GE Healthcare Launches Microcal(TM) VP-Capillary Differential Scanning Calorimetry Software for Increased Productivity in Stability Studies
Published: Oct 04, 2011
The new software minimizes the data analysis bottleneck and simplifies experiment design and setup. By providing a single, intuitive graphical user interface for selecting and entering all sample and experiment run parameters, assay development time is kept to a minimum. The software also streamlines the workflow allowing flexible instrument scheduling, while the automated data sorting and analysis capabilities can reduce the time required for analysis of a typical experiment from days to hours.
Dr Katherine Bowers of Fujifilm Diosynth Biotechnologies commented, “The MicroCal VP-Capillary DSC system has changed the way we design our formulation experiments. For example, the automated sampler requires smaller sample volumes and reduces user variation thereby producing consistent, better quality data. Most of all, the high throughput is supported by the analysis software, which is easy to use and requires no more manual calculations therefore saving us hours. These time savings have really improved our workflow.”
MicroCal VP-Capillary DSC system works by allowing protein unfolding to be studied quickly without the use of labels or artificial probes as it determines the heat absorbed by the sample as the protein unfolds, giving a measure of thermal stability and an indication of long-term stability. The system allows the study of up to 50 samples per day with fully automated cell filling, injection, and cleaning functions thereby enabling unattended operation.
The software is available with all new MicroCal VP-Capillary DSC systems and as an upgrade for current users. MicroCal Manual Capillary DSC is also available without an auto-sampler for applications where higher throughput and unattended operation and sample handling are not required.
For more information please visit: http://www.microcal.com/
Dr Lynne Trowbridge, Dimithri Wignarajah
+44 (0)20 7866 7858