TASTE-IMPROVING AGENT FOR FOODS AND DRINKS

Abstract
Provided are a taste-improving agent for foods and drinks, a method of improving the taste of a food or a drink, and a food or a drink having an improved taste. A taste-improving agent for foods and drinks which comprises a long-chain highly unsaturated fatty acid and/or an ester thereof and a sterol and/or a sterol ester; a method of improving the taste of a food or a drink which comprises adding the taste-improving component as described above; a food or a drink the taste of which has been improved by the above method; and use of a combination of a long-chain highly unsaturated fatty acid and/or an ester thereof with a sterol and/or a sterol ester as a taste-improving agent for foods and drinks.
Description
TECHNICAL FIELD

The present invention relates to a taste-improving agent comprising a long-chain highly unsaturated fatty acid and/or an ester thereof, and a sterol and/or a sterol ester, a method for improving taste by the addition of said taste-improving agent and foods and drinks whose taste has been improved by said method.


TECHNICAL BACKGROUND

Arachidonic acid (cis-5,8,11,14-eicosatetraenoic acid) belongs to long-chain highly unsaturated (polyunsaturated) fatty acids, and Exampleists in a phospholipid derived from animal organs or tissues. This fatty acid is an essential one, and is very important as a precursor for the synthesis of prostaglandin, thromboxane, leukotriene, etc


Attempts have been made to add the long-chain highly unsaturated fatty acids such as arachidonic acid and esters thereof for enrichment of nutrition and provision of various physiological functions in view of the above remarkable functions of arachidonic acid.


An enriched composition described in Japanese Patent Application laid open Hei 10 (1998)-99048 comprises arachidonic acid in an amount of 0.1˜10% by weight as one of the components added for realizing a composition similar to that of mother's milk.


Japanese Patent Application laid open Hei 11 (1999)-89513 discloses a synthetic fat and oil composition similar to human milk fat and oil, in which n-6 long-chain highly unsaturated fatty acid such as arachidonic acid, is used as one of the constituting fatty acids of triglyceride.


Furthermore, Japanese Patent Application laid open Hei 10 (1998) -70992 and Japanese Patent Application laid open Hei 10 (1998) -191886 disclose edible oil derived from microorganism, which has a lot of arachidonic acid in a form of triglyceride. Its preferred application includes modified milk for a premature baby or an infant, food and drink for infant, and food and drink for a pregnant woman.


Japanese Patent Application laid open Hei 9 (1997) -13075 discloses fat and oil consisting of glyceride comprising long-chain highly unsaturated fatty acids such as arachidonic acid, and having a function of reducing the concentration of fatty and oil in blood. On the other hand, Japanese Patent Application laid open Hei 9 (1997) -13076 discloses fat and oil with the same composition as the above one, having a function of inhibiting platelet aggregation.


A seasoning is listed as an Example of application of highly unsaturated fatty acids in the field of food. The Japanese Patent Application laid open 2001-78702 discloses a seasoning having enriched mildness, after taste, and UMAMI, which is prepared by mixing fat and oil with extract into an oil-in-water-type emulsion. The Japanese Patent No. 3220155 discloses a flavoring composition which is prepared by oxidization of fatty acids except milk fat.


U.S. Pat. No.3,689,289 disclosed a method for the production of artificial chicken flavor comprising reacting a reduced sugar, an amino acid and arachidonic acid or its methyl ester with heating under particular conditions. International Publication WO2003/051139 pamphlet describes that use of arachidonic acid in the form of its ester with glycerine in said method will provide purified chicken flavor with thermal resistance and stability. These effects are all due to artificial chicken-like flavor generated from a heated product of the three components of the sugar, amino acid and arachidonic acid.


Furthermore, Japanese Patent Application laid open 2002 -95439 discloses a seasoning comprising a long-chain highly unsaturated fatty acid glyceride. The purpose of this invention is to increase oxidation-stability of the long-chain highly unsaturated fatty acid glyceride that is liable to deterioration by oxidation. For that purpose, the long-chain highly unsaturated fatty acid glyceride is added to fermented and processed soybean food, to fermented and processed fishery products, or to a seasoning comprising tomato ingredient as a main component.


Japanese Patents No. 3729272 and No. 3962068 disclose a body-taste (“kokumi”) improver comprising n-6 long-chain highly unsaturated fatty acid and/or its ester. They have demonstrated that the body taste of food can be improved and taste of food can be elicited by adding the long-chain highly unsaturated fatty acid such as arachidonic acid and/or its ester alone to the food, or by subjecting the food to oxidation treatment such as heat cooking with vegetable fat and oil composition comprising said long-chain highly unsaturated fatty acid. WO2005/004634 discloses that the body taste of food can be improved by the addition of a decomposed product of the long-chain highly unsaturated fatty acid and/or its ester, and extract of the decomposed product to the food. WO2005/046653 discloses that addition of the long-chain highly unsaturated fatty acid and/or its ester to food can show a variety of their functions such as improving taste or flavor as well as improving the body taste of the food.


It is known that fat and oil comprising sterol and/or sterol ester as phytosterol has an advantage of reducing cholesterol in blood and liver (Japanese Patent Application laid open 2002-112723). Sterol and/or sterol ester are also generally used as materials for the production of pharmaceuticals and an emulsifying agent or emulsion-stabilizer in cosmetics and foods.


Thus, the prior arts described above show various functions and body taste-improving effects of the long-chain highly unsaturated fatty acid and/or the ester thereof, and sterol and/or sterol ester. However, they do not disclose or suggest use of a combination of the long-chain highly unsaturated fatty acid such as arachidonic acid and/or the ester thereof, and the sterol and/or sterol ester for the purpose of improving taste. They do not have any description, either, which suggests the possibility of a synergistic effect of improving taste due to said combination.


