ABSTRACT
The present study investigated the sweetness interaction and the sensory characteristics of a novel glycosylated rebaudioside A (g-reb_A) when mixed with other sweeteners. Binary sweetener mixtures were formulated by mixing g-reb_A with four types of sweeteners (sucrose, aspartame, acesulfame-K, saccharin). The sweetness potencies of sweeteners were measured at various concentrations. G-reb_A was mixed with each of the four other sweeteners at the concentration ratio of 35:65 or 50:50 to match the sweetness of a 10% sucrose solution. A generic descriptive analysis was conducted to evaluate the binary samples compared to the 10% sucrose solution. Most binary mixtures exhibited an additive effect on sweetness. A marginal sweetness synergistic effect was observed when g-reb_A was mixed with sucrose at the 50:50 ratio. The sensory characteristics of the binary mixture depended on the type of sweetener mixed with g-reb_A. Mixtures of g-reb_Aacesulfame-K or g-reb_Asaccharin elicited significantly higher bitter taste than the other binary mixtures.
ABSTRACT
This study investigated the effects of various binary sweetener mixtures on sweetness enhancement and their interactions with sweet or bitter taste receptors, focusing on sensory perception and receptor activity. Acesulfame K or saccharin was mixed with allulose, aspartame, erythritol, fructose, glucose, or sucrose to match a target sucrose sweetness. The effects of the mixtures on sweet and bitter taste receptors (in the human embryonic kidney -293 cells) and sensory taste intensities were evaluated. Sweetness enhancement at the sweet taste receptor level was observed in some cases, with several monosaccharides reducing the acesulfame K- or saccharin-induced bitter taste receptor activity. Combining acesulfame K or saccharin with any of the six sweeteners perceptually enhanced sweetness (60% â¼ 100% in 50:50 ratio), correlating with a reduction in inherent bitterness (-35% â¼ -63% in 50:50 ratio). This finding suggests that sweetness perception likely increased because the monosaccharides mitigate the activation of bitter receptors caused by high-potency sweeteners.