JP4275322B2 - Foods and drinks containing phosphorylated oligosaccharides as taste improvers - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a method for improving the flavor and texture of food and an improved food and drink.
[0002]
[Prior art]
[0003]
Some foods have high nutritional value due to the bitterness, acidity, astringency, garlic, burnt smell, blue odor, etc. that the food ingredients originally have or process, but are not preferred There is food. For vegetable juices, natural fruit juice drinks, etc., since the flavor of the material is greatly reflected in the product, those skilled in the art have spent a great deal of effort to increase the palatability. For example, the smell of carrots and soybeans, the bitterness of grapefruit, the green smell of green juice. In addition, there are significant problems in taste, such as the acidity of black vinegar, which is often used in health drinks, the astringency of soy milk, and sashimi. Furthermore, in sports drinks, the intake is limited due to the bitterness and mischief of proteins, peptides, or branched chain amino acids, and efforts are being made to increase palatability. Therefore, in order to reduce bitterness, sourness, astringency, garlic, burnt smell, blue odor, etc., the causative substances are removed and the raw materials are refined, and fragrances and other taste substances are used for masking. It was necessary to add a large amount. However, the method of refining the raw materials not only increases the product price, but also frequently removes other useful components.
[0004]
[Problems to be solved by the present invention]
In the present invention, by adding natural materials that consumers strongly desire, foods and foods and drinks originally have food ingredients, or the bitterness, sourness, astringency, and igarra that occur during the processing process. The object is to suitably improve foods that are less preferred due to their poorness, burnt smell, blue odor and the like. Therefore, it has been strongly desired to reduce bitterness, acidity, astringency, garlic, burnt smell, blue odor and the like. Especially for natural foods, natural fruit juice drinks, vegetable drinks, health foods, sports drinks, sports foods, etc., the bitterness, sourness, astringency, garlic, burnt smell, blue odor etc. of the raw materials have traditionally been It was often a problem. In addition, artificial sweeteners are often used for the purpose of dieting and the like, but there are many cases in which there is a problem of sweetness and poor aftertaste compared to sugar.
[0005]
The potato-derived phosphorylated saccharide referred to in the present invention, which will be described later, is unacceptable to humans that many foods originally have, such as bitterness, acidity, astringency, garlic, burnt odor, and blue odor It is an important issue to expand the use and nutritional value of the food by reducing or improving the quality and smell.
[0006]
[Means for Solving the Problems]
The present inventors focused on potato-derived phosphorylated saccharide, and discovered that potato-derived phosphorylated saccharide solubilizes calcium and minerals contained in foods and improves absorbability into the body. The invention has already been completed as a mineral absorption promoter (JP-A-8-104696). That is, in JP-A-8-104696, potato-derived phosphorylated saccharide is added to food, and the coexisting calcium is dissolved in the intestine to improve the absorbability. As a result of intensive studies under such circumstances, the present invention is a further development of JP-A-8-104696. In other words, by adding phosphorylated saccharide derived from potatoes, we found not only the addition of minerals such as calcium and absorption enhancement functions to added foods, but also a completely new effect of reducing unpleasant smell and taste. The present invention has been completed.
When added to various feeds, foods, beverages or health foods, potato-derived phosphorylated saccharide mineral conjugates not only have an adverse effect on taste quality, but are also unacceptable to humans. Reduced or improved taste and smell such as garlic, burnt smell, and blue odor. That is, potato-derived phosphorylated saccharide and potato-derived phosphorylated saccharide mineral conjugates are effective as taste improvers and are considered to be very important in order to solve the above problems.
The present invention is described in detail below.
[0007]
The potato-derived phosphorylated saccharide referred to in the present invention specifically refers to a glycan prepared by the method described in JP-A-8-104696, wherein one or more phosphate groups are bonded to a glucan having two or more glucose bonded thereto. The same applies to substances referred to as phosphorylated oligosaccharides in the present application. Starch with many phosphate groups bound from potato is suitable for the saccharide as the production raw material, but it may be a refined product. The potato-derived phosphorylated saccharide mineral conjugate refers to a product in which calcium, potassium, magnesium, sodium and iron are bound to at least one phosphate group in the phosphorylated saccharide molecule.