Patent Document 1: Japanese Patent Application laid open Hei 10 (1998)-99048


Patent Document 2: Japanese Patent Application laid open Hei 11 (1999)-89513


Patent Document 3: Japanese Patent Application laid open Hei 10 (1998)-70992


Patent Document 4: Japanese Patent Application laid open Hei 10 (1998)-191886


Patent Document 5: Japanese Patent Application laid open Hei 9 (1997) -13075


Patent Document 6: Japanese Patent Application laid open Hei 9 (1997) -13076


Patent Document 7: Japanese Patent Application laid open 2001 -78702


Patent Document 8: Japanese Patent No. 3220155

Patent Document 9: U.S. Pat. No. 3,689,289


Patent Document 10: WO2003/051139

Patent Document 11: Japanese Patent Application laid open 2002-95439


Patent Document 12: Japanese Patent No. 3729272
Patent Document 13: Japanese Patent No. 3962068

Patent Document 14: WO2005/004634 pamphlet


Patent Document 15: WO2005/046653 pamphlet


Patent Document 16: WO2005/046354 pamphlet


Patent Document 17: Japanese Patent Application laid open 2002-112723


DISCLOSURE OF THE INVENTION
Problem to be Solved by the Invention

The purpose of the present invention is to provide a taste-improving agent for foods and drinks, a method for improving the taste of foods and drinks, and foods and drinks having an improved taste.


The present invention relates to a taste-improving agent comprising a long-chain highly unsaturated fatty acid and/or an ester thereof and a sterol and/or a sterol ester, a method for improving the taste of foods and drinks by the addition of said taste-improving agent, foods and drinks whose taste has been improved by said method, and use of the combination of the long-chain highly unsaturated fatty acid and/or an ester thereof, and the sterol and/or sterol ester as a taste-improving agent.


Advantages of the Invention

According to the present invention, synergistic effects of improving taste are obtained by adding two components, that is, a long-chain highly unsaturated fatty acid and/or an ester thereof, and a sterol and/or a sterol ester, to foods and drinks. As a result, the present invention enables to provide foods and drinks having an improved taste with a lower amount of taste ingredients than in an usual case, or foods and drinks having an improved taste with the same amount of taste ingredients as that in an usual case, more specifically foods and drinks having an enhanced body taste, salty taste, sweet taste, acid taste and the like.







BEST MODE FOR CARRYING OUT THE INVENTION

The terms “to improve taste” in the present specification mean to improve or enhance each taste that foods and drinks originally have, more specifically, to improve or enhance each taste of the foods and drinks such as body taste, salty taste, sweet taste, and acid taste depending on their original taste and flavor. Thus, the two components comprised as an active ingredient in the taste-improving agent according to the present invention, the long-chain highly unsaturated fatty acid and/or the ester thereof, and the sterol and/or the sterol ester, will function as an enhancing ingredient of each taste. Thus, the taste-improving agent according to the present invention will act or function as a “body taste enhancer”, a “salty taste enhancer”, a “sweet taste enhancer” and an “acid taste enhancer” depending on a kind, ingredients and the like of the foods and drinks to which the above taste-improving agent is added.


The “long-chain highly unsaturated fatty acid” in the present specification means a fatty acid having 20 or more of carbon atoms and 3 or more of double bonds in the case of n-3 long-chain highly unsaturated fatty acids, and a fatty acid having 18 or more of carbon atoms and 3 or more of double bonds in the case of n-6 long-chain highly unsaturated fatty acids. A long-chain highly unsaturated fatty acid having 20-24 carbon atoms and 4-6 double bonds is preferred in both cases. Examples of the n-6 long-chain highly unsaturated fatty acids include arachidonic acid (AA) and docosatetraenoic acid (DTA), arachidonic acid being preferable. Examples of the n-3 long-chain highly unsaturated fatty acids include docosahExampleaenoic acid (DHA) and eicosapentaenoic acid (EPA).


There is no limitation on an origin of the long-chain highly unsaturated fatty acid such as arachidonic acid and its ester used in the present invention. Those skilled in the art may optionally use those derived from various animals and vegetables, microorganisms and algae that are commercially available.


For Example, Japanese Patent Applications laid open Hei 10 (1998)-70992 and Hei 10 (1998)-191886 disclose edible fat and oil derived from bacteria, which comprises a lot of arachidonic acid in a form of triglyceride. The arachidonic acid may be therefore obtained from said edible fat and oil.


It is also possible to mix and use together two or more kinds of the long-chain highly unsaturated fatty acids, or the long-chain highly unsaturated fatty acids that have different origins but belong to the same kind.


There is no limitation on structure and preparation of the ester of the long-chain highly unsaturated fatty acid, and monohydric and polyhydric alcohols may be used as alcohol that constitutes the above ester. Glycerol is one of the preferred Examples of the polyhydric alcohols in view of safety and cost. The glycerol will constitute tri-glyceride, di-glyceride or mono-glyceride. Other fatty acids besides the long-chain highly unsaturated fatty acid may be contained as fatty acids that constitute the ester of the present invention. Furthermore, a ratio between a free acid and its ester may be optionally determined.


There is no limitation on a method for oxidization treatment of the n-3 long-chain highly unsaturated fatty acid and/or the ester thereof, which, for Example, includes heating treatment. There is no limitation on a method for heating treatment, either. It is not necessary to carry out the oxidization treatment in the presence of an antioxidant, or in a closed system. The heating may therefore be normally carried out at 40° C.˜200° C. for 0.1˜240 hours, preferably at 80° C.˜180° C. for 0.5˜72 hours.


