JP3766009B2 - Curry powder having high antioxidant property and excellent flavor, and food containing the curry powder - Google Patents

Description

【０１１５】
【表２】

＜実施例３：カレールウおよびカレーの製造＞
実施例１で得られたカレー粉１０重量部に、油脂３２重量部、小麦粉２５重量部、食塩８重量部、砂糖１０重量部、調味原料１５重量部を加えて１３０℃まで混合加熱して、カレールウを得た。
【０１１６】
このカレールウを用いて常法によりカレーを調理した。
【０１１７】
このようにして得られたカレーは、スパイシーで重厚感のある香気とコクのある香味を有する高品質のものであった。
【０１１８】
【発明の効果】
本発明により、抗酸化性が高くかつカレー粉として適切な香味を有する、優れた香味を有する高品質のカレー粉が得られる。本発明のカレー粉は、加熱処理済み香辛料および抗酸化性香辛料の量を変更することにより、種々の程度の抗酸化性を有するカレー粉が得られる。本発明のカレー粉を用いて製造されるカレールウ、レトルトカレーなどの食品は、香味に優れた高品質のものとなる。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to seasonings and foods. More specifically, the present invention relates to a high-quality curry powder having high antioxidant properties and a suitable flavor as curry powder. Moreover, this invention relates to the foodstuff which contains this curry powder and this curry powder is in the state of a powder or the melt | dissolved state. The curry powder and food of the present invention are suitable for health food applications and the like.
[0002]
[Prior art]
Various diseases such as cancer and arteriosclerosis and aging are considered to be caused by various reactive oxygen species in vivo. It is considered that these diseases or aging can be prevented or delayed if biological disorders such as biological membrane and DNA damage and inflammation due to reactive oxygen species in vivo can be prevented.
[0003]
On the other hand, since spices generally show the effect of preventing food quality deterioration, the presence of components that suppress oxidative degradation of lipids in food is presumed. Therefore, researches on the antioxidant properties of spices have been actively conducted so far. As a result, many spices having antioxidant properties have been confirmed.
[0004]
As spices having antioxidant properties, for example, rosemary, sage, clove, allspice, marjoram, thyme, nutmeg, mace and the like containing phenolic antioxidants have been reported (Katsuo Futaki, Toshikazu Yoshikawa) And Toshihiko Osawa, “Development of Foods for Preventing Adult Diseases”, CMC Corporation, 1998).
[0005]
However, many of these reports have only confirmed the presence or absence of the effect of preventing radical chain reaction in lipid peroxidation. Antioxidants that prevent radical chain reaction in lipid peroxidation are not known to show the expected effects in actual living organisms. Therefore, the antioxidant properties of various spices in the actual living body have not been known. For this reason, there has been a demand for a method capable of confirming the presence or absence of antioxidant properties in a reaction system that reflects the action and effect in the living body as much as possible.
[0006]
As is well known, curry powder is a mixed product in which various spices are blended, the flavors of each are unified, and as if they were one spice. Conventionally, when producing curry powder, the raw spices are first subjected to pretreatments such as drying, foreign matter removal, sterilization, pulverization, and sieving, and then each pulverized spice is blended according to the blending ratio. The blending process is so important that it is said that the quality of the curry powder is determined by the blending process, so it has to be performed carefully. If the spices are simply blended, the aromas of the spices do not mix and the characteristic aroma of curry powder does not come out. Therefore, it is common practice to heat-treat (roast) the blended spices to produce a unity scent, then store and sell as a product.
[0007]
Examples of spices that have been reported to have antioxidant properties so far are herbs and the like. These have a strong peculiar flavor unfavorable for curry powder such as blue odor. When these spices are blended to such an extent that they exhibit an antioxidant effect, a peculiar flavor unfavorable to curry powder such as blue odor becomes strong and the flavor as curry powder is inferior. On the other hand, when these spices are blended in consideration of the balance of flavor so that the characteristic fragrance unfavorable for curry powder does not become too strong, the blending amount decreases, and the antioxidant effect cannot be expected so much. For example, curry powder is known in which a large amount of ginger, which is a spice with high antioxidant properties, is added. Such curry powder is considered to have high antioxidant properties. However, such conventionally known curry powders are either not roasted at all after blending or roasted together after blending. When roasting is not performed at all, the peculiar scent of ginger (referred to herein as “ginger smell”) and the pungent taste become strong, and the flavor as curry powder is inferior. Moreover, when it roasts collectively after mix | blending, antioxidant property tends to become low. Moreover, the volatile scent component of spices other than ginger is stopped by roasting, and the flavor as curry powder tends to be insufficient.
[0008]
Thus, curry powder having a high antioxidant property and a suitable flavor as curry powder has not been obtained so far. Therefore, there is a demand for providing high-quality curry powder that has high antioxidant properties and has an appropriate flavor as curry powder.
[0009]
[Problems to be solved by the invention]
An object of this invention is to provide the curry powder which has high antioxidant property and has a suitable flavor as curry powder. Another object of the present invention is to provide a high-quality food such as a roux product that has high antioxidant properties and has an appropriate flavor as curry powder.
[0010]
[Means for Solving the Problems]
In light of the above situation, the present inventors have conducted intensive research with the goal of obtaining curry powder that has a particularly high antioxidant property and an appropriate flavor as curry powder. By identifying the spices that have antioxidant properties in the reaction system that reflects the effects, and by specifying the heat treatment conditions of the spices and the blending ratio of the spices that have antioxidant properties and the heat-treated spices, The present inventors have found that the object can be achieved, and based on this, the present invention has been completed.
