Daniel Schenck scite author profile

Elongation growth and a several other phenomena in plant development are controlled by the plant hormone auxin. A number of recent discoveries shed light on one of the classical problems of plant physiology: the perception of the auxin signal. Two types of auxin receptors are currently known: the AFB/TIR family of F box proteins and ABP1. ABP1 appears to control membrane transport processes (H+ secretion, osmotic adjustment) while the TIR/AFBs have a role in auxin-induced gene expression. Models are proposed to explain how membrane transport (e.g., K+ and H+ fluxes) can act as a cross-linker for the control of more complex auxin responses such as the classical stimulation of cell elongation.

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Expression of TWISTED DWARF1 lacking its in‐plane membrane anchor leads to increased cell elongation and hypermorphic growth

Bailly

Wang

Zwiewka

et al. 2013

The Plant Journal

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SUMMARYPlant growth is achieved predominantly by cellular elongation, which is thought to be controlled on several levels by apoplastic auxin. Auxin export into the apoplast is achieved by plasma membrane efflux catalysts of the PIN-FORMED (PIN) and ATP-binding cassette protein subfamily B/phosphor-glycoprotein (ABCB/PGP) classes; the latter were shown to depend on interaction with the FKBP42, TWISTED DWARF1 (TWD1). Here by using a transgenic approach in combination with phenotypical, biochemical and cell biological analyses we demonstrate the importance of a putative C-terminal in-plane membrane anchor of TWD1 in the regulation of ABCB-mediated auxin transport. In contrast with dwarfed twd1 loss-of-function alleles, TWD1 gainof-function lines that lack a putative in-plane membrane anchor (HA-TWD1-C t ) show hypermorphic plant architecture, characterized by enhanced stem length and leaf surface but reduced shoot branching. Greater hypocotyl length is the result of enhanced cell elongation that correlates with reduced polar auxin transport capacity for HA-TWD1-C t . As a consequence, HA-TWD1-C t displays higher hypocotyl auxin accumulation, which is shown to result in elevated auxin-induced cell elongation rates. Our data highlight the importance of C-terminal membrane anchoring for TWD1 action, which is required for specific regulation of ABCB-mediated auxin transport. These data support a model in which TWD1 controls lateral ABCB1-mediated export into the apoplast, which is required for auxin-mediated cell elongation.

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Tensiometric and Phase Domain Behavior of Lung Surfactant on Mucus-like Viscoelastic Hydrogels

Schenck

Fiegel

2016

ACS Appl. Mater. Interfaces

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Lung surfactant has been observed at all surfaces of the airway lining fluids and is an important contributor to normal lung function. In the conducting airways, the surfactant film lies atop a viscoelastic mucus gel. In this work, we report on the characterization of the tensiometric and phase domain behavior of lung surfactant at the air-liquid interface of mucus-like viscoelastic gels. Poly(acrylic acid) hydrogels were formulated to serve as a model mucus with bulk rheological properties that matched those of tracheobronchial mucus secretions. Infasurf® (Calfactant), a commercially available pulmonary surfactant derived from calf lung extract, was spread onto the hydrogel surface. The surface tension lowering ability and relaxation of Infasurf films on the hydrogels was quantified and compared to Infasurf behavior on an aqueous subphase. Infasurf phase domains during surface compression were characterized by fluorescence microscopy and phase shifting interferometry. We observed that increasing the bulk viscoelastic properties of the model mucus hydrogels reduced the ability of Infasurf films to lower surface tension and inhibited film relaxation. A shift in the formation of Infasurf condensed phase domains from smaller, more spherical domains to large, agglomerated, multilayer structures was observed with increasing viscoelastic properties of the subphase. These studies demonstrate that the surface behavior of lung surfactant on viscoelastic surfaces, such as those found in the conducting airways, differs significantly from aqueous, surfactant-laden systems.

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Surface rheological properties alter aerosol formation from mucus mimetic surfaces

2020

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Rapid auxin-induced root growth inhibition requires the TIR and AFB auxin receptors

Scheitz¹,

Lüthen²,

Schenck³

2013

Planta

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We investigated the relation between auxin-induced gene expression and the rapid auxin-induced growth inhibition in Arabidopsis thaliana roots. The natural auxin indole-3-acetic acid (IAA) induced a strong activation of gene expression as visualized by the DR5rev::GFP reporter gene technique. This effect was specific for active auxins and was abolished in knockout mutants of the F-box auxin receptors. We measured the IAA-induced growth inhibition at high time resolution and show that the F-box auxin receptor mutants failed to display this effect. We conclude that the F-box auxin receptors are needed for the response. In hypocotyls, auxin induces an increase in elongation growth, and this effect has been earlier shown to be independent of the F-box receptors. Based on these findings, we discuss differences in the growth control modes in roots and shoots. We demonstrate that the rapid auxin-induced root growth inhibition, unlike the induction of growth in hypocotyls, requires the presence of the F-box auxin receptors.

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Identification of critical process parameters and its interplay with nanosuspension formulation prepared by top down media milling technology – A QbD perspective

Ghosh

Schenck

Bose

et al. 2012

Pharmaceutical Development and Technology

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The purpose of this study was to optimize the process parameters of a poorly soluble drug by top down media milling process using different polymer systems. Process parameters including agitation rate (RPM), size of grinding media and drug content were studied through a Quality by Design (QbD) approach, using three different polymeric stabilizers (HPMC 3 cps, PVP K-30 and HPC-EXF) with the addition of Vitamin E TPGS as a surface active agent. From the statistical analysis, the RPM of the media milling was determined to be the most significant process parameter with respect to influence on particle size. The effects of varying the size of grinding media or drug content were not found to be as significant as the effects of RPM. Finally, the polymeric stabilizer played an important role in the production of nanoparticles. Among the different polymers, HPMC stabilized systems demonstrated superior results with regards to the consistency in producing successful nanoparticles and inhibition of crystal growth during storage. This study established the interplay among the formulation parameters in order to select the design space, which helped us in the identification and rank ordering of critical and noncritical variables related to the quality attributes of nanosuspension formulation during the early phase of product development.

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Daniel Schenck

Optimization of formulation and process parameters for the production of nanosuspension by wet media milling technique: Effect of Vitamin E TPGS and nanocrystal particle size on oral absorption

Rapid Auxin-Induced Cell Expansion and Gene Expression: A Four-Decade-Old Question Revisited

How Does Auxin Enhance Cell Elongation? Roles of Auxin-Binding Proteins and Potassium Channels in Growth Control

Expression of TWISTED DWARF1 lacking its in‐plane membrane anchor leads to increased cell elongation and hypermorphic growth

Tensiometric and Phase Domain Behavior of Lung Surfactant on Mucus-like Viscoelastic Hydrogels

Surface rheological properties alter aerosol formation from mucus mimetic surfaces

Rapid auxin-induced root growth inhibition requires the TIR and AFB auxin receptors

Identification of critical process parameters and its interplay with nanosuspension formulation prepared by top down media milling technology – A QbD perspective

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