Although it is not necessary to subject the n-6 long-chain highly unsaturated fatty acid and/or the ester thereof to the oxidization treatment in order to effect the advantage of the taste-improving agent with the sterol and/or sterol ester, said advantages shall be further increased by the oxidization treatment. The oxidization treatment may also be done by heating the food and drinks which contain the taste-improving agent comprising long-chain highly unsaturated fatty acid and/or the ester thereof, and the sterol and/or sterol ester according to the present invention.


The term “sterol” is a generic designation of compounds having structure similar to cholesterol or its saturated-type compound, cholestanol, which are widely distributed among animals, plants, microorganisms and algae. The sterol and/or sterol ester may be derived from any sources known for those skilled in the art. Particularly, various kinds of phytosterol and any mixture thereof may be used as such, which are obtained from a lipid-soluble fraction of plants such as soybean, rape seed, rice bran and rice germ by means of any method known for those skilled in the art. The above mixture may optionally comprise other ingredients than the phytosterol or phytostanol, such as fatty acids, fatty acid esters, tocopherol, phospholipid and the like. Any combination of one or more kinds of the compounds selected from various phytosterol and phytostanol may be used, which are comprised as a constituent in the above mixture. Representative Examples of the constituent include β-sitosterol, β-sitostanol, stigmasterol, stigmastanol, campesterol, campestanol, brassicasterol and brassicastanol. In addition to natural phytostanols, the phytostanols may be prepared by hydrogenating phytosterols. A ratio between a free sterol and its ester may be optionally determined.


There is no limitation on the content of the long-chain highly unsaturated fatty acid and/or the ester thereof, and the sterol and/or the sterol ester, which are the active ingredient in the taste-improving agent according to the present invention. Said content may be optionally determined and adjusted depending on the kind of foods and drinks, the purpose of the addition of the present taste-improving agent. A ratio of the contents of the two active ingredients is not limited any way.


The taste-improving agent of the present invention may additionally contain other optional ingredients known to those skilled in the art, such as an emulsifier; tocopherols; phospholipids and other fatty acids; triglycerides, diglycerides and monoglycerides containing said other fatty acids as long as they will not deteriorate the advantages of the active ingredients of the present invention. Any known oil such as corn oil may be used as base.


There is no limitation on the kinds of foods and drinks, whose taste can be improved by the addition of the taste-improving agent according to the present invention. Examples of said foods and drinks are described in the present specification. An amount of the taste-improving agent to be added to the foods and drinks may be optionally selected and adjusted depending on the kind of the foods and drinks and the purpose of the addition of the agent. The taste-improving agent of the present invention may be optionally added to the foods and drinks at any time such as cooking time and eating time.


When the taste-improving agent of the present invention serves and functions as the body taste enhancer, the total foods and drink may comprise an amount of 0.1˜10,000 ppm, preferably of 1.0˜1,000 ppm, more preferably of 1.0 ppm˜500 ppm of the long-chain highly unsaturated fatty acid and/or the ester thereof; and an amount of 0.1˜10,000 ppm, preferably of 0.1 ppm˜500 ppm of the sterol and/or the sterol ester.


When the taste-improving agent of the present invention serves and functions as the salty taste enhancer, the total foods and drink may comprise an amount of 0.1˜10,000 ppm, preferably of 1.0˜1,000 ppm, more preferably of 1.0 ppm˜500 ppm of the long-chain highly unsaturated fatty acid and/or the ester thereof; and an amount of 0.1˜10,000 ppm, preferably of 0.1 ppm˜500 ppm of the sterol and/or the sterol ester.


When the taste-improving agent of the present invention serves and functions as the sweet taste enhancer, the total foods and drink may comprise an amount of 0.1˜10,000 ppm, preferably of 1.0˜1,000 ppm, more preferably of 1.0 ppm˜500 ppm of the long-chain highly unsaturated fatty acid and/or the ester thereof; and an amount of 0.1˜10,000 ppm, preferably of 0.1 ppm˜500 ppm of the sterol and/or the sterol ester.


When the taste-improving agent of the present invention serves and functions as the acid taste enhancer, the total foods and drink may comprise an amount of 0.1˜10,000 ppm, preferably of 1.0˜1,000 ppm, more preferably of 1.0 ppm˜500 ppm of the long-chain highly unsaturated fatty acid and/or the ester thereof; and an amount of 0.1˜10,000 ppm, preferably of 0.1 ppm˜500 ppm of the sterol and/or the sterol ester.


There is no limitation on a salty taste ingredient contained in the foods and drinks, including natural salt or non-natural salt, no limitation on the concentration of the salty taste ingredient, either, as long as it is suitable for the foods and drinks.


There is no limitation on a sweet taste ingredient contained in the foods and drinks as long as it is edible one, including sugar glucose, fructose, lactose, stevia and aspartame (artificial sweetener), or no limitation on the concentration of the acid taste ingredient, either, as long as it is suitable for the foods and drinks.


There is no limitation on an acid taste ingredient contained in the foods and drinks, including rice vinegar, cereal vinegar, black vinegar (brown rice vinegar) and apple vinegar, or no limitation on the concentration of the acid taste ingredient, either, as long as it is suitable for the foods and drinks.


The present invention will be Exampleplained in more detail with reference to the following Examples, which should not be construed as limiting a technical scope of the present invention.