[0011]
The curry powder of the present invention includes an antioxidant spice and a heat-treated spice, and has a high antioxidant property and a suitable flavor as a curry powder.
[0012]
In one embodiment, the curry powder is based on 100 parts by weight of the curry powder (1) 20 to 70 parts by weight of antioxidant spices and (2) 5 to 70 parts by weight of heat-treated. It is a spice mixture containing a spice, and the heat-treated spice is obtained by heat-treating the heat-treatment spice until the final product temperature reaches 60 to 145 ° C.
[0013]
In one embodiment, the antioxidant spice is an O of a differentiated HL-60 cell line when measured at a concentration of 200 μg / ml as a 50% ethanol extraction solution.₂ ^-It can be a spice whose production inhibition rate, or RAW264.7 cell nitrite ion production inhibition rate or L-citrulline production inhibition rate is 50% or more.
[0014]
In one embodiment, the antioxidant spice can be a flavored spice or a fragrant spice, preferably a caraway, peppermint, paprika, star anise, skin, basil, anise, rosemary, allspice, It can be a mixture of five or more spices selected from the group consisting of savory, cinnamon, dill, clove and thyme.
[0015]
In one embodiment, the heat treatment spice may be selected from the group consisting of cumin, coriander, fennel, turmeric and fenugreek.
[0016]
The antioxidant curry powder of the present invention is a differentiated HL-60 cell line O as measured in a 50% ethanol extract at a concentration of 100 μg / ml.₂ ^-The production inhibition rate, or the nitrite ion production inhibition rate or L-citrulline production inhibition rate of RAW264.7 cells is 50% or more.
[0017]
The food of the present invention contains any of the above curry powders, and the curry powders are in a powdered state or in a melted state.
[0018]
In one embodiment, the food product is selected from the group consisting of curry roux, cooked curry and microwave curry.
[0019]
The method for producing curry powder having high antioxidant property and suitable flavor as curry powder according to the present invention is as follows. (1) The heat treatment spice is heat-treated until the final product temperature reaches 60 to 145 ° C. A step of obtaining a spice, and (2) a step of obtaining 100 parts by weight of a spice mixture containing 5 to 70 parts by weight of the heat-treated spice and 20 to 70 parts by weight of an antioxidant spice.
[0020]
The method for producing a health food of the present invention includes a step of adding any of the above curry powders to a food material.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described in more detail.
[0022]
<Raw material of curry powder with high antioxidant property and suitable flavor as curry powder>
The curry powder having high antioxidant property and suitable flavor as curry powder of the present invention includes an antioxidant spice and a heat-treated spice. The curry powder having a high antioxidant property and a suitable flavor as curry powder is preferably (1) 20 to 70 parts by weight of antioxidant spice based on 100 parts by weight of the curry powder. And (2) a spice mixture containing 5 to 70 parts by weight of a heat-treated spice. In the present invention, in order to obtain curry powder having high antioxidant property and suitable flavor as curry powder, the kind of spices having high antioxidant property and the heating (roasting) conditions of the spices to be heat-treated are specified. It is important to specify a blending ratio for mixing a highly antioxidant spice and a heat-treated spice.
[0023]
In this specification, “curry powder” refers to a mixture of spices. Curry powder is also called curry powder or pure curry powder. As used herein, “spicy” refers to a plant-derived processed product having a flavor or a pungent taste. Processing may be any action as long as it acts on the plant body and changes its state, such as drying, cutting, or crushing the plant body. Spices are products obtained as a result of such processing. The spices may be obtained by performing a single process or may be obtained by performing a plurality of processes. The spice used for the curry powder of the present invention can be obtained from a conventionally known source.
[0024]
In the present specification, “curry powder having high antioxidant property” means differentiation as described in (1) of the following antioxidant method using the curry powder as a 50% ethanol extraction solution at a concentration of 100 μg / ml. Superoxide (hereinafter referred to as O) by the HL-60 cell line.₂ ^-O when measured by production inhibition test₂ ^-Production inhibition rate, nitrite ion production as measured by the production inhibition test of nitric oxide (hereinafter abbreviated as NO) by RAW264.7 cells derived from macrophages described in (2) of the following method for measuring antioxidant properties It refers to a spice with an inhibition rate or L-citrulline production inhibition rate of 50% or more.
[0025]
In the present specification, the “curry powder having an appropriate flavor as curry powder” refers to a curry powder that does not have the above-mentioned blue odor and has a flavor that is normally required as curry powder. Specifically, for example, when 1.0 g of the target curry powder is added to 100 ml of hot water and the flavor is evaluated, the blue smell peculiar to the antioxidant spice is not felt, and the flavor of the curry powder is felt. Say.
[0026]
The antioxidant curry powder of the present invention is a differentiated HL-60 cell line O as measured in a 50% ethanol extract at a concentration of 100 μg / ml.₂ ^-The production inhibition rate, or the nitrite ion production inhibition rate or L-citrulline production inhibition rate of RAW264.7 cells is 50% or more.
[0027]
The spices may be dried or semi-dried. Preferably, the spice is a dried product. The spice may be in a dry state (ie, a dry hole) or in the form of a cut or a powder, but is preferably a powder. The individual particles constituting the powder may take any shape such as a sphere, an ellipse, or an irregular ellipse. The average particle diameter of the particles may be the particle size of ordinary spices. Preferably, it is about 0.1 μm to 3 mm. More preferably, it is about 10 μm to 1 mm. Passing 10 mesh is preferred, passing 20 mesh. Most preferred are particles that pass 40 mesh. The smaller the average particle size, the better the texture of the resulting curry powder and the food containing the curry powder. When the average particle diameter exceeds 3 mm, unevenness is likely to occur when the curry powder is obtained using the obtained curry powder, and the food containing the obtained curry powder may feel rough or feel a foreign object.
