Implementing a new high-throughput (HT) nucleic acid purification workflow or scaling up an existing workflow presents many unique challenges. To be successful, the chemistry and liquid handler must be perfectly integrated to fit your lab’s specific needs. This involves configuring the instrument deck, optimizing the assay chemistry, and programming the instrument.
When you’re facing a sudden spike in sample throughput demand combined with unprecedented urgency, those challenges can often become overwhelming. Even in times of crisis, Promega scientists are prepared to support labs facing challenges with HT workflows, regardless of your instrumentation platform.
Tradeoffs are a constant source of challenge in any research lab. To get faster results, you will probably need to use more resources (people, money, supplies). The powerful lasers used to do live cell imaging may well kill those cells in the process. Purifying DNA often leaves you to choose between purity and yield.
Working with biologics also involves a delicate balancing act. Producing compounds in biological models rather than by chemical synthesis offers many advantages, but it is not without certain challenges. One of those tradeoffs results from scaling up; the more plasmid that is produced, the greater probability of endotoxin contamination.
Implementing automated nucleic acid purification or making changes to your high-throughput (HT) workflow can be complicated and time-consuming. There are also many barriers to success such as challenging samples types and maintaining desirable downstream results that can add to the stress, not to mention actually getting the robotic instrumentation to do what you want it to. All of this makes it easy to understand why many labs avoid automating or own expensive instrumentation that goes unused. Continue reading “High-Throughput Purification with Experts Included”