EXAMPLE

Symbols used for evaluation in the following Examples mean as follows: “−”: no effect; “+”: the more its number is, the higher effect it shows


The following materials are used in the following Examples:

    • Corn oil: manufactured by J-Oil Mills, Inc.
    • Arachidonic acid triglyceride (AATG): “SUNTGA40S” manufactured by Suntory Ltd., arachidonic acid (AA) derived from microorganism, a purity of 40-45%
    • Diluted AATG: AATG diluted with corn oil to its final concentration of 0.5% by weight
    • Diluted sterol ester: phytosterol manufactured by Yashiro Co.,Ltd. having sterol ester content of 92% (a free sterol concentration of 56%) diluted with corn oil to its final concentration of 0.5% by weight
    • Diluted and oxidized AA: AATG oxidized at 120° C. for 3 hours and diluted with corn oil to its final concentration of 0.5% by weight


Phytosterol Manufactured by Yashiro Co.,Ltd.





    • Starting material:
      • Mixture of the scum of soybean and rapeseed (the ratio of 86.14:13.86)

    • A total sterol content of 13% by weight (the total sterol content of soy bean scum and rapeseed scum are 12.1% and 18.5%, respectively).





The starting material is subjected to ester exchange reaction with enzyme to give sterol ester, followed by molecular distillation.


Sterol ester content of 92.1% (a free sterol concentration of about 56.4%) Composition of sterol esters, and free sterols in parentheses manufactured by Yashiro Co.,Ltd:

  • Brassicasterol 5.3% (3.0%);
  • Campesterol 26% (14.6%);
  • Stigmasterol 18.9% (10.7%); and
  • β-Sitosterol 49.2% (27.7%).


Experiment 1

Evaluation with Sugar Solution (Effect of the Addition of AATG and Sterol Ester on a Sweetener)


Comparative Example 1

Corn oil only (control);


Comparative Example 2

Diluted sterol ester;


Comparative Example 3
Diluted AATG; and
Example 1

Diluted sterol ester+Diluted AATG.


As shown in Table 1, each of Comparative Examples 1-3 and Example 1, water and sugar were weighed and mixed. The resulting mixture was boiled in a pan and kept at 60° C., for a sensory evaluation by five taste-panelists. The results are shown in Table 2.














TABLE 1







Comparative
Comparative
Comparative
Example



Example 1
Example 2
Example 3
1
























Water
179.5
g
179.5
g
179.5
g
179
g


Sugar
20.0
g
20.0
g
20.0
g
20.0
g
















Oil
Corn oil
0.5
g









Diluted




0.5
g
0.5
g



AATG















Diluted sterol


0.5
g


0.5
g


ester





















TABLE 2







Comparative
Comparative
Comparative




Example 1
Example 2
Example 3
Example 2




















Strength of
+
+
++
+++++


sweet taste









While no sweet taste-enhancing effect was recognized in Comparative Example 2 wherein the sterol ester was added, a sweet taste-enhancing effect was recognized in Comparative Example 3 wherein the ATGG was added. On the other hand, the sweet taste-enhancing effect was more increased in Example 1 than in Comparative Examples 2 and 3, showing a synergistic effect.


Experiment 2

Evaluation with Chocolate Spread (Effect of the Addition of AATG and Sterol Ester)


Comparative Example 4

Corn oil only (control);


Comparative Example 5

Diluted sterol ester;


Comparative Example 6
Diluted AATG; and
Example 2

Diluted sterol ester+Diluted AATG.


Chocolate spread: Chocolate cream manufactured by Meiji Dairies Corporation


As shown in Table 3, each of Comparative Examples 4˜6 and Example 2, and chocolate spread were weighed and mixed with each other. The resulting mixture was subjected to a sensory evaluation by five taste-panelists. The results are shown in Table 4.














TABLE 3







Comparative
Comparative
Comparative
Example



Example 4
Example □
Example □
2




















Chocolate spread
20.0 g
20.0 g
20.0 g
20.0 g 












Oil
Corn oil
 0.5 g






Diluted


 0.5 g
0.5 g



AATG











Diluted sterol

 0.5 g

0.5 g


ester





















TABLE 4







Comparative
Comparative
Comparative




Example 4
Example 5
Example 6
Example 2




















Strength of
+
+
++
+++++


sweet taste









While no sweet taste-enhancing effect was recognized in Comparative Example 5 wherein the sterol ester was added, a sweet taste-enhancing effect was recognized in Comparative Example 6 wherein the ATGG was added. On the other hand, the sweet taste-enhancing effect was more increased in Example 2 than in Comparative Examples 5 and 6, showing a synergistic effect.


Experiment 3

Evaluation with Condensed Milk (Effect of the Addition of AATG and Sterol Ester)


Comparative Example 7

Corn oil only (control);


Comparative Example 8

Diluted sterol ester;


Comparative Example 9
Diluted AATG; and
Example 3

Diluted sterol ester+Diluted AATG.


Condensed milk: Snow Brand Hokkaido Condensed Milk manufactured by Snow Brand Milk Products Co.,Ltd.


As shown in Table 5, each of Comparative Examples 7˜9 and Example 3, and condensed milk were weighed and mixed with each other. The resulting mixture was subjected to a sensory evaluation by five taste-panelists. The results are shown in Table 6.














TABLE 5







Comparative
Comparative
Comparative
Example



Example 7
Example 8
Example 9
3




















Condensed milk
20.0 g
20.0 g
20.0 g
20.0 g 












Oil
Corn oil
 0.5 g






Diluted


 0.5 g
0.5 g



AATG











Diluted sterol

 0.5 g

0.5 g


ester





















TABLE 6







Comparative
Comparative
Comparative




Example 7
Example 8
Example 9
Example 3




















Strength of
+
+
++
+++++


sweet taste









While no sweet taste-enhancing effect was recognized in Comparative Example 8 wherein the sterol ester was added, a sweet taste-enhancing effect was recognized in Comparative Example 9 wherein the ATGG was added. On the other hand, the sweet taste-enhancing effect was more increased in Example 3 than in Comparative Examples 8 and 9, showing a synergistic effect.


