TY - JOUR
T1 - Binding of calcium to L-serine and o-phospho-L-serine as affected by temperature, pH and ionic strength under milk processing conditions
AU - Jiang, Yuan
AU - Liu, Xiao-Chen
AU - de Zawadzki, Andressa
AU - Skibsted, Leif H.
PY - 2021
Y1 - 2021
N2 - Calcium binding to o-phospho-L-serine (OPS), important for calcium distribution during milk processing and for calcium bioavailability, was studied electrochemically for different conditions of temperature, pH and ionic strength in combination with quantum mechanical calculations (DFT) using L-serine (Ser) as a reference compound. Calcium binding increases strongly with increasing pH for both Ser and OPS. pH dependent binding of calcium ions was resolved using pKa values into, respectively, Kass,1, Kass,2 and Kass,3 = 20, 37 and 180 L mol−1 with ΔH0ass,1 ΔH0ass,2 ΔH0ass,3 = 16, −7.4 and −11 kJ mol−1 for binding to OPS−, OPS2− and OPS3− at an ionic strength 0.2 and 15 °C. Dissolution of CaOPS at milk pH was endothermic. The shift from endothermic binding of calcium to OPS at low pH to exothermic binding at higher pH, corresponding to a shift from hydrophobic interaction (phosphate ester) to ionic binding (carboxylate/amino chelation), was supported by DFT.
AB - Calcium binding to o-phospho-L-serine (OPS), important for calcium distribution during milk processing and for calcium bioavailability, was studied electrochemically for different conditions of temperature, pH and ionic strength in combination with quantum mechanical calculations (DFT) using L-serine (Ser) as a reference compound. Calcium binding increases strongly with increasing pH for both Ser and OPS. pH dependent binding of calcium ions was resolved using pKa values into, respectively, Kass,1, Kass,2 and Kass,3 = 20, 37 and 180 L mol−1 with ΔH0ass,1 ΔH0ass,2 ΔH0ass,3 = 16, −7.4 and −11 kJ mol−1 for binding to OPS−, OPS2− and OPS3− at an ionic strength 0.2 and 15 °C. Dissolution of CaOPS at milk pH was endothermic. The shift from endothermic binding of calcium to OPS at low pH to exothermic binding at higher pH, corresponding to a shift from hydrophobic interaction (phosphate ester) to ionic binding (carboxylate/amino chelation), was supported by DFT.
UR - http://www.scopus.com/inward/record.url?scp=85092532449&partnerID=8YFLogxK
U2 - 10.1016/j.idairyj.2020.104875
DO - 10.1016/j.idairyj.2020.104875
M3 - Journal article
AN - SCOPUS:85092532449
VL - 112
JO - International Dairy Journal
JF - International Dairy Journal
SN - 0958-6946
M1 - 104875
ER -