[0008]
Enzymatic degradation of starch as a raw material includes starch-degrading enzymes such as α-amylase (EC 3.2.1.1), β-amylase (EC 3.2.1.2), glucoamylase (EC 3.2.1.3), and isoamylase (EC 3.2.1.68), pullulanase (EC 3.2.1.41), neopullulanase (Kuriki et al., Journal of Bacteriology, 170, 1554-1559, 1988, Journal of Bacteriology, 369-374, 1989) Or one or more glycodextrin glucanotransferase (EC 2.4.1.19; hereinafter abbreviated as CGTase), or one or more of them and α-glucosidase (EC 3.2.1.20) are used in combination.
[0009]
After the reaction of each enzyme is completed, it is not particularly necessary to deactivate the enzyme, but the enzyme may be deactivated by a conventional method such as holding at 100 ° C. for 10 minutes. Further, insoluble matters may be separated and removed by a conventional method such as centrifugation or membrane filtration.
[0010]
After the completion of the reaction, an anion exchange resin can be used for purification of the sugar mixture containing the phosphorylated saccharide. The type of resin is not particularly limited, but Chitopearl BCW2501 type (Fujisbo), Amberlite IRA type (organo), DEAE-cellulose (Whatman), DEAE-Sephadex, QAE-Sephadex (Pharmacia) ), QAE-cellulose (manufactured by Bio-Rad), etc. can be suitably used, and the resin is equilibrated with a buffer adjusted to an appropriate pH so that the anion exchange capacity of the resin is generated. To prepare. By providing this with a fraction of a sugar mixture containing phosphorylated sugar, the phosphorylated sugar is adsorbed to the resin. After the column is washed to remove neutral sugar, the adsorbed phosphorylated sugar is eluted using an alkaline solution or a salt solution.
[0011]
Potato-derived phosphorylated saccharide solution thus obtained, potato-derived phosphorylated saccharide or phosphorylated saccharide and the precipitation of the metal compound thereof, a drying method usually carried out, for example, hot air drying, fluidized bed drying, vacuum drying The potato-derived phosphorylated saccharide or potato-derived phosphorylated saccharide mineral conjugate that can be used for food or drink such as concentration or powdering by carrying out the above method can be obtained.
[0012]
By reacting potato starch with α-amylase followed by glucoamylase, isoamylase, or pullulanase, a phosphorylated saccharide derived from potato that is an α-1,4-linked sugar (degree of polymerization of 2 or more and 15 or less) is obtained. I can do things. As a result of further studies, the obtained phosphorylated saccharide has one phosphate group bonded per molecule and two or more phosphate groups by the above-described purification method using an anion exchange resin. It became clear that two types of phosphorylated saccharides were obtained although they were bound.
[0013]
The potato-derived phosphorylated saccharide referred to in the present invention has the following properties. The phosphate group bonded to the oligosaccharide has a high affinity with minerals such as calcium and can solubilize these minerals.
The phosphate group bonded to the oligosaccharide has a high affinity with minerals such as calcium, and can suppress the precipitation of these minerals.
The phosphate group bonded to the oligosaccharide has a high affinity with minerals such as calcium, and the phosphorylated saccharide itself becomes a mineral strengthening agent by binding with them.
It has the effect of promoting the absorption of calcium into the body.
(5) It is a non-cariogenic sugar that is not assimilated by the mutans bacteria that cause caries and does not produce glucan.
(6) To round off the sweetness of artificial sweeteners and reduce after-treatment.
(7) To reduce taste and odor such as bitterness, acidity, astringency, garlic, burnt odor and blue odor.
(8) Increases the feeling of vanilla, milk fat and salty taste.
