Computational modeling and quantitative physiology reveal central parameters for brassinosteroid-regulated early cell physiological processes linked to elongation growth of the Arabidopsis root

Großeholz, Ruth; Wanke, Friederike; Rohr, L. Ralph; Glöckner, Nina; Rausch, Luiselotte; Scholl, Stefan; Scacchi, Emanuele; Spazierer, Amelie-Jette; Shabala, Lana; Shabala, Sergey; Schumacher, Karin; Kummer, Ursula; Harter, Klaus

doi:10.7554/elife.73031

Cited by 12 publications

(23 citation statements)

References 93 publications

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“…Similar pattern of H + fluxes was determined in Arabidopsis thaliana, where the fluxes also correlated with root surface pH: an alkaline domain was observed at the border between meristematic and transition zones (Staal et al 2011). Other works have attempted to determine the pH of the epidermal cell walls, and show a general decrease of pH towards the maturation zone of the root (Barbez et al 2017;Moreau et al 2022;Großeholz et al 2022). It is important to keep in mind that changes in proton fluxes and membrane potential are not always correlated with change in pH.…”

Section: Introductionsupporting

confidence: 63%

“…We first hypothesized that the observed spatial surface pH gradients might originate from gradients of AHA ATPase abundance or activity (Großeholz et al . 2022).…”

Section: Resultsmentioning

confidence: 99%

“…We first hypothesized that the observed spatial surface pH gradients might originate from gradients of AHA ATPase abundance or activity (Großeholz et al 2022). The immunolocalization of endogenous AHAs, however, didn't reveal any obvious reduction in AHA abundance in the transition zone (Fig.…”

Section: The Alkaline Domain In the Transition Zone Is Not Directly D...mentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

“…Increased cytokinin signaling led to shortening of the meristem, similarly to an inducible relocalization of AHA2 fused to the glucocorticoid receptor. Finally, Großeholz et al (2022) quantified the AHA2-GFP signal and demonstrated an increasing AHA2-GFP membrane abundance towards the maturation zone of Arabidopsis thaliana root, which correlated with increased acidification of the root surface. Still, the observed patterns of proton fluxes along the root zones (Weisenseel and Meyer 1997), and in particular the existence of the alkaline domain around the transition zone of the root, cannot be simply explained by the expression or abundance of AHA proton pumps.…”

Section: Introductionmentioning

confidence: 99%

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The AUX1-AFB1-CNGC14 module establishes longitudinal root surface pH profile

Serre

Wernerova

Vittal

et al. 2022

Preprint

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Plant roots navigate in the dark soil environments following the gravity vector. Cell divisions in the meristem and rapid cell growth in the elongation zone propel the root tips through the soil. Actively elongating cells acidify their apoplast to enable cell wall extension by the activity of plasma membrane AHA H+-ATPases. The phytohormone auxin, central regulator of gravitropic response and root development, inhibits root cell growth, likely by rising the pH of the apoplast. However, the role of auxin in the regulation of the apoplastic pH gradient along the root tip is unclear. Here we show, by using an improved method for visualization and quantification of root surface pH, that the Arabidopsis thaliana root surface pH shows distinct acidic and alkaline zones, which are not primarily determined by the activity of AHA H+-ATPases. Instead, the distinct domain of alkaline pH in the root transition zone is controlled by a rapid auxin response module, consisting of the AUX1 auxin influx carrier, the AFB1 auxin co-receptor and the CNCG14 calcium channel. We demonstrate that the rapid auxin response pathway is required for an efficient navigation of the root tip.

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Section: Introductionsupporting

confidence: 63%

“…We first hypothesized that the observed spatial surface pH gradients might originate from gradients of AHA ATPase abundance or activity (Großeholz et al . 2022).…”

Section: Resultsmentioning

confidence: 99%

Section: The Alkaline Domain In the Transition Zone Is Not Directly D...mentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

The AUX1-AFB1-CNGC14 module establishes longitudinal root surface pH profile

Serre

Wernerova

Vittal

et al. 2022

Preprint

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Expansin-mediated developmental and adaptive responses: A matter of cell wall biomechanics?

2022

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Biomechanical properties of the cell wall (CW) are important for many developmental and adaptive responses in plants. Expansins were shown to mediate pH-dependent CW enlargement via a process called CW loosening. Here, we provide a brief overview of expansin occurrence in plant and non-plant species, their structure and mode of action including the role of hormone-regulated CW acidification in the control of expansin activity. We depict the historical as well as recent CW models, discuss the role of expansins in the CW biomechanics and address the developmental importance of expansin-regulated CW loosening in cell elongation and new primordia formation. We summarise the data published so far on the role of expansins in the abiotic stress response as well as the rather scarce evidence and hypotheses on the possible mechanisms underlying expansin-mediated abiotic stress resistance. Finally, we wrap it up by highlighting possible future directions in expansin research.

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