12mutants. Transgenic lines expressing fluorophore-tagged EXO70H4 and MLO variants exhibited extensive co-localization of these proteins at the trichome plasma membrane and cell wall. Furthermore, mCherry-EXO70H4 mislocalized in trichomes of themlotriple mutant and,vice versa, MLO6-GFP exhibited aberrant subcellular localization in trichomes of theexo70H4mutant. Transgenic expression of GFP-marked PMR4 callose synthase, a previously identified cargo of EXO70H4 dependent exocytosis, revealed reduced cell wall delivery of GFP-PMR4 in mlo triple mutant plants. In vivo protein-protein interaction assays uncovered isoform-preferential physical interaction between EXO70 and MLO proteins. Finally,exo70H4andmlomutants, when combined, showed synergistically enhanced resistance to powdery mildew attack. Taken together, our data point to an isoform-specific interplay of EXO70 and MLO proteins in the modulation of trichome cell wall biogenesis and powdery mildew susceptibility, possibly by (co-)regulating focal secretion of cell wall-related cargo.

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Section: Discussionsupporting

confidence: 82%

Section: Discussionmentioning

confidence: 70%

Section: Discussionmentioning

confidence: 99%

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Interplay of EXO70 and MLO proteins modulates trichome cell wall composition and powdery mildew susceptibility

Huebbers

Caldarescu

Kubátová

et al. 2022

Preprint

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“…We have identified 37 studies examining metal accumulation in trichomes (Table 2). These studies have been conducted for a wide range of purposes, including for examining plant metal tolerance and detoxication mechanisms (Choi et al, 2001; Čiamporová et al, 2021; Iwasaki & Matsumura, 1999), observing metal distribution in plant leaves (Ager et al, 2003; Lei et al, 2008) and for examining the specific roles of trichomes in plant metal hyperaccumulation (W. Li et al, 2005; Mcnear & Kupper, 2014; Ricachenevsky et al, 2021). In addition, a variety of analytical approaches have been used to investigate the accumulation of metals in the trichomes, including scanning electron microscopy coupled with energy dispersive spectroscopy (SEM‐EDS), synchrotron‐based X‐ray fluorescence microspectroscopy (XFM), nuclear microprobe analysis and confocal microscopy with specific fluorescence dyes (Ager et al, 2003; Broadhurst, Chaney, Angle, Erbe, et al, 2004; Kozhevnikova et al, 2014).…”

Section: The Role Of Trichomes In Plant Metal Detoxificationmentioning

confidence: 99%

The overlooked functions of trichomes: Water absorption and metal detoxication

Cui

Wang

et al. 2023

Plant Cell & Environment

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Trichomes are epidermal outgrowths on plant shoots. Their roles in protecting plants against herbivores and in the biosynthesis of specialized metabolites have long been recognized. Recently, studies are increasingly showing that trichomes also play important roles in water absorption and metal detoxication, with these roles having important implications for ecology, the environment, and agriculture. However, these two functions of trichomes have been largely overlooked and much remains unknown. In this review, we show that the trichomes of 37 plant species belonging to 14 plant families are involved in water absorption, while the trichomes of 33 species from 13 families are capable of sequestering metals within their trichomes. The ability of trichomes to absorb water results from their decreased hydrophobicity compared to the remainder of the leaf surface as well as the presence of special structures for collecting and absorbing water. In contrast, the metal detoxication function of trichomes results not only from the good connection of their basal cells to the underlying vascular tissues, but also from the presence of metal‐chelating ligands and transporters within the trichomes themselves. Knowledge gaps and critical future research questions regarding these two trichome functions are highlighted. This review improves our understanding on trichomes.

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“…This is an effective exclusion mechanism adopted by plants to avoid interference of metals in metabolic activities of the mesophyll cells. Moreover, Zn accumulation in the trichome apoplast is associated with the cell wall (Ricachenevsky et al 2020). Similar sequestration of metals in trichomes are reported from Brassica juncea for Cd (Salt et al 1995), Helianthus annus for Zn (Li et al 2019) and Alyssum lesbiacum for Ni (Krämer et al 1997).…”

Section: Heavy Metal Accumulation and Detoxification In Plant Trichomesmentioning

confidence: 99%

Functional aspects of solanaceae trichomes in heavy metal detoxification

Koul

Thomas

Karmakar³

2021

Nordic Journal of Botany

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Solanaceous plants are ubiquitous and are able to colonize degraded, abandoned and metal polluted habitats. Members of the family have evolved interesting extrinsic and intrinsic traits to combat the metal toxicity in multiple ways. Indumentum constituted mostly of trichome layer provides structural defense for both biotic stress (herbivory, oviposition, microbial pathogenesis) and abiotic stress (like drought, heat, freezing, photooxidation and UV radiation). Plants with heavy metal tolerance can accumulate toxic heavy metals in their trichomes as a part of their elemental defense detoxification strategy. Apart from the canonical functions, trichomes support ion and metal homeostasis, including the sequestration, compartmentalization, accumulation and excretion of heavy metals in many ways. The trichomes in Solanaceae are known to have a key role in the detoxification of Cd, Ni, Pb and Zn. Expressed sequence tag (EST)-based large-scale gene analysis in tobacco has indicated that trichomes are biologically active and stress-responsive structures. Trichome secretions and exudates also play an active role in metal detoxification process. Given that trichomes provide chemical defense from heavy metal stresses in the form of sequestration and extrusion, the plants having trichomes have potential role in remediation of contaminated soils. Solanaceae trichomes can serve as important model tissues that can be modified to attenuate metal toxicity, serve as environmental indicators and enhance phytoremediation potential of the family.

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Arabidopsis thalianazinc accumulation in leaf trichomes is correlated with zinc concentration in leaves

Cited by 4 publications

References 64 publications

Interplay of EXO70 and MLO proteins modulates trichome cell wall composition and powdery mildew susceptibility

Interplay of EXO70 and MLO proteins modulates trichome cell wall composition and powdery mildew susceptibility

The overlooked functions of trichomes: Water absorption and metal detoxication

Functional aspects of solanaceae trichomes in heavy metal detoxification

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