[0028]
Spices are generally divided into flavored spices, spicy spices and fragrant spices.
[0029]
The flavorful spice is a spice having a flavor, which has a weak pungent taste and is mainly used for flavoring. Examples of flavoring spices include coriander, cardamom, cumin, fennel, cloves, cinnamon, nutmeg, mace, allspice, fenugreek, star anise, garlic, liquorice, anise, dill, caraway, laurel, sevory, oregano, rose Examples include marie, sage, marjoram, thyme, crust, basil and mandarin.
[0030]
The pungent spice is a spice having a pungent taste, and is a spice mainly used for spicy seasoning. Examples of spicy spices include black pepper, white pepper, red pepper, ginger and mustard.
[0031]
The fragrant spice is a spice containing a large amount of pigment, having a weak pungent taste, flavor and strong coloring power. Examples of fragrant spices include turmeric, paprika and saffron.
[0032]
Spices are also classified into three categories, seed-based spices (also referred to as seed spices), herb-based spices (also referred to as herb spices), and spice-based spices (also referred to as spicy spices), depending on the plant part used as the spices. A seed-based spice is a spice that uses a part of a seed or a fruit as a spice. Examples of seed-based spices include cumin, coriander, cardamom, fennel, fenugreek, nutmeg, caraway, star anise, anise, allspice and dill. The herbaceous spice is a spice that uses a leaf or stem part as a spice. Examples of herbal spices include laurel, oregano, marjoram, sage, peppermint, basil, rosemary, savory and thyme. A spicy spice is a spice that uses the root, rhizome, bark or flower part as a spice. Examples of spices include ginger, turmeric, garlic, onion, cinnamon, saffron and clove.
[0033]
(1) Antioxidant spices
In the present specification, the “antioxidant spice” is a spice having antioxidant properties. Having antioxidative properties means that the spice is a 50% ethanol extract solution at a concentration of 200 μg / ml, and is O in the differentiated HL-60 cell line described in (1) of the antioxidant measurement method described later.₂ ^-O as measured by production inhibition test₂ ^-Production inhibition rate, nitrite ion production inhibition rate or L-citrulline production inhibition rate when measured by a NO production inhibition test using macrophage-derived RAW264.7 cells described in (2) of the following antioxidant measurement method It means 1% or more. O₂ ^-And NO are radicals that are thought to be the initial factors of various oxidative stresses.
[0034]
The antioxidant spice is preferably any one or more of these radical production inhibition rates, preferably 10% or more, more preferably 20% or more, more preferably 30% or more, more preferably 40% or more, more The spice is preferably 50% or more, more preferably 55% or more, and more preferably 60% or more.
[0035]
Antioxidant spices are O₂ ^-Any of production inhibition, nitrite ion production inhibition and L-citrulline production inhibition may have antioxidant properties,₂ ^-Any one or two of production inhibition, nitrite ion production inhibition and L-citrulline production inhibition may have antioxidant properties.
[0036]
The antioxidant spice may be any of a flavor spice, a spicy spice or a fragrant spice as long as it has antioxidant properties.
[0037]
The antioxidant spice is preferably a flavor spice or a fragrant spice. Examples of antioxidant spices include caraway, peppermint, paprika, star anise, rind, basil, anise, rosemary, allspice, savory, cinnamon, dill, clove, thyme and ginger. Antioxidant spices are preferably selected from the group consisting of caraway, peppermint, paprika, star anise, crust, basil, anise, rosemary, allspice, savory, cinnamon, dill, clove and thyme.
[0038]
Examples of spices that are only highly effective in suppressing NO production are caraway, peppermint, paprika, star anise, crust, basil and ginger. These spices, for example, have a very high antioxidant property because they suppress the production of nitrite ions or L-citrulline by 70% or more at a concentration of 200 μg / ml.
[0039]
O₂ ^-Examples of spices that have only a high effect of suppressing the production of anise are anise and rosemary. These spices are, for example, O at a concentration of 200 μg / ml.₂ ^-Is suppressed by 60% or more, so that the antioxidant property is very high.
[0040]
Effect of suppressing NO production and O₂ ^-Examples of spices that are both highly effective in inhibiting the production of allergy are allspice, savory, cinnamon, dill, clove and thyme. These spices, for example, produce nitrite ions or L-citrulline and O at a concentration of 200 μg / ml.₂ ^-Is suppressed by 60% or more, so that the antioxidant property is very high.
[0041]
Antioxidant spices are usually 5 or more, preferably 6 or more, more preferably 7 or more, more preferably 8 or more, more preferably 9 or more, more preferably 10 or more, and more preferably 11 types. More preferably, 12 types or more, more preferably 13 types or more, more preferably 14 types or more are mixed and used.
[0042]
The weight of the antioxidant spice contained in the curry powder is 20 to 70 parts by weight, preferably 20 to 60 parts by weight, more preferably 20 to 50 parts by weight, based on 100 parts by weight of the curry powder. Preferably it is 20-40 weight part. Since the blending amount of the antioxidant spice is within this range, the effect of high antioxidant properties can be suitably obtained. If the amount of antioxidant spices is less than this range, the resulting antioxidant effect will be weak, while if the amount of antioxidant spices exceeds this range, the blue odor or specific aroma tends to be too strong. is there.
