Harnessing single-stranded DNA binding protein to explore protein-protein and protein-DNA interactions.

Proteins must interact with a variety of other cellular components to properly perform their functions. We have developed a series of five experiments based on the robust bacterial single-stranded DNA binding protein (SSB) to characterize both known and unknown protein-protein and protein-DNA interactions. Students work in groups to generate and process data from electrophoretic mobility shift assays (EMSA), yeast two-hybrid, far Western, chromatin immunoprecipitation (ChIP), and fluorescence microscopy experiments, including choosing a novel condition for each. A gamification approach was used to encourage student participation and laboratory safety. Student learning was assessed using pre- and post-surveys and course grade data. The results indicate a clear increase in both content knowledge and confidence in the topics presented. Ranking of course activities indicated that performing the hands-on laboratory exercises was the most valuable course component, and over half of the students would choose to take another course with a similar gamification component. Each of the five laboratory experiments can be performed in combination with each other or integrated separately into a related course, and the gamification structure can be applied to any course.