Our Collab Network members are not only experts within their own domain but educators with the research community. Learn more about the discoveries and findings our collaborators are achieving with IDT.
The future of personalized genomics
Manja Meggendorfer is the Head of Molecular Genetics at Munich Leukemia Laboratory (MLL), where she oversees various R&D activities such as the 5,000 genome project, which is aimed at better understanding the genetic factors behind leukemia. She received her Master of Science in Biology from the Ludwig-Maximilians-University in Munich and her PhD. in collaboration with the Helmholtz Center Munich working on gene regulation within the architecture of the cell nucleus. After her post-doctorate, she moved to the field of hematology as a scientist in the department of molecular genetics at MLL. In combination with her MBA in Health Care Management, Manja hopes to improve the diagnostic and prognostic work associated with routine diagnostic approaches for leukemia or lymphoma patients.
Automated NGS solutions
Creating libraries for next generation sequencing is a tedious process that can take from more than two hours to several days to complete. Great care must be taken to keep accurate records of which samples received which adapter. Pipetting each sample and reagent by hand can lead to pipetting inconsistencies, ultimately compromising precious samples.
Automating NGS library preparation can minimize the constraints associated with manual processing. Automation solutions from Beckman Coulter Life Sciences are built to alleviate your pain points, whether you need robust automation for a few samples or a high-throughput solution to increase your capacity.
Biomek workstations are configurable to handle workflow needs from microliter to milliliter transfers for nucleic acid isolations, and from primary sample tubes to preparing sequence-ready libraries. The ability of Echo Acoustic Liquid Handlers to enable nanoliter to microliter transfers allows for the reduction of library prep costs through reaction volume miniaturization and acoustic non-contact transfers.