Advances in Crystallographic Hardware for Structural Biology
Poster Sep 13, 2010
Matthew Benning and Michael Ruf, Bruker AXS Inc., East Cheryl Parkway
The number of life science investigators utilizing crystallography in their research increases every year. Synchrotrons are an invaluable resource for structural work but not everyone has unlimited access to a beamline. In-house diffraction systems complement synchrotron access and can provide increased productivity in the home lab. In recent years, the performance and versatility of in-house systems has greatly improved. The enhanced performance allows data collection on demanding projects such as sulfur SAD phasing or microcrystalline samples. The systems are also perfect for fast sample characterization when preparing for beamline trips. The addition of automation components allows for increased throughput and remote operation.
CiPA Phase 2 Study: validation of an automated microelectrode array (MEA) assay of hiPSC-derived cardiomyocyte electrophysiology for cardiac safety evaluationPoster
These results support the use of hSC-CM and MEA technology for preclinical assessment of proarrhythmic risk within the proposed CiPA paradigm, and, more generally, demonstrate that automation of the CM-MEA assay can achieve high reliability and throughput for cardiac risk assessment in vitro.READ MORE
A luminescent solar concentrator-based photomicroreactor for energy efficient continuous-flow photocatalysisPoster
The Luminescent Solar ConcentratorPhotomicroreactor
(LSC-PM) is an innovative device
for solar-powered continuous-flow photochemistry.
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5th Annual Outscourcing in Clinical Trials Nordics 2017
Oct 10 - Oct 11, 2017