ATP-Binding Cassette Exporter PDR11-Mediated Terpenoid Secretion in Engineered Yeast

The metabolic burden caused by terpenoid accumulation limits the development of highly efficient microbial cell factories, which can be circumvented using exporter-mediated product secretion. Although our previous study showed that the pleiotropic drug resistance exporter (PDR11) mediates the export of rubusoside in Saccharomyces cerevisiae, the underlying mechanism is still unclear. Herein, we used GROMACS software to simulate PDR11-mediated rubusoside recruitment and found six residues (D116, D167, Y168, P521, R663, and L1146) on PDR11 that are critical for this process. We also explored the exportation potential of PDR11 for 39 terpenoids by calculating their binding affinity using batch molecular docking. Then, we verified the accuracy of the predicted results by conducting experiments with squalene, lycopene, and beta-carotene as examples. We found that PDR11 can efficiently secrete terpenoids with binding affinities lower than -9.0 kcal/mol. Combining the computer-based prediction and experimental verification, we proved that binding affinity is a reliable parameter to screen exporter substrates and might potentially enable rapid screening of exporters for natural products in microbial cell factories.