[0014]
The potato-derived phosphorylated saccharide and potato-derived phosphorylated saccharide mineral conjugate of the present invention can be used in almost all food and beverage compositions or food additive compositions. This composition for eating and drinking is a general term for human food, animal or fish feed, and pet food. That is, coffee, black tea, Japanese tea, oolong tea, juice, processed milk, raw milk, milk, soy milk, near water, sports drink, vegetable juice, green juice, nutrition drink, medicinal liquor and other liquid and powdered beverages, bread, cookies , Bakery such as crackers, biscuits, cakes, pizzas, pie, etc., pasta such as spaghetti, macaroni, noodles such as udon, buckwheat, ramen, confectionery such as caramel, gum, chocolate, rice cake, potato chips, snacks, etc. Snack confectionery, frozen confectionery such as ice cream and sherbet, dairy products such as cream, cheese, powdered milk, condensed milk, milk beverages, Western confectionery such as jelly, pudding, mousse, yogurt , Soy sauce, sauce, noodle soup, sauce, soup stock, stew sauce, soup sauce, Seasonings such as seasonings, curry base, mayonnaise, ketchup, canned foods such as curry, stew, soup, bowl, retort or sardine, boiled mackerel, sea chicken, grilled meat, ham, hamburger, meatballs Frozen and chilled foods such as croquettes, dumplings, pilaf, rice balls, fishery processed foods such as chikuwa and koji, fermented foods such as natto, pickles, and miso, cooked rice such as bento rice and sushi It can be used effectively. Furthermore, by utilizing the high absorption of calcium, it can be used for infant milk, baby food, baby food, pet food, animal feed, sports food, nutritional supplement, health food, elderly food, and the like.
[0015]
The taste improvement effect by the phosphorylated saccharide derived from potato and the phosphorylated saccharide mineral conjugate derived from potato will be described below. When the potato-derived phosphorylated saccharide and the potato-derived phosphorylated saccharide mineral conjugate are added to the edible composition or the composition for food additives, and the taste is improved, the edible composition or food additive is used. The effect can be exerted even if it is added at any stage in the composition production process. Furthermore, the additive concentration is also related to the concentration of causative substances such as bitterness, sourness, astringency, garlic, burnt odor, blue odor, etc. in the composition for food and drink or food additive. Although related, a range of 0.001 to 5% is usually appropriate. In addition, by using the present invention, conventionally, the addition amount has been limited for foods and drinks, herbal medicines, herbal medicines, etc. due to bitterness, sourness, astringency, garlic, burnt smell, blue odor, etc. It is also possible to increase the amount of nutritional ingredients, functional materials, oral compositions, pharmaceuticals and quasi drugs. The Example about the taste quality improvement of the composition for food or drink which added the phosphorylated saccharide derived from a potato below is shown.
[0016]
Example 1 (Preparation of soy milk)
1.2% phosphorylated saccharide calcium conjugate derived from potato is added to commercially available conditioned soymilk (manufactured by Kibun Food Chemifa), adjusted to a calcium concentration of 100 mg / dl, heat-sterilized, and then heated at 4 ° C. Stored for months. After storage for 1 month, changes in taste and odor were judged by nine skilled sensory panelists. As a result, compared with additive-free soy milk, it was evaluated that the soy milk was significantly easy (dangerous rate 5%) and the odor was reduced and easy to drink.
[0017]
Example 2 (Preparation of milk)
1.2% phosphorylated saccharide calcium conjugate derived from potato is added to commercially available milk (manufactured by Ebara Dairy Co., Ltd.) and adjusted to a calcium concentration of 200 mg / dl, followed by heat sterilization at 130 ° C for 2 seconds. And stored at 4 ° C for 1 week. After storage for one week, changes in taste and odor were judged by nine skilled sensory panelists. As a result, it was confirmed that the milk feeling was enhanced as compared with the milk without addition.
[0018]
Example 3 (Preparation of fruit juice)
Prepare a beverage that will be pear juice and peach juice (fruit concentration 20%), add 4.0% phosphorylated saccharide calcium conjugate derived from potato, and adjust the calcium concentration to 160 mg / dl, then heat After sterilization, it was stored at 4 ° C for 1 month. After storage for 1 month, changes in taste and odor were judged by nine skilled sensory panelists. As a result, it was evaluated that the acidity was significantly reduced (dangerous rate 5%) compared to the additive-free beverage, and it was easy to drink.
