TY - JOUR
T1 - New Procedure to Calculate All Equilibrium Constants in Flavylium Compounds: Application to the Copigmentation of Anthocyanins
AU - Mendoza, Johan
AU - Basílio, Nuno
AU - de Freitas, Victor
AU - Pina, Fernando
N1 - LAQV (FCT/MCTES fund UID/QUI/50006/2019)
grants PTDC/QUI-COL/32351/2017 and CEECIND/00466/2017 .
J.M. is grateful for a doctoral grant from CONACYT (MEX/Ref. 288188).
PY - 2019/7/31
Y1 - 2019/7/31
N2 - A new experimental procedure to calculate all equilibrium constants of the multistate of species of anthocyanins and related compounds, including those in basic medium, is reported. The procedure is based on a series of pH jumps monitored by stopped flow from an extended pH range of solutions at pseudo-equilibrium (when there is no significant formation of trans-chalcones) or at equilibrium to pH = 1.0. The experimental procedure is described for the anthocyanin model compound 4′-hydroxyflavylium, which exhibits a peculiar behavior in moderately acidic medium, because the quinoidal base, hemiketal, and cis-chalcone have similar mole fractions at pseudo-equilibrium, permitting good discrimination among these species. The experimental procedure can be extended to the copigmentation phenomenon and allow the calculation of the 1:1 copigmentation constants of the flavylium cation, quinoidal base, hemiketal, and cis- A nd trans-chalcones (this last from the equilibrium) and their respective ionized forms. The method was applied to calculate the copigmentation constants of the model compound 4′-hydroxyflavylium as well as malvidin-3-glucoside with caffeine. In the last compound, the strongest interaction takes place with the quinoidal base (K = 303 M-1) and flavylium cation (K = 134 M-1) and, to a lesser extent, with the ionized quinoidal base (K = 43 M-1) and cis-chalcone (K = 17 M-1). The caffeine interaction with the hemiketal and the other ionized species is negligible.
AB - A new experimental procedure to calculate all equilibrium constants of the multistate of species of anthocyanins and related compounds, including those in basic medium, is reported. The procedure is based on a series of pH jumps monitored by stopped flow from an extended pH range of solutions at pseudo-equilibrium (when there is no significant formation of trans-chalcones) or at equilibrium to pH = 1.0. The experimental procedure is described for the anthocyanin model compound 4′-hydroxyflavylium, which exhibits a peculiar behavior in moderately acidic medium, because the quinoidal base, hemiketal, and cis-chalcone have similar mole fractions at pseudo-equilibrium, permitting good discrimination among these species. The experimental procedure can be extended to the copigmentation phenomenon and allow the calculation of the 1:1 copigmentation constants of the flavylium cation, quinoidal base, hemiketal, and cis- A nd trans-chalcones (this last from the equilibrium) and their respective ionized forms. The method was applied to calculate the copigmentation constants of the model compound 4′-hydroxyflavylium as well as malvidin-3-glucoside with caffeine. In the last compound, the strongest interaction takes place with the quinoidal base (K = 303 M-1) and flavylium cation (K = 134 M-1) and, to a lesser extent, with the ionized quinoidal base (K = 43 M-1) and cis-chalcone (K = 17 M-1). The caffeine interaction with the hemiketal and the other ionized species is negligible.
UR - http://www.scopus.com/inward/record.url?scp=85075402916&partnerID=8YFLogxK
U2 - 10.1021/acsomega.9b01066
DO - 10.1021/acsomega.9b01066
M3 - Article
C2 - 31460319
AN - SCOPUS:85075402916
SN - 2470-1343
VL - 4
SP - 12058
EP - 12070
JO - ACS Omega
JF - ACS Omega
IS - 7
ER -