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Aspartyl peptides, taste

Some peptides have special tastes. L-Aspartyl phenylalanine methyl ester is very sweet and is used as an artificial sweetener (see Sweeteners). In contrast, some oligopeptides (such as L-ornithinyltaurine HQ. and L-oriuthinyl-jB-alariine HQ), and glycine methyl or ethyl ester HQ have been found to have a very salty taste (27). [Pg.272]

Aspartame (L-aspartyl-L-phenylalanine methyl ester [22839-47-0]) is about 200 times sweeter than sucrose. The Acceptable Daily Intake (ADI) has been estabUshed by JECFA as 40 mg/kg/day. Stmcture-taste relationship of peptides has been reviewed (223). Demand for L-phenylalanine and L-aspartic acid as the raw materials for the synthesis of aspartame has been increasing, d-Alanine is one component of a sweetener "Ahtame" (224). [Pg.296]

The analysis, in composite over the four classes of L-aspartyl dipeptides suggests that the electron-withdrawing effect of substituents directed to the peptide bond, and the steric dimensions of the molecules, are important in eliciting the sweet taste. The values of the regression coefficients of the a term in the QSAR equations for L-aspartic acid amides, L-aspartylaminoethylesters, and L-aspartylaminopropionates all... [Pg.24]

Aspartame. Aspartame [22839-47-0] [53906-69-1] (APM, L-aspartyl-L-phenylalanine methyl ester) (1), also known under the trade names of NutraSweet and EQUAL, is the most widely used nonnutritive sweetener worldwide. This dipeptide ester was synthesized as an intermediate for an antiulcer peptide at G. D. Searle in 1965. Although this compound was known in the literature, its sweet taste was serendipitously discovered when a chemist licked his finger which was contaminated with it. Many analogues, especially the more stable esters, were made (6) and their taste qualities and potencies determined. It was the first compound to be chosen for commercial development. Following the purchase of G. D. Searle by Monsanto, the aspartame business was split off to become a separate Monsanto subsidiary called the NutraSweet Company. [Pg.272]

Other peptides, such as L-aspartyl-L-phenylalanine methyl ester (aspartame), have a sweet taste. Several studies have been carried out to relate the structure and taste of analogs of this dipeptide (25). Tsang et al. (26) reported that the analogs at the lower end of the L-aspartyl-a-aminocycloalkanecarboxylic acid methyl ester series were sweet, the dipeptides containing a-... [Pg.101]

After the finding of a sweet taste in L-Asp-L-Phe-OMe (aspartame) by Mazur et at. (6), a number of aspartyl dipeptide esters were synthesized by several groups in order to deduce structure-taste relationships, and to obtain potent sweet peptides. In the case of the peptides, the configuration and the conformation of the molecule are important in connection with the space-filling properties. The preferred conformations of amino acids can be shown by application of the extended Hiickel theory calculation. However, projection of reasonable conformations for di- and tripeptide molecules is not easily accomplished. [Pg.133]

In the course of investigations of aspartyl dipeptide esters, we had to draw their chemical structures in a unified formula. In an attempt to find a convenient method for predicting the sweettasting property of new peptides and, in particular, to elucidate more definite structure-taste relationships for aspartyl dipeptide esters, we previously applied the Fischer projection technique in drawing sweet molecules in a unified formula 04). [Pg.133]

The sweet-tasting property of aspartyl dipeptide esters has been successfully explained on the basis of the general structures shown in Figure 1 (4). A peptide will taste sweet when it takes... [Pg.133]

Therefore, we have concluded that sweet-tasting aspartyl dipeptide esters can be drawn as the unified formula (A), whereas nonsweet peptides as (B) as shown in Figure 1. [Pg.140]

Further examinations of the molecular features and of the model of receptor have suggested that several aspartyl tripeptide esters may also taste sweet. In confirmation of the idea, several tripeptide esters have been synthesized. In the first place, L-Asp-Gly-Gly-OMe (38) was synthesized as an arbitrarily-selected standard of tripeptides, because it was considered that this peptide ester had the simplest structure, and correlation of other peptides to (38) was easy. The tripeptide ester was predicted that it would be slightly sweet or tasteless because its projection formula was similar in size and shape to that of L-Asp-Gly-0Bum which is 13 times sweeter than sucrose (16) and because it is more hydrophilic than the dipeptide. The tripeptide (38) was devoid of sweetness and almost tasteless. [Pg.142]

Finally, L-Asp-D-Val-Gly-OMe (41) was synthesized in order to see whether it remained sweet. The peptide was devoid of sweetness and almost tasteless, though D-valine-containing aspartyl dipeptide esters such as L-Asp-D-Val-0Pr (17) and L-Asp-D-Val-OPrt (8, 17), which are similar to the tripeptide ester in size and shape and have potent sweet taste. [Pg.142]

The sweet taste of aspartic acid dipeptide esters (I) was discovered by chance in 1969 for a-L-aspartyl-L-phenylalanine methyl ester ( Aspartame , NutraSweet ). The corresponding peptide ester of L-aminomalonic acid (II) is also sweet. [Pg.37]

See other pages where Aspartyl peptides, taste is mentioned: [Pg.263]    [Pg.272]    [Pg.102]    [Pg.140]    [Pg.11]    [Pg.250]   
See also in sourсe #XX -- [ Pg.136 , Pg.137 ]



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