| Popis: |
Microdroplets are compartments made in the laboratory that allow the miniaturisation of chemical and biological experiments to the femto- to picolitre scale, replacing the classical test tube with a droplet. Ideally containment of the contents of individual droplets would be perfect, but in reality this situation rarely occurs. Instead the leaking of molecules even from intact droplets presents a challenge to the success of miniaturisation and must be assessed on a case-by-case basis. We now present a new method for quantitative determination of leakage: a sheath fluid-free flow cytometer (Guava EasyCyte) is used to directly determine the fluorescence of water-in-oil droplets as a function of time. We validate this method by demonstrating that this assessment of leakage provides a framework for experimental improvements that reduce the leakage of two widely used fluorophores. A 40-fold better retention compared to current protocols is achieved for resorufin with an optimized mix (oil: FC-70, surfactant: 0.1% w/w AZ900C, additive: 1% BSA) to maintain useful retention for up to 130 hours. Likewise leakage of the fluorophore methylumbelliferone is reduced by 75-fold. The availability of a method to quantitate leakage quickly for a variety of experimental conditions will facilitate future applications of droplet-based experiments (e.g. in directed evolution or diagnostics), aid miniaturisation of lab-scale assays into this format, and improve the degrees of freedom in setting up such ultrahigh-throughput experiments. |
