TY - JOUR
T1 - Ascorbic acid induced degradation of beta-glucan
T2 - hydroxyl radicals as intermediates studied by spin trapping and electron spin resonance spectroscopy
AU - Faure, Audrey M.
AU - Andersen, Mogens Larsen
AU - Nyström, Laura
PY - 2012/2/14
Y1 - 2012/2/14
N2 - The formation of hydroxyl radicals in beta-glucan solutions treated with ascorbic acid and iron(II) was demonstrated by ESR spin trapping based methods. Two different spin traps were tested, namely DMPO which is commonly used to detect hydroxyl radicals, and POBN often used to detect carbon centered radicals. The experiments performed showed that the presence of iron(II) with DMPO led to low DMPO-OH adduct stability and further to DMPO dimerization. The level of hydroxyl radicals formed during the beta-glucan radical mediated degradation was evaluated using two ESR spin trapping methods based on the use POBN together with either 2% (v/v) EtOH or DMSO. The addition of ascorbic acid together with iron(II) in beta-glucan solution led to an immediate maximal production of hydroxyl radicals while the presence of ascorbic acid alone led to a progressive production of radical. Further hydroxyl radicals were found to be formed when iron(II) was added alone in beta-glucan solutions. The viscosity loss observed in the three last mentioned beta-glucan solutions were found to relate with the formation of hydroxyl radicals. These data confirm the involvement of hydroxyl radical in the beta-glucan degradation.
AB - The formation of hydroxyl radicals in beta-glucan solutions treated with ascorbic acid and iron(II) was demonstrated by ESR spin trapping based methods. Two different spin traps were tested, namely DMPO which is commonly used to detect hydroxyl radicals, and POBN often used to detect carbon centered radicals. The experiments performed showed that the presence of iron(II) with DMPO led to low DMPO-OH adduct stability and further to DMPO dimerization. The level of hydroxyl radicals formed during the beta-glucan radical mediated degradation was evaluated using two ESR spin trapping methods based on the use POBN together with either 2% (v/v) EtOH or DMSO. The addition of ascorbic acid together with iron(II) in beta-glucan solution led to an immediate maximal production of hydroxyl radicals while the presence of ascorbic acid alone led to a progressive production of radical. Further hydroxyl radicals were found to be formed when iron(II) was added alone in beta-glucan solutions. The viscosity loss observed in the three last mentioned beta-glucan solutions were found to relate with the formation of hydroxyl radicals. These data confirm the involvement of hydroxyl radical in the beta-glucan degradation.
U2 - 10.1016/j.carbpol.2011.10.045
DO - 10.1016/j.carbpol.2011.10.045
M3 - Journal article
SN - 0144-8617
VL - 87
SP - 2160
EP - 2168
JO - Carbohydrate Polymers
JF - Carbohydrate Polymers
IS - 3
ER -