[0019]
Example 4 (Preparation of coffee beverage)
After making a coffee drink with deep-filled coffee beans that feel burnt odor, adding 4.0% phosphorylated saccharide calcium conjugate derived from potato, adjusting to a calcium concentration of 160 mg / dl, and after heat sterilization And stored at 4 ° C for 1 month. After storage for 1 month, changes in taste quality and burnt odor were judged by 9 skilled sensory panelists. As a result, it was evaluated that the bitterness and burnt odor became easy to drink significantly (risk rate 5%) compared to the additive-free coffee beverage.
[0020]
Example 5 (Preparation of lemon juice drink)
Lemon juice drink was prepared with lemon juice concentrate, phospho-calcium calcium conjugate derived from potato was added at 5.0%, and adjusted to a calcium concentration of 200 mg / dl, then heat sterilized at 4 ° C. Stored for 1 month. After storage for 1 month, changes in taste quality were judged by nine skilled sensory panelists. As a result, compared with the additive-free lemon juice drink, the acidity was significantly suppressed (risk rate 5%), and it was evaluated that it became mild and easy to drink.
[0021]
Example 6 (Preparation of grapefruit juice drink)
A grapefruit juice drink is prepared from the grapefruit concentrate, potato-derived phosphorylated saccharide calcium conjugate is added at 5.0%, and the calcium concentration is adjusted to 200 mg / dl. Stored for months. After storage for 1 month, changes in taste quality were judged by nine skilled sensory panelists. As a result, it was evaluated that bitterness and acidity were significantly suppressed (mildness rate 5%) compared to the additive-free grapefruit juice drink, and it became mild and easy to drink.
[0022]
Example 7 (Preparation of naringin solution)
Add 1.0% phosphorylated saccharide calcium conjugate derived from potato to 0.005% or 0.02% of naringin (Fluka, product number 71160) solution which is said to be the main component of grapefruit bitterness. Were subjected to a sensory test. The change was determined by nine skilled sensory panelists. As a result, it was evaluated that bitterness and umami were significantly suppressed (mildness 5%) compared to the additive-free naringin solution, and it became mild and easy to drink.
[0023]
Example 8 (Preparation of carrot juice)
Add 1.0% phosphorylated saccharide calcium conjugate derived from potato to commercially available carrot juice (manufactured by Kagome), adjust the calcium concentration to 60 mg / dl, heat sterilize, and then at 4 ° C for 1 month saved. After storage for 1 month, changes in taste quality were judged by nine skilled sensory panelists. As a result, it was evaluated that the carrot odor was significantly suppressed (mild rate of 5%) compared to additive-free carrot juice, and it became mild and easy to drink.
[0024]
Example 9 (Preparation of sports drink)
A sports drink type that dissolves sugar, glucose, citric acid, vitamin C, niacin, vitamins consisting of vitamin E, vitamin B1, and vitamin B6 and magnesium, calcium, sodium, potassium, and iron conjugates of potato-derived phosphorylated sugar Made soft drinks. The mineral concentration was adjusted to 100 mg / dl (magnesium was 10 mg / dl). After heat sterilization, it was stored at 4 ° C for 1 month. When the beverage was observed after storage for 1 month, no precipitate was observed. Furthermore, the bitterness derived from magnesium was also reduced.
[0025]
Example 10 (Preparation of sports nutrition drink)
Of amino acids consisting of sugar, glucose, citric acid, proline, lysine, glycine, tyrosine, threonine, leucine, phenylalanine, arginine, isoleucine, alanine, glutamic acid, tryptophan, histidine, serine methionine, aspartic acid and phosphosaccharides derived from potato A sports nutrition drink type beverage was prepared by dissolving magnesium, calcium, sodium, potassium, and iron conjugates. The mineral concentration was adjusted to 100 mg / dl (magnesium was 10 mg / dl). After heat sterilization, it was stored at 4 ° C for 1 month. When the beverage was observed after storage for 1 month, no precipitate derived from minerals was observed. Furthermore, the unique tastes derived from amino acids were reduced, and the taste was refreshing.
