Small Molecule Screening on Autopilot — Unattended Assay Cascades by Digitalizing Your Workflows
Discover how to enable an unattended assay cascade to accelerate your small molecule research. Learn about the integration of Titian’s Mosaic software for sample and workflow management with the assay data management and analytics platform, Genedata Screener. This integration has the potential to fully automate the closed-loop processing of assay cascades in small molecule screening without human interaction.
Marcus Oxer, Domain Solutions Manager at Titian Software, will give a joint presentation with Sascha Fischer, Business Development Manager at Genedata. Together, they will share how this integration streamlines design-make-test-analyze workflows, driving the automated delivery and processing of assay plates, advanced automated data loading and analyses, and the automated generation of timely HTS results to trigger an unattended new assay cascade round based on hits.
Get Insights On:
- How small molecule research projects can be significantly accelerated while minimizing errors due to manual sample and data transfer or incorrect data evaluation
- How the integration between Titian Mosaic and Genedata Screener facilitates an unattended closed loop of assay cascades by automating sample delivery, data loading, real-time monitoring of small molecule HTS runs, data analysis, and reporting
- How this modular approach allows scientists to perform data processing both fully and semi-automatically to accelerate research cycles
Who Should Watch?
- Lab automation scientists in biopharma, biotech, or life science organizations conducting a vast range of assays using lab automation hardware and exploring fully unattended closed loop automation workflows for small molecule research by automating data processing; complementing the automation of wet lab processing using lab automation hardware
- Digitalization leaders seeking solutions to scale and transform laboratory operations for dramatic improvements in accuracy and efficiency by enabling the first step towards unattended closed loop processing of assay cascades