Experiment 4

Evaluation with Corn Cream Soup (Effect of the Addition of AATG and Sterol Ester)


Comparative Example 10

Corn oil only (control);


Comparative Example 11

Diluted sterol ester;


Comparative Example 12
Diluted AATG; and
Example 4

Diluted sterol ester+Diluted AATG.


Corn cream soup powder: “Knorr cup soup, corn cream” manufactured by Ajinomoto Co., Inc.


As shown in Table 7, each of Comparative Examples 10˜12 and Example 4, and soup powder were weighed and mixed with boiling water. The resulting mixture was subjected to a sensory evaluation by five taste-panelists. The results are shown in Table 8.














TABLE 7







Comparative
Comparative
Comparative
Example



Example 10
Example 11
Example 12
4
























Soup powder
19.6
g
19.6
g
19.6
g
19.6
g
















Oil
Corn oil
0.5
g









Diluted




0.5
g
0.5
g



AATG















Diluted sterol


0.5
g


0.5
g


ester


Boiling water
150
g
150
g
150
g
150
g





















TABLE 8







Comparative
Comparative
Comparative




Example 10
Example 11
Example 12
Example 4




















Strength of
+
+
++
+++++


sweet taste









While no sweet taste-enhancing effect was recognized in Comparative Example 11 wherein the sterol ester was added, a sweet taste-enhancing effect was recognized in Comparative Example 12 wherein the ATGG was added. On the other hand, the sweet taste-enhancing effect was more increased in Example 4 than in Comparative Examples 11 and 12, showing a synergistic effect.


Experiment 5

Evaluation with Salt Solution (Effect of the Addition of AATG and Sterol Ester)


Comparative Example 13

Corn oil only (control);


Comparative Example 14

Diluted sterol ester;


Comparative Example 15

Diluted Riceterol ester;


Comparative Example 16
Diluted AATG; and
Example 5

Diluted sterol ester+Diluted AATG.


Example 6

Diluted Riceterol ester+Diluted AATG.


Diluted Riceterol: “Riceterol™” ester diluted with corn oil to a final ester concentration of 0.5% by weight


“Riceterol™” manufactured by TSUNO CO., LTD.

    • A mixture of esters of phytosterol and triterpene alcohol with fatty acids, obtained by rice bran and rice germ
    • Sterol ester content of 82.3% (a free sterol concentration of about 50.8%)
    • Composition of the sterol esters, and free sterols in parentheses in Table 9:












TABLE 9










Brassica

0.1%



Campe
9.1%



Stigma
2.4%



7-Ergo
0.5%



Sito
9.5%



Isofuco
0.9%



7-Stigma
0.2%



Cycloartenol
10.3%



2,4 Methylene
15.6%



Cyclobranol
2.1%



In a narrow sense
22.7%



Triterpene alcohol
28.1%



Total Amount
50.8%










As shown in Table 10, each of Comparative Examples 13˜16 and Examples 5 and 6, water and common salt were weighed and mixed. The resulting mixture was boiled in a pan and kept at 60° C. for a sensory evaluation by five taste-panelists. The results are shown in Table 11.
















TABLE 10







Comparative
Comparative
Comparative
Comparative
Exam-
Exam-



Example 13
Example 14
Example. 15
Example 16
ple. 5
ple. 6






















Water
197.9 g 
197.9 g 
197.9 g 
197.9 g 
197.4 g 
197.4 g 


Salt
1.6 g
1.6 g
1.6 g
1.6 g
1.6 g
1.6 g














Oil
Corn oil
0.5 g








Diluted AATG



0.5 g
0.5 g
0.5 g













Diluted sterol ester

0.5 g


0.5 g



Diluted Riceterol ester


0.5 g


0.5 g























TABLE 11







Comparative
Comparative
Comparative
Comparative
Example
Example



Example 13
Example 14
Example 15
Example 16
5
6






















Strength of
+
+□++
+□++
++
+++++
+++++


salty taste


Effect of inhibiting



++
++
++


the harshness due to


salty taste









Although a salty taste-enhancing effect was recognized in Comparative Examples 14 and 15 wherein the sterol ester and Riceterol were added, respectively, harshness due to salty taste was observed, too. In other words, there was no difference in texture of the taste between the control and these Comparative Examples. An effect of inhibiting the harshness (taste-improving and taste-enhancing effects) was recognized in Comparative Example 16 wherein the ATGG was added in addition to the salty taste-enhancing effect. On the other hand, the salty taste was more increased in Examples 5 and 6 than in Comparative Examples 14, 15 and 16, showing a synergistic effect.


Experiment 6

Evaluation with Chicken Stock (Effect of the Addition of AATG and Sterol Ester)


Comparative Example 17

Corn oil only (control);


Comparative Example 18

Diluted sterol ester;


Comparative Example 19
Diluted AATG; and
Example 7

Diluted sterol ester+Diluted AATG.


Condensed Soup: “Condensed chicken stock soup” manufactured by Ajinomoto CO., Inc.


As shown in Table 12, each of Comparative Examples 17˜19 and Example 7, water and condensed soup were weighed and mixed with each other. The resulting mixture was boiled in a pan and kept at 60° C. for a sensory evaluation by five taste-panelists. The results are shown in Table 13.