[0043]
The flavorful spice caraway, star anise, anise, allspice and dill, and spicy spice cinnamon and clove are each 0.1-20 parts by weight, and it is possible to mix three or more kinds as curry powder It is preferable for obtaining a curry powder having a complex excellent flavor having an appropriate flavor.
[0044]
Peppermint, basil, rosemary, savory and thyme, which are herbaceous spices, are each preferably blended in an amount of 0.1 to 20 parts by weight.
[0045]
The skin is desirably used to harmonize the flavor of the entire curry powder, and is preferably blended in an amount of 1 to 6 parts by weight.
[0046]
Paprika, which is a fragrant spice, is preferred for use in amounts up to 1 to 6 parts by weight with less pepper-like odor.
[0047]
Ginger, a spicy spice, is preferred for use in amounts up to 0.1 to 4 parts by weight, but the ginger odor is low and preferable. However, if the amount is too large, the pungent taste will be affected, so red pepper, black pepper, etc. In consideration of the amount of the pungent spice, it is desirable to blend so that the balance of the pungent taste with respect to the whole curry powder is appropriate.
[0048]
(2) Heat-treated spices
In the present specification, the “heat-treated spice” refers to a spice after the heat treatment is applied. This heat-treated spice is obtained by heat-treating the heat-treatment spice.
[0049]
In the present specification, the “spicy for heat treatment” refers to a spice from which a flavor like curry powder is further extracted by heat treatment. Examples of spices for heat treatment include cumin, coriander, fennel, turmeric and fenugreek.
[0050]
The spices for heat treatment may be used singly or in combination of two or more.
[0051]
The spices for heat treatment may be separately heat-treated one by one, whether they are dry holes, cuts, powders, or after mixing two or more. May be performed.
[0052]
When the spice for heat treatment is a dry hole, it is preferable to grind after heat treatment.
[0053]
As long as the final product temperature is within the above range, any heating method known in the art can be used for the heat treatment of the drying hole, but it is preferable to perform the heat treatment with a roaster. For the pulverization after the heat treatment, any pulverization method known in the art can be used, but cumin, coriander and fennel are roll pulverized, and turmeric and fenugree are appropriately sized by a high-speed pulverizer (for example, 40 mesh). It is preferable to pulverize.
[0054]
For the heat treatment of the dry powder, any heating method known in the art can be used. As an example of such a heating method, a heating method using a normal roasting pot or the like can be given.
[0055]
When heat-treating the spices for heat treatment separately one by one, it is preferable that cumin takes 15-30 minutes to reach a product temperature of 80-110 ° C, and coriander takes 15-30 minutes to reach the product temperature. Up to 60-140 ° C, Fennel takes 10-25 minutes to reach final product temperature 65-120 ° C, Turmeric takes 20-45 minutes to ultimate product temperature 110-145 ° C, Fenugreek takes 15-45 minutes And heated to a final product temperature of 90 to 130 ° C.
[0056]
After reaching these product temperatures, the spices for heat treatment can be held at these product temperatures for about 1 to 15 minutes. After completion of the heat treatment, the heat-treated spice is immediately transferred to an environment where it is not heated.
[0057]
The weight of the heat-treated spice contained in the curry powder is 5 to 70 parts by weight, preferably 25 to 50 parts by weight, based on the weight of the curry powder. In a preferred embodiment, 1 to 5 kinds selected from turmeric 5 to 35 parts by weight, cumin 5 to 15 parts by weight, coriander 5 to 25 parts by weight, fenugreek 5 to 15 parts by weight and fennel 5 to 10 parts by weight are blended. The
[0058]
The blending amount of the heat-treated spice is within this range, so that the blue odor and unique flavor of the antioxidant spice are prevented from protruding, and the effect of having an excellent flavor having an appropriate flavor as curry powder Is preferably obtained. If the amount of the heat-treated spice is less than this range, the resulting effect will be weakened, and the blue odor and unique flavor of the antioxidant spice will be prominent, while the amount of the heat-treated spice is within this range. Exceeding the value tends to lack the volume of fragrance.
[0059]
(3) Other spices
The curry powder of the present invention may contain other spices that are neither the above-mentioned antioxidant spices nor heat treatment spices, if necessary. Examples of other spices include spices generally used as spices such as cardamom, nutmeg, garlic, onion, tarragon, parsley, celery, marjoram, mace, laurel, red pepper, black pepper, and white pepper.
[0060]
The weight of the other spices contained in the curry powder is appropriately selected so that the sum of the weight of the antioxidant spices and the heat treatment spices is 100 parts by weight.
[0061]
<Manufacture of curry powder>
The curry powder of the present invention is usually (1) a step of heat-treating the spice for heat treatment until the final product temperature reaches 60 to 145 ° C. to obtain a heat-treated spice, and (2) 5 to 70 parts by weight Manufactured by a method comprising the step of obtaining 100 parts by weight of a spice mixture containing the heat-treated spice and 20 to 70 parts by weight of antioxidant spice.
[0062]
Antioxidant spice has a low boiling point volatile fragrance component content, and when heated at 70 ° C or higher, the fragrance volatilizes and becomes adult, so the curry powder alone after blending is not subjected to heat treatment, From the point of view is desirable.
[0063]
The curry powder thus obtained can be sealed in various containers and used as an intermediate raw material for producing a product or a final product. It can be supplied again to a roll pulverizer and pulverized (sized).
