Lund University Publications

Scope of nucleotide chemistry as studied by isothermal titration microcalorimetry

• Mark

Abstract

The area of isothermal titration microcalorimetric (ITC) studies on solution systems involving nucleotides is reviewed. 62 references are cited. About 25 ITC studies on nucleotide systems have been published during the last two decades. The main part (ca 95%) of these papers deal with nucleotide-protein interactions and one paper involves nucleotide-nucleotide binding studies. The results of such studies include stoichiometry, the (concentration) binding constant, K-b, the enthalpy of binding, DeltaH(b)degrees, the standard Gibbs free energy of binding, DeltaG(b)degrees, the entropy of binding, DeltaS(b)degrees, and the heat capacity of binding at constant pressure, DeltaC(p)degrees. Information on proton uptake/release upon complex... (More)

The area of isothermal titration microcalorimetric (ITC) studies on solution systems involving nucleotides is reviewed. 62 references are cited. About 25 ITC studies on nucleotide systems have been published during the last two decades. The main part (ca 95%) of these papers deal with nucleotide-protein interactions and one paper involves nucleotide-nucleotide binding studies. The results of such studies include stoichiometry, the (concentration) binding constant, K-b, the enthalpy of binding, DeltaH(b)degrees, the standard Gibbs free energy of binding, DeltaG(b)degrees, the entropy of binding, DeltaS(b)degrees, and the heat capacity of binding at constant pressure, DeltaC(p)degrees. Information on proton uptake/release upon complex formation, modeling on binding cooperativity and conformational change can also be derived. In binding studies, calorimetric DeltaC(p)degrees and DeltaH(b)degrees data have been used to model the change in apolar and polar solvent accessible surface areas, DeltaASA(npol) and DeltaASA(pol) respectively. (Less)