6533b81ffe1ef96bd1277111

RESEARCH PRODUCT

Competitive Binding of Aroma Compounds by β-Cyclodextrin

Elisabeth GuichardJ L Le QuéréEtienne SémonI GoubetAndrée VoilleyC Dahout

subject

Carboxylic AcidsAlcoholBinding Competitivechemistry.chemical_compoundEthyl propionateOrganic chemistryAromachemistry.chemical_classificationHexanoic acidCyclodextrinsCyclodextrinbiologybeta-Cyclodextrinsfood and beveragesEthyl hexanoateEstersGeneral Chemistrybiology.organism_classificationKineticsFreeze DryingchemistryBenzyl alcoholAlcoholsOdorantsGeneral Agricultural and Biological SciencesHexanol

description

Retention of six aroma compounds has been studied after dehydration of ternary mixtures of aroma water and beta-cyclodextrin. A maximal retention of a mole of aroma per mole of beta-cyclodextrin has been observed for five of the aroma compounds, whereas retention of benzyl alcohol can be twice as high. Retention of a mixture of aroma compounds has also been studied. It has been noted that when volatile compounds compete for the same binding sites on beta-cyclodextrin, ethyl hexanoate, 2-methylbutyric acid, and benzyl alcohol are, respectively, better retained than ethyl propionate, hexanoic acid, and hexanol. Preferential retention observed with esters can be simply explained by their difference of physicochemical properties, but for the acids and alcohols a study at the molecular scale has been necessary. The better retention of 2-methylbutyric acid can be explained by differences in the nature of interaction between the acids and their carrier. At least selectivity of retention noted for the alcohol could be due to a difference in the location of the guest and also a difference in the number of aroma molecules that can be bound per polysaccharide molecule.

yearjournalcountryeditionlanguage
2001-11-22Journal of Agricultural and Food Chemistry
https://doi.org/10.1021/jf0101049