Michael Werner scite author profile

Drug discovery is a multifaceted endeavor encompassing as its core element the generation of structure-activity relationship (SAR) data by repeated chemical synthesis and biological testing of tailored molecules. Herein, we report on the development of a flow-based biochemical assay and its seamless integration into a fully automated system comprising flow chemical synthesis, purification and in-line quantification of compound concentration. This novel synthesis-screening platform enables to obtain SAR data on b-secretase (BACE1) inhibitors at an unprecedented cycle time of only 1 h instead of several days. Full integration and automation of industrial processes have always led to productivity gains and cost reductions, and this work demonstrates how applying these concepts to SAR generation may lead to a more efficient drug discovery process.

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Downscaling the Analysis of Complex Transmembrane Signaling Cascades to Closed Attoliter Volumes

Grasso

Wyss

Piguet

et al. 2013

PLoS ONE

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Cellular signaling is classically investigated by measuring optical or electrical properties of single or populations of living cells. Here we show that ligand binding to cell surface receptors and subsequent activation of signaling cascades can be monitored in single, (sub-)micrometer sized native vesicles with single-molecule sensitivity. The vesicles are derived from live mammalian cells using chemicals or optical tweezers. They comprise parts of a cell’s plasma membrane and cytosol and represent the smallest autonomous containers performing cellular signaling reactions thus functioning like minimized cells. Using fluorescence microscopies, we measured in individual vesicles the different steps of G-protein-coupled receptor mediated signaling like ligand binding to receptors, subsequent G-protein activation and finally arrestin translocation indicating receptor deactivation. Observing cellular signaling reactions in individual vesicles opens the door for downscaling bioanalysis of cellular functions to the attoliter range, multiplexing single cell analysis, and investigating receptor mediated signaling in multiarray format.

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Michael Werner

The ATLAS Collaboration

Microfluidic array cytometer based on refractive optical tweezers for parallel trapping, imaging and sorting of individual cells

A dense polarized 3He target based on compression of optically pumped gas

Seamless Integration of Dose‐Response Screening and Flow Chemistry: Efficient Generation of Structure–Activity Relationship Data of β‐Secretase (BACE1) Inhibitors

Downscaling the Analysis of Complex Transmembrane Signaling Cascades to Closed Attoliter Volumes

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