Pirom Chenprakhonภิรมย์ เชนประโคนBhinyo PanijpanPimchai ChaiyenMahidol University. Institute for Innovative LearningMahidol University. Faculty of Science2015-11-302018-01-262015-11-302018-01-262012-02-28Journal of Chemical Education. Vol.89, No.6 (2012), 791-795https://repository.li.mahidol.ac.th/handle/20.500.14594/3391The modulation of ligand pKa due to its surrounding environment is a crucial feature that controls many biological phenomena. For example, the shift in the pKa of substrates or catalytic residues at enzyme active sites upon substrate binding often triggers and controls enzymatic reactions. In this work, we developed an experiment using spectrophotometric method to demonstrate how ligand pKa values can be influenced by specific interactions in the protein-binding pocket using riboflavin binding protein (RP) and its ligands (riboflavin, RF, and neutral red, NR). A direct plot of observed absorbance versus pH was analyzed by nonlinear regression. The pKa values of free and RP-bound RF were determined to be 10.0 ± 0.1 and ∼ 13.3, respectively, and the pKa values of free and RP-bound NR were 6.8 ± 0.1 and 7.8 ± 0.1, respectively. This laboratory clearly demonstrates that the environment of a protein-binding site can affect the pKa value of a ligand. The experiment can be adapted or used as-is for undergraduate students in biochemistry or chemistry (analytical or physical chemistry) or first-year graduate students in biochemistry and related fields.engMahidol UniversityGraduate education/researchUpper-division undergraduateAnalytical chemistryBiochemistryLaboratory instructionAcids/basesBioanalytical chemistryBiophysical chemistryProteins/peptidesThermodynamicsArticleAmerican Chemical Society and Division of Chemical Education, Inc.10.1021/ed2006482