TABLE 12







Comparative
Comparative
Comparative
Exam-



Example. 17
Example. 18
Example. 19
ple. 7
























Water
300
g
300
g
300
g
300
g


Condensed Soup
5.0
g
5.0
g
5.0
g
5.0
g
















Oil
Corn oil
0.5
g









Diluted




0.5
g
0.5
g



AATG















Diluted sterol


0.5
g


0.5
g


ester





















TABLE 13







Comparative
Comparative
Comparative
Exam-



Example. 17
Example. 18
Example. 19
ple. 7




















Strength of
+
+□++
++
+++++


salty taste


Effect of inhibiting


++
++


the harshness due to


salty taste









Although a salty taste-enhancing effect was recognized in Comparative Example 18 wherein the sterol ester was added, harshness due to salty taste was observed, too. In other words, there was no difference in texture of the taste between the control and the Comparative Example. An effect of inhibiting the harshness (taste-improving and taste-enhancing effects) was recognized in Comparative Example 19 wherein the ATGG was added in addition to the salty taste-enhancing effect. On the other hand, the salty taste-enhancing effect was more increased in Example 7 than in Comparative Examples 18 and 19, showing a synergistic effect.


Experiment 7

Evaluation with Margarine (Effect of the Addition of AATG and Sterol Ester)


Comparative Example 20

Corn oil only (control);


Comparative Example 21

Diluted sterol ester;


Comparative Example 22
Diluted AATG; and
Example 8

Diluted sterol ester+Diluted AATG.


Margarine (Fast spread): “Neo-Soft” manufactured by Snow Brand Milk Products Co.,Ltd


As shown in Table 14, each of Comparative Examples 20˜22 and Example 8, and margarine were weighed and mixed with each other. The resulting mixture was subjected to a sensory evaluation by five taste-panelists. The results are shown in Table 15.














TABLE 14







Comparative
Comparative
Comparative
Exam-



Example. 20
Example. 21
Example. 22
ple. 8




















Margarine
20.0 g
20.0 g
20.0 g
20.0 g 












Oil
Corn oil
 0.5 g






Diluted


 0.5 g
0.5 g



AATG











Diluted sterol

 0.5 g

0.5 g


ester





















TABLE 15







Comparative
Comparative
Comparative
Exam-



Example. 20
Example. 21
Example. 22
ple. 8




















Strength of
+
+
++
++++


salty taste









Although no salty taste-enhancing effect was recognized in Comparative Example 21 wherein the sterol ester was added, a salty taste-enhancing effect was recognized in Comparative Example 22 wherein the ATGG was added. On the other hand, the salty taste-enhancing effect was more increased in Example 8 than in Comparative Examples 21 and 22, showing a synergistic effect.


Experiment 8

Evaluation with Vinegar Solution (Effect of the Addition of AATG and Sterol Ester)


Comparative Example 23

Corn oil only (control);


Comparative Example 24

Diluted sterol ester;


Comparative Example 25
Diluted AATG; and
Example 9

Diluted sterol ester +Diluted AATG.


Cereal Vinegar: manufactured by Mizkan Corporation


As shown in Table 16, each of Comparative Examples 23-25 and Example 9, water and vinegar were mixed. The resulting mixture was boiled in a pan and kept at 60° C. for a sensory evaluation by five taste-panelists. The results are shown in Table 17.














TABLE 16







Comparative
Comparative
Comparative
Exam-



Example. 23
Example. 24
Example. 25
ple. 9





















Water
179.5 g
179.5 g
179.5 g
179
g


Vinegar
 20.0 g
 20.0 g
 20.0 g
200
g













Oil
Corn oil
 0.5 g







Diluted


 0.5 g
0.5
g



AATG












Diluted sterol

 0.5 g

0.5
g


ester





















TABLE 17







Comparative
Comparative
Comparative
Exam-



Example 23
Example 24
Example 25
ple 9




















Effect of


++
++


inhibiting the


harshness


due to acid


taste


Increase in


++
+++++


sense of


richness


Strength of


++
+++++


acid taste









No effect of inhibiting harshness due to acid taste (taste-improving and taste-enhancing effects) was recognized in Comparative Example 24 wherein the sterol ester was added. The effect of inhibiting the harshness was recognized in Comparative Example 25 wherein the ATGG was added. A sense of richness and strength of acid taste were also increased in this Comparative Example. In Example 9, the harshness first felt in Comparative Examples 24 and 25 disappeared and acid taste was recognized later than in Comparative Examples 24 and 25. The sense of richness and strength of acid taste were also more increased than in Comparative Examples 24 and 25, showing a synergistic effect.


Experiment 9

Evaluation with Tomato Sauce (Effect of the Addition of AATG and Sterol Ester)


Comparative Example 26

Corn oil only (control);


Comparative Example 27

Diluted sterol ester;


Comparative Example 28
Diluted AATG; and
Example 10

Diluted sterol ester+Diluted AATG.


Tomato Sauce: manufactured by KAGOME CO., Ltd.


As shown in Table 18, each of Comparative Examples 26˜28 and Example 10, and tomato sauce were weighed and mixed with each other. The resulting mixture was subjected to a sensory evaluation by five taste-panelists. The results are shown in Table 19.