[0064]
<Food using the curry powder of the present invention>
The curry powder of the present invention can be used by adding to various foods. The food product thus obtained contains the curry powder of the present invention. This curry powder is in a powdered or melted state in food.
[0065]
Since the food has high antioxidant properties, it can be used as a health food.
[0066]
Examples of foods in which the curry powder of the present invention can be used include curry roux, cooked curry, microwave oven curry, dry curry, curry soup, curry sauce, curry fried rice, curry udon, curry rice bowl and the like. Preference is given to producing a Carreau or retort product.
[0067]
As used herein, “curer roux” refers to, for example, a mixture of raw materials such as curry powder, salt, sugar, seasoning and the like mixed with wheat flour roux and cooled. The shape of the product of Kara Leu includes powder, granule, solid, flake, paste and the like. Curry roux is usually used as a raw material for cooking by adding water and ingredients, but can also be used for any other application.
[0068]
The “wheat flour roux” used in the present specification is obtained by frying starch-based materials (wheat flour, starch, etc.) and fats and oils so as not to burn. Wheat flour roux may contain seasonings such as curry powder, salt and sugar in addition to fats and oils and starch-based materials. The curry powder of the present invention can be added to wheat flour as a seasoning.
[0069]
In the present specification, “cooked curry” means cooked ingredients such as steamed meat, seafood, onion, carrot, potato, and curry powder, flour, edible oils, salt, sugar, seasonings, etc. The curry sauce is sealed in a container such as a retort pouch or can and sterilized under pressure, or aseptically packed and packaged. Cooked curry is also known as retort curry.
[0070]
In this specification, “microwave curry” means a set of cooked curry and retort cooked rice or aseptically packaged cooked rice.
[0071]
Curry roux is produced according to a method well known in the art using the curry powder of the present invention. The curry roux is typically produced so as to contain 1 to 20 parts by weight, preferably 2 to 10 parts by weight of the curry powder of the present invention, based on the weight of the curry roux.
[0072]
The cooked curry is produced according to a method well known in the art using the curry powder of the present invention. The cooked curry is typically prepared to contain 0.2 to 5 parts by weight, preferably 0.4 to 2 parts by weight of the curry powder of the present invention, based on 100 parts by weight of the cooked curry. Is done. By using the roux containing the curry powder obtained in the present invention, a high-quality curry can be cooked in flavor. Moreover, by using the retort product containing the curry powder of the present invention, a curry dish having a high flavor can be obtained.
[0073]
<Measurement method of antioxidant properties>
The effect of suppressing the production of radicals in the present specification is an effect of inhibiting the production of radicals in leukocytes, which is one of the radical generation sources. Leukocytes such as macrophages and neutrophils can be used as a means to resist the invasion of foreign substances such as viruses and bacteria.₂ ^-, Produces radicals such as NO and provides biological defense.
[0074]
However, on the other hand, the target of radicals is not limited to foreign substances derived from the living body, but is non-specific, so that the surrounding tissue is oxidatively damaged as a compensation for the treatment of foreign substances. Therefore, having the effect of suppressing leukocyte-derived radical production can be expected to reflect the actual antioxidant effect in vivo.
[0075]
Regarding the effect of suppressing radical production of spices (or curry powder), (1) O by a differentiated HL-60 cell (human prone leukemia 60 cell) system₂ ^-It can be confirmed by one or both of a production inhibition test and (2) a NO production inhibition test by RAW264.7 cells derived from mouse macrophages.
[0076]
The spice (or curry powder) is tested for its effect of suppressing radical production in the extracted state. The spice extract is obtained by adding a powdery spice to a 50% by volume ethanol aqueous solution, extracting components contained in the spice by shaking at 120 rpm at 30 ° C. for 20 hours, and then at 8000 rpm at 10 ° C. It is prepared by centrifuging for 10 minutes, removing the insoluble fraction, and concentrating the collected supernatant under reduced pressure until the remaining amount becomes constant. For the test of the radical production inhibitory effect, for example, a spice extract solution prepared to 200 μg / ml or less is provided for the test.
[0077]
(1) O with differentiated HL-60 cell line₂ ^-Production suppression test
O₂ ^-The effect of inhibiting production is measured as follows. First, a spice extract is dissolved in dimethyl sulfoxide to prepare a spice extract solution having a predetermined concentration.
[0078]
HL-60 cells are suspended in RPMI 1640 medium (containing 10% fetal calf serum, 62.5 μg / ml penicillin and 100 μg / ml streptomycin), and dimethyl sulfoxide is added 1.25% based on the volume of the medium. Culture for 6 days at 37 ° C. to obtain granulocyte-like cells. Harvest cells and add Hank's solution to 1 × 10⁶A cell suspension of granulocyte-like cells is prepared. Add 5 μl of spice extract solution to 1 ml of this cell suspension, react at 37 ° C. for 15 minutes, and after the reaction, centrifuge at 3000 rpm for 5 minutes, remove the supernatant, and then add 1 ml of fresh Hanks solution to the remaining cells. To prepare a cell suspension. To this cell suspension, 12-O-tetradecanoylphorbol-13-acetate solution was added to a final concentration of 100 nM and cytochrome C was added to a final concentration of 76 μM. React for 1 minute to obtain a reaction solution. This reaction solution is centrifuged at 3000 rpm for 5 minutes, and the absorbance of the supernatant is measured at 550 nm.
[0079]
As a control experiment, dimethyl sulfoxide is added to a final concentration of 0.5% instead of the spice extract solution, and the absorbance obtained by performing the same operation is defined as B.
