How can the platform facilitate drug development in concrete terms?
Stallforth: The platform is highly modular and very flexible, which means we can design a wide range of assays. The synergistic combination of active ingredients is very exciting in anti-infective research. Drug combinations are already being administered for many diseases, but the systematic search for synergistic agents is no longer feasible manually. The number of pipetting steps is so high that humans reach the limit in terms of their susceptibility to errors and also physically. Robots can perform these steps with the highest precision over a period of days.
On the other hand, certain molecular biology steps can also be automated, for example the search for active ingredients from genetic material. We now have access to diverse sources of modern and prehistoric genetic material, for example from Neanderthals, through analytical and bioinformatics methods. Through automation, we can now effectively search for and produce active ingredients.
What potential applications do you see for the platform beyond the development of antibiotics and anti-infectives?
Stallforth: For us, this is also a communication platform where researchers from different disciplines can come together and design new experiments for the first time that were not possible manually. I think that by making this expertise available, we make it possible to bring together many different research topics. In that sense, there are no limits for now.
We need to determine: What are important, innovative questions that can be answered and that perhaps different disciplines can collaborate on? The future will show in which direction we will work more intensively. Due to the modular structure, there are hardly any limits to research. What limits us here is our own creativity.