TABLE 18







Comparative
Comparative
Comparative
Exam-



Example 26
Example 27
Example 28
ple 10




















Tomato Sauce
20.0 g
20.0 g
20.0 g
20.0 g 












Oil
Corn oil
 0.5 g






Diluted


 0.5 g
0.5 g



AATG











Diluted sterol

 0.5 g

0.5 g


ester





















TABLE 19







Comparative
Comparative
Comparative
Exam-



Example 26
Example 27
Example 28
ple 10




















Effect of


++
++++


inhibiting the


harshness


due to acid


taste


Strength of
+
+
++
++++


salty taste


Increase in


++
++++


sense of


richness


Strength of


++
+++++


acid taste









No effect of inhibiting harshness due to acid taste (taste-improving and taste-enhancing effects) was recognized in Comparative Example 27 wherein the sterol ester was added. The effect of inhibiting the harshness was recognized in Comparative Example 28 wherein the ATGG was added. A sense of richness and strength of acid taste were also increased in this Comparative Example. In Example 10, the effect of inhibiting harshness, the sense of richness and the strength of acid taste were also more increased than in Comparative Examples 27 and 28, showing a synergistic effect. The same increase was also found in salty taste.


Experiment 10

Evaluation with Intermediary Enriched Sauce (Effect of the Addition of AATG and Sterol Ester)


Comparative Example 29

Corn oil only (control);


Comparative Example 30

Diluted sterol ester;


Comparative Example 31
Diluted AATG; and
Example 11

Diluted sterol ester+Diluted AATG.


Intermediary Enriched Sauce: manufactured by BULL-DOG SAUCE CO.,LTD


As shown in Table 20, each of Comparative Examples 29˜31 and Example 11, and intermediary enriched sauce were weighed and mixed with each other.


The resulting mixture was subjected to a sensory evaluation by five taste-panelists. The results are shown in Table 21.














TABLE 20







Comparative
Comparative
Comparative
Exam-



Example 29
Example 30
Example 31
ple 11




















Intermediary
50.0 g
50.0 g
50.0 g
50.0 g 


Enriched Sauce












Oil
Corn oil
 0.5 g






Diluted


 0.5 g
0.5 g



AATG











Diluted sterol

 0.5 g

0.5 g


ester





















TABLE 21







Comparative
Comparative
Comparative
Exam-



Example 29
Example 30
Example 31
ple 11




















Effect of


++
++++


inhibiting the


harshness


due to acid


taste


Strength of
+
+
++
++++


salty taste


Increase in


++
++++


sense of


richness


Strength of


++
+++++


acid taste









No effect of inhibiting harshness due to acid taste (taste-improving and taste-enhancing effects) was recognized in Comparative Example 30 wherein the sterol ester was added. The effect of inhibiting the harshness was recognized in Comparative Example 31 wherein the ATGG was added. A sense of richness and strength of acid taste were also increased in this Comparative Example. In Example 11, the effect of inhibiting harshness, the sense of richness and the strength of acid taste were also more increased than in Comparative Examples 30 and 31, showing a synergistic effect. The same increase was also found in salty taste.


Experiment 11

Evaluation with Salt Solution (Effect of the Oxidation of AATG)


Comparative Example 32

Corn oil only (control);


Comparative Example 33

Diluted sterol ester;


Comparative Example 34
Diluted AATG; and
Comparative Example 35

Diluted and oxidized AA; and


Example 12

Diluted sterol ester+Diluted AATG.


Example 13

Diluted sterol ester+Diluted and oxidized AA.


As shown in Table 22, each of Comparative Examples 32˜35 and Examples 12 and 13, water and common salt were mixed. The resulting mixture was boiled in a pan and kept at 60° C. for a sensory evaluation by five taste-panelists. The results are shown in Table 23.
















TABLE 22







Comparative
Comparative
Comparative
Comparative
Exam-
Exam-



Example 32
Example 33
Example 34
Example 35
ple 12
ple 13






















Water
197.9 g 
197.9 g 
197.9 g 
197.9 g 
197.4 g 
197.4 g 


Salt
1.6 g
1.6 g
1.6 g
1.6 g
1.6 g
1.6 g














Oil
Corn oil
0.5 g








Diluted


0.5 g

0.5 g



AATG



Diluted and



0.5 g

0.5 g



oxidized AA













Diluted sterol ester

0.5 g


0.5 g
0.5 g























TABLE 23







Comparative
Comparative
Comparative
Comparative
Exam-
Exam-



Example 32
Example 33
Example 34
Example 35
ple 12
ple 13






















Strength of
+
+□++
++
+++
+++++
+++++++


salty taste


Effect of inhibiting


++
++
++
++


the harshness due to


salty taste









Although a salty taste-enhancing effect was recognized in Comparative Example 33 wherein the sterol, harshness due to salty taste was observed, too. In other words, there was no difference in texture of the taste between the control and this Comparative Example. An effect of inhibiting the harshness (taste-improving and taste-enhancing effects) was recognized in Comparative Example 34 wherein the ATGG was added in addition to the salty taste-enhancing effect in addition to the salty taste-enhancing effect. The salty taste-enhancing effect was further increased in Comparative Example 35 wherein the oxidized AA were added.


On the other hand, the salty taste was more increased in Example 12 than in Comparative Examples 33 and 34, showing a synergistic effect. The salty taste was much more increased in Example 13 wherein the sterol ester and the oxidized AA were added, showing a synergistic effect


Experiment 12
Taste-Improving Effect in Body-Taste Improver and Effect of Keeping Body-Taste in Reduced Body-Taste Improver

Evaluation by a sensory test:


In sensory evaluation by a sensory test, the improvement of body taste refers to the increase in “strength of flavor”, “strength of taste” and “strength of aftertaste” without any deterioration of “goodness of flavor”, “goodness of taste” and “goodness of aftertaste”, respectively. The meanings of the symbols for evaluation are as follows:

  • X: weaker or less preferable than control;
  • □: the same degree as control;
  • ∘: stronger or more preferable than control; and
  • □: much stronger or much more preferable than control


Phytosterol manufactured by Yashiro Co.,Ltd. having sterol ester content of 92% (a free sterol concentration of 56%) was used as sterol ester.


