Guided inquiry activity linking thermodynamic parameters of protein unfolding to structure using differential scanning fluorimetry data in the biophysical chemistry classroom.

Visualizations are useful tools for helping students to understand chemistry concepts at the particulate level. A classroom activity was developed based on learning theory and evidence-based practices, combining protein visualization with thermodynamic parameters from differential scanning fluorimetry (DSF) data analysis. Coding of student responses showed that many students were able to establish the desired connections among protein structure, thermodynamic parameters, and experimental data analysis, while a few did not recognize all the differences between the folded and unfolded forms of the protein. The activity elicits student prior knowledge through the pre-class activity, has the students examine the interactions within a protein molecule through the PyMOL activity, introduces DSF analysis using the learning cycle through the Guided Inquiry activity, and tests student learning through the post-class activity. Upon completing the activity, the majority of students successfully met the learning goals.