[0080]
O₂ ^-Is determined by the following formula:
O₂ ^-(Nmol / ml) = 47.7 × (absorbance at 550 nm).
[0081]
O obtained by applying C and B obtained by the above operation to the absorbance of this formula₂ ^-The amount of (nmol / ml) is C ′ and B ′, respectively. From C ′ and B ′ thus obtained, O₂ ^-The effect A (%) of inhibiting production is obtained by the following formula:
A (%) = ((B′−C ′) / B ′) × 100
(2) NO production suppression test using RAW264.7 cells derived from mouse macrophages
In the present invention, the effect of suppressing NO production is the effect of suppressing the production of nitrite ions or L-citrulline. In order to measure the effect of suppressing the production of nitrite ions or L-citrulline, first, a 50% ethanol extract of spice powder is dissolved in dimethyl sulfoxide to prepare a spice extract solution having a predetermined concentration. Prepare a reaction solution such as
[0082]
DMEM medium (containing 10% fetal calf serum, 62.5 μg / ml penicillin and 100 μg / ml streptomycin) 2 × 10 2 per ml^FiveIndividually prepared RAW264.7 cells are pre-cultured overnight. After culturing, the mixture is centrifuged at 3000 rpm for 5 minutes, the supernatant is discarded, the precipitated cells are washed twice with phosphate buffered saline (PBS), and then fresh DMEM medium (serum-free) is added to the cell suspension. Prepare a suspension. This cell suspension was mixed with L-arginine (final concentration 2 mM), tetrahydrobiopterin (BH_FourA final concentration of 10 μg / ml), lipopolysaccharide (final concentration of 100 ng / ml), interferon-γ (final concentration of 100 U / ml) and a spice extract solution are added and reacted at 37 ° C. for 24 hours. After the reaction, it is centrifuged at 3000 rpm for 5 minutes, and the supernatant is taken out. Using the supernatant thus obtained, the amount of nitrite ion or L-citrulline produced is measured.
[0083]
The effect of suppressing the production of nitrite ions is measured as follows. 500 μl of the supernatant and grease reagent (5% phosphoric acid aqueous solution containing 1% sulfanilamide and N-1-naphthyl-ethylenediamine dihydrochloride aqueous solution mixed 1: 1) were mixed at 543 nm. The absorbance is measured, and this absorbance is defined as F.
[0084]
As a control experiment, dimethylsulfoxide is added to a final concentration of 0.5% instead of the spice extract solution, and the absorbance obtained by performing the same operation is defined as E.
[0085]
The effect D (%) of suppressing the production of nitrite ions from F and E thus obtained is obtained by the following formula:
D = ((E−F) / E) × 100
Moreover, the effect which suppresses production of L-citrulline is measured as follows. 110 ml distilled water, 50 ml sulfuric acid, 40 ml phosphoric acid and FeCl_Three  100 ml of a solution mixed with 50 mg, 50 ml of a solution of 250 mg of diacetylmonooxime in 50 ml of distilled water, 500 μl of a reagent prepared by mixing 5 mg of thiosemicarbazide, and 500 μl of the supernatant were mixed at 100 ° C. The reaction is carried out for 5 minutes, and the absorbance at 530 nm is measured.
[0086]
As a control experiment, dimethyl sulfoxide is added to a final concentration of 0.5% instead of the spice extract solution, and the absorbance obtained by performing the same operation is defined as H.
[0087]
The effect G (%) of suppressing the production of L-citrulline from I and H thus obtained is obtained by the following formula:
G = ((HI) / H) × 100
O by the differentiated HL-60 cell line of (1) above₂ ^-O confirmed in the production inhibition test or the NO production inhibition test with RAW264.7 cells derived from mouse macrophages in (2)₂ ^-It is necessary that the production inhibitory effect, the nitrite ion production inhibitory effect, and the L-citrulline production inhibitory effect are not caused by the cytotoxicity of the spice extract solution. Assays (can be confirmed by Journal of Immunological Methods, 157 (1993) 203-207, “An improved MTT assay”, Dariusz Snowski, Sarah J. Steer, Richard H. Clothier and Michael H.
[0088]
【Example】
Next, the present invention will be specifically described based on examples and comparative examples, but the present invention is not limited to the examples.
[0089]
<Example 1: Production of antioxidant curry powder>
The dried turmeric powder was placed in a roasting pot, and after 30 minutes, when the product temperature reached 110 ° C., heating was stopped and the product was cooled. Coriander, cumin, fenugreek, and fennel dry powders after 20 minutes to 95 ° C, 15 minutes to 80 ° C, 35 minutes to 110 ° C, 35 minutes to 110 ° C, 15 minutes to 90 ° C in the same manner as turmeric. At that time, heating was stopped and cooling was performed.
[0090]
Each heat-treated turmeric 28 parts by weight, coriander 17 parts by weight, cumin 7 parts by weight, fenugreek 6 parts by weight and fennel 6 parts by weight were mixed to obtain a mixture of heat-treated spices.
[0091]
Furthermore, 6 parts by weight of basil, 5 parts by weight of cinnamon, 5 parts by weight of red pepper, 4 parts by weight of star anise, 3 parts by weight of black pepper, 1.5 parts by weight of allspice, 1.0 part by weight of paprika, 1 part by weight nutmeg, 1 part by weight tarragon, 1 part by weight peppermint, 1 part by weight skin, 1 part by weight rudamon, 1 part by weight clove, 1 part by weight white pepper, 1 part by weight sage, 0.5 part by weight ginger, rose Each powder of 0.5 part by weight of Marie, 0.5 part by weight of savory, 0.5 part by weight of anise and 0.5 part by weight of caraway was mixed to obtain a spice powder mixture.