[0026]
Example 11 (Preparation of black vinegar beverage)
0.5% phosphorylated saccharide calcium conjugate derived from potato was added to 10% black vinegar solution, and changes in taste were judged by nine skilled sensory panelists. The sample to which the potato-derived phosphorylated saccharide calcium conjugate was added had a milder acidity than the control.
[0027]
Example 12 (Influence on artificial sweeteners)
Changes in taste quality by adding 0.5% phospho-calcium calcium conjugate from potato to each solution containing 0.02% sucralose, 0.02% stevia or 0.02% enzyme-treated stevia Was determined by nine skilled sensory panelists. Samples to which a phospho-calcium calcium conjugate derived from potato was added had a refreshing sweetness compared to the control, and the aftertaste and aftertaste were also improved.
[0028]
Example 13 (Influence on artificial sweeteners)
To each solution containing 10% erythritol, 0.5% of a phosphorylated saccharide sodium conjugate derived from potato or a phosphocalcium calcium conjugate derived from potato was added, and the sensory functions of nine people who were skilled in changing taste Judgment was made by an evaluation paneller. In the sample to which the phospho-calcium calcium conjugate derived from potato was added, the gummy disappeared as compared with the control, and it became a refreshing sweetness.
[0029]
Example 14 (Influence on artificial sweetener)
To each solution containing 2% thaumatin, 0.5% of a phosphorylated saccharide calcium conjugate derived from potato was added, and changes in taste were judged by nine skilled sensory panelists. The sample to which the potato-derived phosphorylated saccharide calcium conjugate was added had a clean aftertaste compared to the control.
[0030]
Example 15 (Influence on magnesium chloride)
0.5% phosphorylated saccharide calcium conjugate derived from potato was added to a solution containing 0.1% magnesium chloride, and changes in taste were judged by nine skilled sensory panelists. In the sample to which a phospho-calcium calcium conjugate derived from potato was added, the bitterness and unpleasant taste of magnesium were reduced as a control.
[0031]
Example 16 (Preparation of green juice)
30 parts of moroheiya, 10 parts of spinach, 3 parts of celery, 0.5 part of spice, 15 parts of fructose glucose liquid sugar and 41.5 parts of water were liquefied with a mixer to prepare a so-called green juice. Potassium-derived phosphorylated saccharide sodium conjugate or potato-derived phosphorylated saccharide calcium conjugate was added in an amount of 0.5 to 1.0%, and the change in taste was determined by nine skilled sensory evaluation panels. As a result, the blue odor is significantly reduced at a rate of addition of 0.5% (risk rate of 5%) and the bitterness is significantly increased at a rate of addition of 0.5% (risk rate of 5%) compared to the additive-free green juice. ) Reduced. At an addition rate of 1.0%, all members judged that both the blue odor and the bitterness were acceptable.
[0032]
Example 17 (Preparation of cocoa mass)
Malaysian beans, which are cacao beans with strong acidity and astringency, were coarsely pulverized and then roasted at 120 ° C. for 30 minutes, and then paste-formed with a three-stage roll to prepare Malaysian bean cocoa mass. When this was made into a paste at 60 ° C., 2.5% of potato-derived phosphorylated saccharide was added to prepare cocoa mass. Hot water was added to this and mixed well to prepare a 10% hot water solution. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, compared to the additive-free cocoa mass, the acidity was reduced and the bitterness was also significantly reduced (risk rate 5%).
[0033]
Example 18 (Preparation of Cocoa)
In accordance with how to make cocoa (cream rich) made by Ezaki Glico, the contents of one bottle were fully dissolved in 110 ml of hot water. At that time, a phospho-calcium calcium conjugate derived from potato was added to a concentration of 1%. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was confirmed that the bitter sensation was reduced and the cream sensation was enhanced as compared with the additive-free one.
[0034]
Example 19 (Preparation of wafer sand cream)
Mix 100 parts of shortening with a mixer for 2 minutes, and then add 40 parts of maltitol, 60 parts of erythritol, 30 parts of calcium eggshell, and 60 parts of sugar. 2.5% of calcium oxide saccharide conjugate was added and mixed for another 3 minutes. Finally, vanilla flavor was added and mixed for 1 minute to prepare a sand cream for wafers. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, as compared with the additive-free sand cream, the roughness and the sashimi were reduced. Furthermore, all the panels evaluated that the aftertaste was considerably improved.