Effect of Sterol as Body-Taste Enhancer

Body-taste improver was prepared by mixing the long-chain highly unsaturated fatty acid and/or the ester thereof, the sterol ester and vegetable oil (corn oil).











TABLE 24







Body-taste improver

















Comparative Example 36
0.5% AATG/corn oil


Comparative Example 37
0.25% AATG/corn oil


Example 14
0.5% AATG□5 ppm sterol ester/corn oil


Example 15
0.5% AATG□50 ppm sterol ester/corn oil


Example 16
0.5% AATG□500 ppm sterol ester/corn oil


Example 17
0.5% AATG□5000 ppm sterol ester/corn oil


Example 18
0.25% AATG□500 ppm sterol ester/corn oil























TABLE 25






Comparative
Comparative
Example
Example
Example
Example
Example


Prepared oil
Example 36
Example 37
14
15
16
17
18






















Concentration of
0
0
5
50
500
5000
500


sterol ester in oil


□ppm□


Concentration of
0.2
0.1
0.2
0.2
0.2
0.2
0.1


AA in oil (% □


Concentration of
5.8
2.9
5.8
5.8
5.8
5.8
2.9


AA at eating time


□ppm□


Concentration of


0.01
0.14
1.35
13.5
1.35


Sterol ester at


eating time (ppm□


Strength of flavor

x







Goodness of

x







flavor


Strength of taste

x







Goodness of taste

x







Strength of

x







aftertaste


Goodness of

x







aftertaste









As shown by the results in Table 25, comparison between Comparative Example 36 (control containing no sterol ester) and Examples 14˜17 revealed that the addition of sterol ester in such an amount as used in these Examples would enhance the body taste-improving effect even in the case where the concentration of AA was the same as in the soup. It was shown that the body taste-improving effect was reduced in Comparative Example 37 wherein the AA concentration was less than that in Comparative Example 36. It was also found that the body taste-improving effect was not enhanced in Example 14 where the sterol concentration in oil was 5 ppm (0.01 ppm at eating time). Furthermore, Example 18 containing the sterol ester of 500 ppm showed a stronger body taste-improving effect than in Comparative Example 36 although it had only half the AA concentration (0.1%) of that in Comparative Example 36.

Claims
  • 1. A taste-improving agent for foods and drinks, comprising: a long-chain highly unsaturated fatty acid and/or an ester thereof; anda sterol and/or a sterol ester.
  • 2. The taste-improving agent according to claim 1, wherein the long-chain highly unsaturated fatty acid and/or an ester thereof is subjected to oxidization treatment.
  • 3. The taste-improving agent according to claim 1, wherein the long-chain highly unsaturated fatty acid is an n-6 long-chain highly unsaturated fatty acid.
  • 4. The taste-improving agent according to claim 1, wherein the long-chain highly unsaturated fatty acid is arachidonic acid.
  • 5. The taste-improving agent according to claim 1, wherein the long-chain highly unsaturated fatty acid is derived from microorganism.
  • 6. A method for improving the taste of foods and drinks, comprising: adding the taste-improving agent according to claim 1 to foods and drinks.
  • 7. Foods and drinks prepared by the method according to claim 6.
  • 8. (canceled)
  • 9. The taste-improving agent according to claim 3, wherein the n-6 long-chain highly unsaturated fatty acid has 18 or more carbon atoms and 3 or more double bonds.
  • 10. The taste-improving agent according to claim 9, wherein the n-6 long-chain highly unsaturated fatty acid has 20-24 carbon atoms and 4-6 double bonds.
  • 11. The taste-improving agent according to claim 3, wherein the n-6 long-chain highly unsaturated fatty acid is docosatetraenoic acid.
  • 12. The taste-improving agent according to claim 1, wherein the long-chain highly unsaturated fatty acid is an n-3 long-chain highly unsaturated fatty acid.
  • 13. The taste-improving agent according to claim 12, wherein the n-3 long-chain highly unsaturated fatty acid has 20 or more carbon atoms and 3 or more double bonds.
  • 14. The taste-improving agent according to claim 13, wherein the n-3 long-chain highly unsaturated fatty acid has 20-24 carbon atoms and 4-6 double bonds.
  • 15. The taste-improving agent according to claim 12, wherein the n-3 long-chain highly unsaturated fatty acid is docosahexaenoic acid or eicosapentaenoic acid.
  • 16. The taste-improving agent according to claim 1, wherein the taste-improving agent comprises an ester of a highly unsaturated fatty acid and glucerol.
  • 17. The taste-improving agent according to claim 2, wherein the oxidization treatment comprises heating treatment.
  • 18. The taste-improving agent according to claim 17, wherein the heating treatment is carried out at 40° C.-200° C. for 0.1-240 hours.
  • 19. The taste-improving agent according to claim 18, wherein the heating treatment is carried out at 80° C.-180° C. for 0.5-72 hours.
  • 20. The foods and drinks of claim 7, comprising 0.1-10,000 ppm of the long-chain highly unsaturated fatty acid and/or the ester thereof, and 0.1-10,000 ppm of the sterol and/or the sterol ester.
  • 21. The foods and drinks of claim 7, comprising 0.1-500 ppm of the long-chain highly unsaturated fatty acid and/or the ester thereof, and 0.1-500 ppm of the sterol and/or the sterol ester.
Priority Claims (1)
Number Date Country Kind
2008-179761 Jul 2008 JP national
PCT Information
Filing Document Filing Date Country Kind 371c Date
PCT/JP09/55017 3/16/2009 WO 00 1/12/2011