[0092]
The obtained spice powder mixture was passed through a 40-mesh sieve to obtain a uniform particle size, thereby obtaining curry powder. 1.0 g of the curry powder thus obtained was added to 100 ml of hot water, and the flavor was evaluated by a specialized panelist. The results are shown in Table 1. The curry powder thus obtained had a high scent, a specific fragrance was not strong, and there was no blue odor.
[0093]
In addition, according to the above-mentioned antioxidant measurement method, O of the obtained curry powder₂ ^-The effect of suppressing the production of nitrite ions and L-citrulline was measured. The results are shown in Table 2. As can be seen from Table 2, O at a concentration of 100 μg / ml.₂ ^-In addition, the production of nitrite ions and L-citrulline was suppressed by 50% or more, and the antioxidant property was very high. Thus, the curry powder of the present invention has a high antioxidant property and an excellent flavor.
[0094]
<Example 2: Production of antioxidant curry powder>
The dried cumin powder was placed in a roasting pot, and after 20 minutes, when the product temperature reached 90 ° C., the heating was stopped and the product was cooled. In the same manner as cumin, the dried powder of fenugreek was stopped after 35 minutes and the product temperature reached 95 ° C. and cooled.
[0095]
6 parts by weight of cumin and 8 parts by weight of fenugreek which had been heat-treated were mixed to obtain a mixture of heat-treated spices.
[0096]
Further to this mixture, 17 parts by weight of cinnamon, 15 parts by weight of basil, 11 parts by weight of star anise, 5 parts by weight of red pepper, 5 parts by weight of allspice, 4 parts by weight of nutmeg, 3.5 parts by weight of paprika, 3 parts by weight of skin Parts, black pepper 3 parts, tarragon 3 parts, peppermint 3 parts, onion 2.5 parts, garlic 2 parts, clove 2 parts, ginger 1.5 parts, parsley 1 part, rosemary 1 Each powder of parts by weight, 1 part by weight of caraway, 1 part by weight of anise, 0.5 part by weight of dill, 0.5 part by weight of thyme and 0.5 part by weight of savory was mixed to obtain a spice powder mixture.
[0097]
The obtained spice powder mixture was passed through a 40-mesh sieve to obtain a uniform particle size, thereby obtaining curry powder. 1.0 g of the curry powder thus obtained was added to 100 ml of hot water, and the flavor was evaluated by a specialized panelist. The results are shown in Table 1. The curry powder thus obtained had a high scent, a specific fragrance was not strong, and there was no blue odor.
[0098]
In addition, according to the above-mentioned antioxidant measurement method, O of the obtained curry powder₂ ^-The effect of suppressing the production of nitrite ions and L-citrulline was measured. The results are shown in Table 2. As can be seen from Table 2, O at a concentration of 100 μg / ml.₂ ^-In addition, the production of nitrite ions and L-citrulline was suppressed by 50% or more, and the antioxidant property was very high. Thus, the curry powder of the present invention has a high antioxidant property and an excellent flavor.
[0099]
<Comparative Example 1: Production of curry powder with low antioxidant property>
The dried turmeric powder was placed in a roasting pot, and after 30 minutes, when the product temperature reached 110 ° C., heating was stopped and the product was cooled. Coriander, cumin, fenugreek, and fennel dry powders after 20 minutes to 95 ° C, 15 minutes to 80 ° C, 35 minutes to 110 ° C, 35 minutes to 110 ° C, 15 minutes to 90 ° C in the same manner as turmeric. At that time, heating was stopped and cooling was performed.
[0100]
Each heat-treated turmeric 26 parts by weight, coriander 28 parts by weight, cumin 13 parts by weight, fenugreek 6 parts by weight and fennel 6 parts by weight were mixed to obtain a mixture of heat-treated spices.
[0101]
Furthermore, 5 parts by weight of red pepper, 3 parts by weight of cinnamon, 3 parts by weight of black pepper, 2 parts by weight of crust, 2 parts by weight of cardamom, 1 part by weight of nutmeg, 1 part by weight of allspice, 1 part by weight of clove, A spice powder mixture was obtained by mixing 1 part by weight of celery, 0.5 part by weight of ginger, 0.5 part by weight of rosemary, 0.5 part by weight of savory, and 0.5 part by weight of thyme.
[0102]
The obtained spice powder mixture was passed through a 40-mesh sieve to obtain a uniform particle size, thereby obtaining curry powder. 1.0 g of the curry powder thus obtained was added to 100 ml of hot water, and the flavor was evaluated by a specialized panelist. The results are shown in Table 1. The curry powder thus obtained had a high scent, a specific fragrance was not strong, and there was no blue odor.
[0103]
In addition, according to the above-mentioned antioxidant measurement method, O of the obtained curry powder₂ ^-The effect of suppressing the production of nitrite ions and L-citrulline was measured. The results are shown in Table 2. As can be seen from Table 2, O at a concentration of 100 μg / ml.₂ ^-In addition, the production of nitrite ions and L-citrulline was suppressed only by about 35%, and the antioxidant property was low. Thus, although the obtained curry powder was excellent in flavor, the antioxidant property was low.
[0104]
<Comparative Example 2: Production of curry powder with inferior flavor>
The dried turmeric powder was placed in a roasting pot, and after 30 minutes, when the product temperature reached 110 ° C., heating was stopped and the product was cooled. In the same manner as for turmeric, the dried powder of coriander and cumin was heated and cooled when the product temperature reached 95 ° C. after 20 minutes and the product temperature was 80 ° C. after 15 minutes, respectively.
