Your search keyword '"Johannes Dopfer"' showing total 4 results

1. Critical assessment of LC3/GABARAP ligands used for degrader development and ligandability of LC3/GABARAP binding pockets

Author

Martin P. Schwalm, Johannes Dopfer, Adarsh Kumar, Francesco A. Greco, Nicolas Bauer, Frank Löhr, Jan Heering, Sara Cano-Franco, Severin Lechner, Thomas Hanke, Ivana Jaser, Viktoria Morasch, Christopher Lenz, Daren Fearon, Peter G. Marples, Charles W. E. Tomlinson, Lorene Brunello, Krishna Saxena, Nathan B. P. Adams, Frank von Delft, Susanne Müller, Alexandra Stolz, Ewgenij Proschak, Bernhard Kuster, Stefan Knapp, and Vladimir V. Rogov

Subjects

Science

Abstract

Abstract Recent successes in developing small molecule degraders that act through the ubiquitin system have spurred efforts to extend this technology to other mechanisms, including the autophagosomal-lysosomal pathway. Therefore, reports of autophagosome tethering compounds (ATTECs) have received considerable attention from the drug development community. ATTECs are based on the recruitment of targets to LC3/GABARAP, a family of ubiquitin-like proteins that presumably bind to the autophagosome membrane and tether cargo-loaded autophagy receptors into the autophagosome. In this work, we rigorously tested the target engagement of the reported ATTECs to validate the existing LC3/GABARAP ligands. Surprisingly, we were unable to detect interaction with their designated target LC3 using a diversity of biophysical methods. Intrigued by the idea of developing ATTECs, we evaluated the ligandability of LC3/GABARAP by in silico docking and large-scale crystallographic fragment screening. Data based on approximately 1000 crystal structures revealed that most fragments bound to the HP2 but not to the HP1 pocket within the LIR docking site, suggesting a favorable ligandability of HP2. Through this study, we identified diverse validated LC3/GABARAP ligands and fragments as starting points for chemical probe and ATTEC development.

Published

2024

2. tracerDB: a crowdsourced fluorescent tracer database for target engagement analysis

Author

Johannes Dopfer, James D. Vasta, Susanne Müller, Stefan Knapp, Matthew B. Robers, and Martin P. Schwalm

Subjects

Science

Abstract

Abstract Investigating ligand-protein complexes is essential in the areas of chemical biology and drug discovery. However, detailed information on key reagents such as fluorescent tracers and associated data for the development of widely used bioluminescence resonance energy transfer (BRET) assays including NanoBRET, time-resolved Förster resonance energy transfer (TR-FRET) and fluorescence polarization (FP) assays are not easily accessible to the research community. We created tracerDB, a curated database of validated tracers. This resource provides an open access knowledge base and a unified system for tracer and assay validation. The database is freely available at https://www.tracerdb.org/ .

Published

2024

3. Adhesion mechanisms between water soluble particles

Author

Christine Haider, Daniel Johannes Dopfer, Stefan Palzer, Lennart Fries, Agba D. Salman, Sergiy Antonyuk, and Stefan Heinrich

Subjects

Materials science, Rheology, Agglomerate, Economies of agglomeration, General Chemical Engineering, Particle, Nanotechnology, Adhesion, Composite material, Material properties, Contact area, Viscoelasticity

Abstract

In order to obtain powdered food products of good handling and dissolution properties, single food particles are agglomerated and transformed into a particle network. This paper analyses the importance of well known particle adhesion mechanisms with a focus on aspects of mechanical and rheological material properties, which are strongly linked with the processing conditions, e.g. time and moisture content. The physical state of the material (amorphous or crystalline) and the dominating adhesion principle (Van der Waals forces, liquid bridges, viscoelastic bridges or solid bridges) are defining the process parameters (temperature, moisture, velocity, pressure) necessary to establish a proper connection between the particles and to form stable agglomerates. For dynamic agglomeration processes, e.g. fluid bed agglomeration, it could be shown, that the impact energy dissipation is detrimental to avoid a rebound of impacting particles and thus a sustainable contact creation. The impact energy can be absorbed by the particle body itself, liquid droplets or layers on the surface of impacting particles. Especially the energy dissipation capacity of amorphous material is strongly depending on temperature and moisture content. For agglomeration processes with limited particle motion, e.g. compaction or sintering, energy dissipation effects are of less importance. More important is the creation of contact area by plastic or viscoelastic deformation. Once stable contacts have been created various mechanisms can lead to maturation/stabilization of the particle contact (sintering, concentration or re-crystallization). Different factors affecting the maturation/stability of agglomerates such as the physical state of the material, mechanical and rheological properties and their relation to the selected process conditions are discussed.

Published

2013

4. Collision dynamics in fluidised bed granulators: A DEM-CFD study

Author

Stefan Palzer, Stefan Heinrich, Lennart Fries, Daniel Johannes Dopfer, and Sergiy Antonyuk

Subjects

Materials science, business.industry, Economies of agglomeration, Applied Mathematics, General Chemical Engineering, General Chemistry, Mechanics, Computational fluid dynamics, Industrial and Manufacturing Engineering, Granulation, Collision frequency, Breakage, Agglomerate, Wetting, Particle velocity, business, Simulation

Abstract

The fluid, particle and collision dynamics inside a fluidised bed granulator are described in detail using coupled DEM-CFD simulations. Three different granulator configurations are compared in terms of their particle–particle interactions, using criteria such as the average particle velocity, angular velocity, average particle–particle and particle–wall collision velocity and the collision frequency. From these measures the agglomeration probability, the breakage and growth rate and the agglomerate strength can be assessed. Depending on the required product properties the results highlight advantages of specific granulator geometries. The top-spray granulator is the simplest device and is often used for large-scale granulation processes in the food and fertilizer industries, but wetting intensity and growth rate are relatively low compared to the other configurations investigated in this work. The spouted bed has the most intensive gas–liquid–solid contact and produces compact and dense agglomerates. Both the agglomeration probability and the breakage rate are very high. The Wurster-coater achieves the fastest growth rate for the applied process conditions and is characterised by homogeneous cyclic particle wetting and a low breakage rate. The simulation results are confirmed by lab scale batch agglomeration experiments using maltodextrin DE21, a model substance for amorphous food powders. It can be concluded that the DEM model offers large potential for process intensification by investigating the effect of geometry modifications on the fluid and particle dynamics and on the homogeneity of particle wetting. This is shown exemplarily for fluidised bed agglomeration.

Published

2013