Your search keyword '"Yasuo Kasahara"' showing total 3 results

1. Gustatory Responses to Amino Acids in the Chorda Tympani Nerve of C3H Mice

Author

Yasuo Kasahara, Shuitsu Harada, and Keiko Yamaguchi

Subjects

Male, Taste, Sucrose, Physiology, Ratón, Mice, Structure-Activity Relationship, Behavioral Neuroscience, chemistry.chemical_compound, Physiology (medical), Animals, Amino Acids, Basic amino acids, chemistry.chemical_classification, Mice, Inbred C3H, Adaptation, Physiological, Stimulation, Chemical, Sensory Systems, Amino acid, Electrophysiology, chemistry, Biochemistry, Female, Chorda Tympani Nerve, Enantiomer, Chorda tympani nerve

Abstract

Integrated neural responses to various amino acids were recorded from the chorda tympani (facial) nerve in C3H mice. The basic amino acids hydrochlorides L-Arg-HCl and L-Lys-HCl evoked large magnitude integrated taste responses, similar to that for NaCl, and had estimated electrophysiological thresholds of 0.0001 M. No significant difference was indicated between the response magnitudes for the L- and D-forms of the basic amino acid hydrochlorides; however, responses to the basic amino acid hydrochlorides cross-adapted with NaCl. Responses to neutral L-amino acids (Ser, Ala, Gly), which taste sweet to humans, showed higher thresholds (0.0003 M), similar to that for sucrose, and did not cross-adapt with basic amino acid hydrochlorides or with NaCl. Responses to the neutral amino acids L-Ser and L-Ala were larger than those to their D-amino acid enantiomers. The acidic amino acids L-Asp and L-Glu showed concentration-response functions different from that for HCl. Both acidic amino acids were more stimulatory than HCl at the same pH, although the responses to them were cross-adapted by HCl, indicating a pH effect. A comparison of the stimulatory effectiveness among amino acid derivatives and analogues suggested that the alpha-amino group is essential for the stimulatory effectiveness of neutral amino acids.

Published

1998

2. Enhancement of sucrose sweetness with soluble starch in humans

Author

Shuitsu Harada, Yasuo Kasahara, and Norikazu Kanemaru

Subjects

Adult, Male, Taste, Sucrose, Physiology, Starch, Behavioral Neuroscience, chemistry.chemical_compound, Physiology (medical), Psychophysics, Humans, Food science, Aspartame, Dose-Response Relationship, Drug, food and beverages, Fructose, Drug Synergism, Sweetness, Sensory Systems, Stimulation, Chemical, chemistry, Solubility, Taste Threshold, Sorbitol, Female, Perception, Citric acid

Abstract

The effect of soluble starch (acid-modified starch) on taste intensity was investigated in human subjects. Different concentrations of sucrose (Suc), six sweeteners, NaCl, quinine–HCl (QHCl) and citric acid (Cit) were dissolved in either distilled water (DW; standard) or starch solution (test solution). The solutions were presented to naive subjects and each subject was requested to taste and compare the sweetness intensity between the standard and test solutions based on a scale ranging from +3 (enhanced) to –3 (inhibited). A greater sweetness intensity occurred with Suc at different concentration (0.1–1.0 M) dissolved in soluble starch (0.125% to 4.0%) than with Suc in DW. Similarly, five other different products of soluble starch at 0.25 and 4.0% resulted in enhancement of sweetness for 0.3 and 1.0 M Suc. With the sole exception of the taste of 0.3 M Suc, sweet enhancement did not occur with 0.43 M fructose, 0.82 M glucose, 0.82 M sorbitol, 0.0037 M aspartame, 0.0042 M saccharin-Na or 0.016 M cyclamate. Neither the saltiness of NaCl (0.01–0.3 M), the bitterness of QHCl (0.00003– 0.001 M) nor the sourness of Cit (0.0003–0.01 M) were affected by the soluble starch. These results suggest that the taste enhancing effects of soluble starch on Suc sweetness might depend not only on the taste transduction mechanism, but also on the molecular interaction between Suc and soluble starch.

Published

2001

3. Age-related alteration of taste bud distribution in the common marmoset

Author

Shuitsu Harada, Keiko Yamaguchi, Norikazu Kanemaru, and Yasuo Kasahara

Subjects

medicine.medical_specialty, Taste, Aging, Physiology, Biology, Behavioral Neuroscience, Tongue, Physiology (medical), Internal medicine, Age related, biology.animal, Taste bud, medicine, Animals, Paraffin embedding, Lingual papilla, Marmoset, Callithrix, Anatomy, Taste Buds, Taste pore, Sensory Systems, medicine.anatomical_structure, Endocrinology, Animals, Newborn

Abstract

Alteration in the number of taste buds on the soft palate (SP), fungiform (FF), foliate (FL) and circumvallate (CV) papillae in the common marmoset at different postnatal ages was examined histologically. After paraffin embedding, complete serial sections at 10 microm thickness were made and stained by HE. Digitized images for each section were examined carefully. The number of FF taste buds at day 1 was 334. While only 20% of all the taste buds at birth possessed a taste pore, 39% of 174 SP taste buds at day 1 possessed a taste pore. The number of taste buds with pores at day 1 was small for the center CV (19 of 59), one side CV (7 of 25), and one side FL (2 of 16). These results suggest that the functional maturation of SP taste buds may precede maturation in other areas of the tongue. The total number of taste buds increased with increasing age, reached a maximum at 2 months of age: FF, 1069; SP, 609; CV-center, 530; CV-side, 390; FL, 201, and decreased thereafter. Almost all taste buds possessed a taste pore after 2 months of age. The decrease in the number of taste buds in the oral cavity with increase in age may change taste sensitivity.

Published

2000