[0035]
Example 20 (Preparation of honey sauce)
100 parts of pure honey, 0.5 parts of maple sugar fragrance, and 0.3 parts of caramel were mixed to prepare a honey sauce. To this, 3 parts of a phosphorylated sugar sodium conjugate derived from potato or 3 phosphorylated sugar calcium conjugate derived from potato 0.0 part was added. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, as compared with the additive-free honey sauce, the savoriness and sashimi were reduced. Furthermore, all the panels evaluated that the aftertaste was considerably improved.
[0036]
Example 21 (preparation of ramen)
3.0 parts of a phosphorylated saccharide calcium-binding substance derived from potatoes was added to 100 parts of ramen-dedicated flour (wheat flour containing sugar etc.). To this, 160 parts of water was added and mixed. This was noodled with a household noodle making machine (manufactured by Sanyo Electric Co., Ltd.) to obtain a potato-derived phosphorylated sugar-added ramen. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that the noodles were firmer than the additive-free ramen. About 100 mg of calcium was strengthened per 100 g of ramen.
[0037]
Example 22 (preparation of udon)
To 250 parts of strong flour and 250 parts of weak flour, 15 parts of sodium chloride was added, and 3.0 parts of phospho-calcium calcium conjugate derived from potato was added. To this, 270 parts of water was added and mixed for 15 minutes with a household scissor machine (Toshiba PFC-20AM). The dough was laid for about 1.5 hours at room temperature. The dough was rolled to a thickness of about 2 mm on a chopped cutting board. After cutting this to about 2 mm wide, boiled with plenty of hot water for about 10 minutes until the core disappeared. When it was boiled, it was pickled and washed with water, and the slime was removed to obtain potato-derived udon with phosphorylated sugar. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that the noodles were firm compared to the additive-free udon.
[0038]
Example 23 (Preparation of rice cake)
Using 3 cups (420 g) of glutinous rice, 3.3 g of a phosphorylated saccharide calcium conjugate derived from potato was added. A potato-derived phosphorylated sugar addition was obtained with a home-grown machine (Toshiba PFC-20AM). The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that there was no difference in texture and taste compared to the non-added rice cake.
[0039]
Example 24 (Pretzel preparation)
Pretzel was prepared in a conventional manner by adding 27 parts of water to 100 parts of wheat flour, 10 parts of margarine, 10 parts of sugar, 10 parts of iso-fructose, 3 parts of yeast and 1 part of salt. 3 parts of phospho-calcium calcium conjugate derived from potato was added. After fermentation at 30 ° C. for 4 hours, molding and baking were performed to obtain a potato-derived phosphorylated sugar-added pretzel. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that the crispy property was increased as compared with the additive-free pretzel.
[0040]
Example 25 (Preparation of crackers)
A cracker was prepared in a conventional manner by adding 25 parts of water to 100 parts of wheat flour, 15 parts of margarine, 3 parts of sugar, 1.5 parts of isomeric fructose, 3 parts of yeast, and 1 part of salt. Three parts of phospho-calcium calcium conjugate derived from potato was added and mixed. After fermentation at 30 ° C. for 4 hours, molding and baking were performed to obtain a potato-derived phosphorylated sugar-added cracker. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, the crispness was greatly improved compared to the conventional one.
[0041]
Example 26 (Preparation of Kanten)
4 parts of agar (using Ina Foods Kanten Cook) was added to 500 parts of water and dissolved sufficiently with heating, and 60 parts of sugar was added and mixed with 3 parts of phosphorylated saccharide calcium conjugate. Pour into a mold, add fruit, refrigerate and harden to finish the phosphosugar added kanten. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, compared with the additive-free thing, it was evaluated that it was crunchy and sweet.
