sc-45647 and trichlorosucrose

sc-45647 has been researched along with trichlorosucrose* in 2 studies

Other Studies

2 other study(ies) available for sc-45647 and trichlorosucrose

Article	Year
Consumption of SC45647 and sucralose by rats selectively bred for high and low saccharin intake. Chemical senses, 2009, Volume: 34, Issue:3 Mammals' affinity for sweet tastes exists alongside dramatic variation among species and individuals in responses to sweeteners. The present paper focused on consumption by Occidental High- (HiS) and Low-Saccharin (LoS)-consuming rats in 23-h 2-bottle tests of 2 sweeteners for which few data from rats are available: SC45647 and sucralose. Every HiS and LoS rat preferred SC45647 to water at every concentration, with HiS rats consuming it more avidly. Most HiS rats preferred sucralose to water at one or more concentrations; some HiS rats and most LoS rats avoided sucralose at every concentration. However, both HiS and LoS rats preferred a sucralose-maltodextrin mixture (Splenda) to water; thus, Splenda's "bulking" ingredient maltodextrin transforms highly variable responses to sucralose into a relatively homogeneous preference for the product. Implications for the study of variation in sweet taste are discussed. Topics: Animals; Breeding; Food Preferences; Guanidines; Rats; Saccharin; Sucrose; Sweetening Agents; Taste	2009
Whole nerve chorda tympani responses to sweeteners in C57BL/6ByJ and 129P3/J mice. Chemical senses, 2001, Volume: 26, Issue:7 The C57BL/6ByJ (B6) strain of mice exhibits higher preferences than does the 129P3/J (129) strain for a variety of sweet tasting compounds. We measured gustatory afferent responses of the whole chorda tympani nerve in these two strains using a broad array of sweeteners and other taste stimuli. Neural responses were greater in B6 than in 129 mice to the sugars sucrose and maltose, the polyol D-sorbitol and the non-caloric sweeteners Na saccharin, acesulfame-K, SC-45647 and sucralose. Lower neural response thresholds were also observed in the B6 strain for most of these stimuli. The strains did not differ in their neural responses to amino acids that are thought to taste sweet to mice, with the exception of L-proline, which evoked larger responses in the B6 strain. Aspartame and thaumatin, which taste sweet to humans but are not strongly preferred by B6 or 129 mice, did not evoke neural responses that exceeded threshold in either strain. The strains generally did not differ in their neural responses to NaCl, quinine and HCl. Thus, variation between the B6 and 129 strains in the peripheral gustatory system may contribute to differences in their consumption of many sweeteners. Topics: Animals; Aspartame; Chorda Tympani Nerve; Dose-Response Relationship, Drug; Electrophysiology; Glucans; Guanidines; Male; Mice; Mice, Inbred C57BL; Oligosaccharides; Plant Proteins; Quinine; Saccharin; Species Specificity; Sucrose; Sweetening Agents; Taste; Taste Threshold; Thiazines	2001

Article

Year

Consumption of SC45647 and sucralose by rats selectively bred for high and low saccharin intake.

Chemical senses, 2009, Volume: 34, Issue:3

Mammals' affinity for sweet tastes exists alongside dramatic variation among species and individuals in responses to sweeteners. The present paper focused on consumption by Occidental High- (HiS) and Low-Saccharin (LoS)-consuming rats in 23-h 2-bottle tests of 2 sweeteners for which few data from rats are available: SC45647 and sucralose. Every HiS and LoS rat preferred SC45647 to water at every concentration, with HiS rats consuming it more avidly. Most HiS rats preferred sucralose to water at one or more concentrations; some HiS rats and most LoS rats avoided sucralose at every concentration. However, both HiS and LoS rats preferred a sucralose-maltodextrin mixture (Splenda) to water; thus, Splenda's "bulking" ingredient maltodextrin transforms highly variable responses to sucralose into a relatively homogeneous preference for the product. Implications for the study of variation in sweet taste are discussed.

Topics: Animals; Breeding; Food Preferences; Guanidines; Rats; Saccharin; Sucrose; Sweetening Agents; Taste

2009

Whole nerve chorda tympani responses to sweeteners in C57BL/6ByJ and 129P3/J mice.

Chemical senses, 2001, Volume: 26, Issue:7

The C57BL/6ByJ (B6) strain of mice exhibits higher preferences than does the 129P3/J (129) strain for a variety of sweet tasting compounds. We measured gustatory afferent responses of the whole chorda tympani nerve in these two strains using a broad array of sweeteners and other taste stimuli. Neural responses were greater in B6 than in 129 mice to the sugars sucrose and maltose, the polyol D-sorbitol and the non-caloric sweeteners Na saccharin, acesulfame-K, SC-45647 and sucralose. Lower neural response thresholds were also observed in the B6 strain for most of these stimuli. The strains did not differ in their neural responses to amino acids that are thought to taste sweet to mice, with the exception of L-proline, which evoked larger responses in the B6 strain. Aspartame and thaumatin, which taste sweet to humans but are not strongly preferred by B6 or 129 mice, did not evoke neural responses that exceeded threshold in either strain. The strains generally did not differ in their neural responses to NaCl, quinine and HCl. Thus, variation between the B6 and 129 strains in the peripheral gustatory system may contribute to differences in their consumption of many sweeteners.

Topics: Animals; Aspartame; Chorda Tympani Nerve; Dose-Response Relationship, Drug; Electrophysiology; Glucans; Guanidines; Male; Mice; Mice, Inbred C57BL; Oligosaccharides; Plant Proteins; Quinine; Saccharin; Species Specificity; Sucrose; Sweetening Agents; Taste; Taste Threshold; Thiazines

2001