The Missing Electrostatic Interactions Between DNA Substrate and Sulfolobus Solfataricus DNA Photolyase: What Is the Role of Charged Amino Acids in Thermophilic DNA Binding Proteins?
DNA photolyase can be used to study how a protein with its required cofactor has adapted over a large temperature range. The enzymatic activity and thermodynamics of substrate binding for protein from Sulfolobus solfataricus were directly compared to protein from Escherichia coli. Turnover numbers and catalytic activity were virtually identical, but organic cosolvents may be necessary to maintain activity of the thermophilic protein at higher temperatures. UV-damaged DNA binding to the thermophilic protein is less favorable by ∼2 kJ/mol. The enthalpy of binding is ∼10 kJ/mol less exothermic for the thermophile, but the amount and type of surface area buried upon DNA binding appears to be somewhat similar. The most important finding was observed when ionic strength studies were used to separate binding interactions into electrostatic and nonelectrostatic contributions; DNA binding to the thermophilic protein appears to lack the electrostatic contributions observed with the mesophilic protein.
MSU Digital Commons Citation
Gindt, Yvonne; Edani, Ban H.; Olejnikova, Antonia; Roberts, Ariana N.; Munshi, Sudipto; and Stanley, Robert J., "The Missing Electrostatic Interactions Between DNA Substrate and Sulfolobus Solfataricus DNA Photolyase: What Is the Role of Charged Amino Acids in Thermophilic DNA Binding Proteins?" (2016). Department of Chemistry and Biochemistry Faculty Scholarship and Creative Works. 112.