[0042]
Example 27 (Preparation of tablet confectionery)
150 parts of glucose, 100 parts of sorbitol, 40 parts of avicel, 20 parts of ascorbic acid, 100 parts of eggshell calcium, and 10 parts of phospho-calcium calcium conjugate derived from potato were added and mixed. Tableting was performed to prepare potato-derived phosphorylated sugar-added tablet confectionery. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that the sweetness was refreshed compared to the additive-free one.
[0043]
Example 28 (Preparation of tofu)
30 parts of 1000 parts of cooled soymilk and 4 parts of calcium sulfate as a bittern or phospho-calcium calcium conjugate derived from potato were added and mixed. Added to a plastic cup and sealed. This was heated at 85 ° C. for 40 minutes to solidify to prepare tofu. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that the tofu had a rich tofu flavor compared to the additive-free one.
[0044]
Example 29 (Preparation of isoflavone solution)
Potassium-derived phosphorylated saccharide calcium conjugate was mixed with a 2% solution of Soyaflavone RS containing a high concentration of Fuji Oil isoflavones at 1%. The change of the taste quality was judged by 9 skilled sensory evaluation panels. It was evaluated that bean odor, bitterness and off-flavor were improved compared to the additive-free one.
[0045]
Example 30 (Preparation of chocolate)
350 parts of cacao mass, 100 parts of cocoa butter, 100 parts of vegetable oil and fat, 45 parts of sugar, and 18 parts of phosphorylated saccharide calcium conjugate derived from potato were added and mixed. It was completely dissolved at 60 ° C., held in constant temperature water at 40 ° C., hand tempered, and cooled at 10 ° C. Setting at 20 ° C. for 5 days gave chocolate. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that the sweetness was refreshed compared to the additive-free one. Moreover, as a result of conducting a fat bloom resistance test by repeating this chocolate for 10 cycles of 32 ° C. for 12 hours and 20 ° C. for 12 hours, resistance was slightly observed in chocolate containing phosphorylated sugar derived from potato.
[0046]
Example 31 (Preparation of bread)
250 parts of flour, 5 parts of yeast, 30 parts of sugar, 12 parts of skim milk, 2 parts of salt, 25 parts of butter, 150 parts of water and 10 parts of phospho-calcium calcium conjugate derived from potato were added and mixed. According to a conventional method, mixing and fermentation were performed with a home-made bread machine (Toshiba PFC-20AM) to obtain bread dough. This dough was frozen and thawed, shaped and baked to obtain a potato-derived phosphorylated sugar-added bread. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, in the dough physical properties, specific volume, and texture, a high evaluation was obtained in the potato sugar-derived phosphorylated sugar added group compared to the additive-free one.
[0047]
Example 32 (Preparation of rice crackers)
200 parts of polished rice was washed with water, immersed in immersion water, drained, pulverized with a flour mill, and 10 parts of a potato-derived calcium phosphate conjugate derived from potato was added and mixed. Steamed, rolled, molded, punched, dried, and baked according to a conventional rice cracker manufacturing method, and potato-derived phosphorylated sugar-added rice cake was obtained. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that there was no difference in texture and taste compared to the additive-free one.
[0048]
Example 33 (Preparation of Gyoza)
100 parts of wheat flour, 1 part of salt, 35 parts of water and 5 parts of phospho-sugar calcium binding material derived from potato were added and mixed to prepare Gyoza skin. A potato-derived phosphorylated sugar-added gyoza was obtained by wrapping, molding, steaming, and baking a tool in which 5 parts of a potato-derived phosphorylated sugar calcium conjugate was added and mixed. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that there was no difference in texture and taste compared to the additive-free one.
[0049]
Example 34 (Preparation of cooked rice)
Wash 140 parts of rice with water, add 5 parts of potato-derived calcium phosphate-bound potatoes in 1.5 times the amount of water, mix and cook (Zhi-Ink kettle rice cooker) to obtain potato-derived phospho-sugar-added paddy rice It was. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, it was evaluated that there was no difference in texture and taste compared to the additive-free one.
