Stephanie Grabowski scite author profile

We hypothesize that these homo- and heteromeric complexes may differentially regulate distal root meristem maintenance. We conclude that essential components of the ancestral shoot stemness regulatory system also act in the root and that the specific interaction of CLV1 with ACR4 serves to moderate and control stemness homeostasis in the root meristem. The structural differences between these two meristem types may have necessitated this recruitment of ACR4 for signaling by CLV1.

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FCS and Sub-diffraction Resolution Fluorescence Imaging of Membrane Receptors in Living Organelles

Grabowski

Marawske

Kalinin

et al. 2009

Biophysical Journal

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Fluorescence microscopy is a standard tool in molecular biophysics, but even the best resolution obtained by diffraction-limited conventional optical techniques misses the molecular level by two orders of magnitude. In order to overcome the classical diffraction limit, several sub-diffraction resolution imaging methods have been introduced so far. Direct stochastic optical reconstruction microscopy (dSTORM) (1) and PAINT (points accumulation for imaging in nanoscale topography) (2) have the potential to shed light on the intracellular organization of cells with near-molecular resolution. These techniques will be used to localize labelled peptides binding to receptors located in the membrane of protoplasts of the flowering plant Arabidopsis (a model organism for plant research). Binding dynamics will be studied by fluorescence correlation spectroscopy (FCS). References:(1) M.

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Analyzing Aβ Aggregates with High Resolution Microscopy

Zißmann¹,

Funke²,

Grabowski³

et al. 2011

Biophysical Journal

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In a world where more people grow older aging-related neurodegeneration like Alzheimer's disease (AD) affects more and more people. Today, AD can be diagnosed with certainty only post mortem, detecting insoluble b-amyloid peptide (Ab) aggregates and neurofibrillary tangles in the patient's brain tissue. Aggregates consisting of Ab are a fundamental pathologic feature of AD. Today in many studies, concentrations of monomeric Ab in body fluids are investigated, especially for diagnostic purposes. Nevertheless, for the detection, quantitation and qualification of aggregated pathologic Ab forms, also in the course of aging, a highly sensitive detection assay system for aggregated Ab species is necessary. We developed an ultra-sensitive assay for the detection of aggregated protein species out of body fluids. This highly specific and sensitive assay uses confocal fluorescence spectroscopy methods and is sensitive enough to detect single aggregates. For the procedure, pathologic aggregates out of body fluids are immobilized on a glass chip, subsequently fluorescence labeled and detected via confocal spectroscopy. Actually, we are optimizing the assay in concerns of instrumentation (imaging) and microscopy high-resolution and even super-resolution methods. We are developing methods to analyze aggregates via super-resolution microscopy. Setups like PAINT (Point Accumulation for Imaging in Nanoscale Topography) or STORM (Stochastic Optical Reconstruction Microscopy) allow resolutions in nanometer-range. PAINT is based on replacing the point-spreadfunction (PSF) of a fluorophore by a point in the middle of a 2D gaussian fit. First measurements show resolutions of 30 nm. STORM is based on highaccuracy localization of photoswitchable fluorophores. During one imaging cycle, only a small part of the fluorophores is turned on. This allows a high accuracy in determining the fluorophore position by replacing the PSF. The fluorophore positions obtained from a series of imaging cycles can be used to reconstruct the whole image.

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