[0050]
Example 35 (Preparation of ice cream)
Whip up 200 parts of whipped cream. In a separate container, 50 parts of egg, 50 parts of sugar, and 9 parts of phospho-calcium calcium conjugate derived from potato are mixed and foamed. The whipped cream was put into a container and frozen to obtain a potato-derived phosphorylated sugar-added ice cream. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, compared with the additive-free thing, the milky feeling improved, it changed to the rich flavor, and also sweetness was evaluated as refreshing.
[0051]
Example 36 (concentration imparting effect to lacto ice)
Potassium-derived phosphorylated saccharide calcium conjugate was added to commercially available lacto ice (vanilla ice cream; manufactured by Snow Brand) so as to have a concentration of 1%. The change in taste and texture was judged by 9 skilled sensory evaluation panels. As a result, it was confirmed that the richness of vanilla feeling and milky feeling was enhanced as compared with the additive-free one, and it was enhanced to the same level as the product of milk fat content of the normal ice cream standard.
[0052]
Example 37 (salin reduction action)
There was no commercially available low-salt soy sauce (maru soy low-salt soy sauce, manufactured by Kikkoman Corporation), and a phospho-calcium calcium-binding substance derived from potato was added so as to have a concentration of 1%. The change in salty taste was judged by 9 skilled sensory evaluation panels. As a result, it was confirmed that the salty taste was enhanced compared to the additive-free one, and it felt more than ordinary soy sauce and had a salty taste enhancing action on the reduced salt.
[0053]
Example 38 (Preparation of mayonnaise)
Mayonnaise was prepared according to a standard method using 1 yolk, 1 teaspoon mustard, 1 teaspoon salt, a little pepper, 1 tablespoon of herb vinegar and 1 cup of salad oil. A potato-derived calcium phosphate-binding substance derived from potato was added thereto so that the concentration was 1%. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was confirmed that the acidity became rounder and the yolk sensation was enhanced as compared with the additive-free one.
[0054]
Example 39 (addition to whey protein)
Prepare 2% solution of whey protein WPI (BIOZATE-5; manufactured by DAVISCO), add sugar to this solution to 1%, and then add phosphosaccharide calcium conjugate derived from potato to 1% concentration Was added. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was confirmed that the bitterness decreased, the milky feeling was enhanced, and the flavor changed to a rich flavor as compared with the additive-free one.
[0055]
Example 40 (addition to ketchup)
Potassium-derived phosphorylated saccharide calcium conjugate was added to Kagome ketchup at a concentration of 1%. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was confirmed that the acidity decreased as compared with the additive-free one.
[0056]
Example 41 (addition to sauce)
Potato-derived phosphorylated saccharide calcium conjugate was added to Ikari Worcester sauce to a concentration of 1%. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was confirmed that the acidity decreased compared to the additive-free one, and the taste was round.
[0057]
Example 42 (addition to white chocolate)
Commercially available white chocolate was dissolved, and a phospho-calcium calcium conjugate derived from potato was added to a concentration of 1%. Then, it shape | molded and refrigerated. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was confirmed that the milky feeling and vanilla feeling increased and the feeling of richness was higher than that of the additive-free one, and the white chocolate had a good sharpness.
[0058]
Example 43 (addition to vegetable powdered milk)
Potassium-derived phosphorylated saccharide calcium conjugate was added to commercially available plant milk powder so as to have a concentration of 1%. The change of the taste quality was judged by 9 skilled sensory evaluation panels. As a result, it was confirmed that the milky feeling increased and the milky milk powder changed to a rich milk powder, which was close to the flavor of animal milk powder, compared to the additive-free one.
【effect】
According to the present invention, a bitterness, a sour taste, astringency, a blue odor, and a food that the food has conventionally had by adding a small amount of a phosphorylated saccharide derived from potato or a phosphorylated saccharide mineral conjugate derived from potato that is easily soluble in water. I found an effect to reduce the rash. As a result, the use of food and the nutritional improvement of the people can be improved by improving the nutritional aspect and taste of food.

Claims (1)

Improve sweet taste and postpaste by adding potato-derived phosphorylated saccharide or its mineral compounds to foods containing one or more sweeteners selected from sucralose, stevia, enzyme-treated stevia, erythritol, and thaumatin how to.