[0105]
A mixture of heat-treated spices was obtained by mixing 10 parts by weight of turmeric, 5 parts by weight of coriander and 5 parts by weight of cumin which had been subjected to ripening treatment.
[0106]
Further to this mixture, 18 parts by weight of basil, 15 parts by weight of cinnamon, 10 parts by weight of star anise, 5 parts by weight of red pepper, 5 parts by weight of peppermint, 5 parts by weight of anise, 5 parts by weight of anise, 3 parts by weight of black pepper, A spice powder mixture was obtained by mixing 3 parts by weight of allspice, 3 parts by weight of clove, 3 parts by weight of rosemary, 2 parts by weight of savory, 2 parts by weight of dill and 1 part by weight of ginger.
[0107]
The mixture of various spice powders of the obtained spice powder mixture was passed through a 40-mesh sieve, and the particle sizes were made uniform to obtain curry powder. 1.0 g of the curry powder thus obtained was added to 100 ml of hot water, and the flavor was evaluated by a specialized panelist. The results are shown in Table 1. The curry powder thus obtained had a strong scent, but had a strong specific scent, a blue odor, and a low quality.
[0108]
In addition, according to the above-mentioned antioxidant measurement method, O of the obtained curry powder₂ ^-The effect of suppressing the production of nitrite ions and L-citrulline was measured. The results are shown in Table 2. As can be seen from Table 2, O at a concentration of 100 μg / ml.₂ ^-In addition, the production of nitrite ions and L-citrulline was suppressed by 50% or more, and the antioxidant property was very high. Thus, although the obtained curry powder had high antioxidant property, the flavor was inferior.
[0109]
<Comparative Example 3: Production of curry powder without roasting>
28 parts by weight of turmeric, 17 parts by weight of coriander, 7 parts by weight of cumin, 6 parts by weight of fenugreek, 6 parts by weight of fennel are mixed together, and further 6 parts by weight of basil, 5 parts by weight of cinnamon, 5 parts by weight of red pepper , 4 parts by weight of star anise, 3 parts by weight of black pepper, 1.5 parts by weight of allspice, 1.0 part by weight of paprika, 1 part by weight of nutmeg, 1 part by weight of tarragon, 1 part by weight of peppermint, 1 part by weight of crust, cardamom 1 Parts by weight, 1 part by weight of clove, 1 part by weight of white pepper, 1 part by weight of sage, 0.5 part by weight of ginger, 0.5 part by weight of rosemary, 0.5 part by weight of savory, 0.5 part by weight of anise, caraway 0.5 parts by weight of each powder was mixed to obtain a spice powder mixture.
[0110]
The obtained spice powder mixture was passed through a 40-mesh sieve to obtain a uniform particle size, thereby obtaining curry powder. 1.0 g of the curry powder thus obtained was added to 100 ml of hot water, and the flavor was evaluated by a specialized panelist. The results are shown in Table 1. The curry powder thus obtained had a strong scent, but had a strong specific scent, a blue odor, and a low quality.
[0111]
In addition, according to the above-mentioned antioxidant measurement method, O of the obtained curry powder₂ ^-The effect of suppressing the production of nitrite ions and L-citrulline was measured. The results are shown in Table 2. As can be seen from Table 2, O at a concentration of 100 μg / ml.₂ ^-In addition, the production of nitrite ions and L-citrulline was suppressed by 50% or more, and the antioxidant property was very high. Thus, although the obtained curry powder had high antioxidant property, the flavor was inferior.
[0112]
<Comparative Examples 4 and 5: Commercial Curry Powder>
Add 1.0 g of two types of commercially available general curry powder (Comparative Example 4: Special S-B Curry & S-Boo Foods Co., Ltd., Comparative Example 5: Special Curry Powder & House Foods Co., Ltd.) to 100 ml of hot water. The flavor was evaluated by a specialist panelist. The results are shown in Table 1. The curry powder thus obtained had a high scent, a specific fragrance was not strong, and there was no blue odor.
[0113]
In addition, according to the above-mentioned antioxidant measurement method, O of the obtained curry powder₂ ^-The effect of suppressing the production of nitrite ions and L-citrulline was measured. The results are shown in Table 2. As can be seen from Table 2, the commercially available curry powder had a low antioxidant property even though the flavor was excellent.
[0114]
[Table 1]

[0115]
[Table 2]

<Example 3: Production of curry roux and curry>
To 10 parts by weight of the curry powder obtained in Example 1, 32 parts by weight of fats and oils, 25 parts by weight of wheat flour, 8 parts by weight of salt, 10 parts by weight of sugar and 15 parts by weight of seasoning ingredients were added and mixed and heated to 130 ° C. Got Carreau.
[0116]
Curry was cooked using this curry roux by a conventional method.
[0117]
The curry thus obtained was of high quality having a spicy and profound fragrance and a rich flavor.
[0118]
【The invention's effect】
According to the present invention, a high-quality curry powder having an excellent flavor and a high antioxidant property and an appropriate flavor as a curry powder can be obtained. As for the curry powder of the present invention, curry powder having various degrees of antioxidant properties can be obtained by changing the amounts of the heat-treated spice and antioxidant spice. Foods such as curry roux and retort curry produced using the curry powder of the present invention are of high quality with excellent flavor.

Claims (10)

A curry powder having a high antioxidant property and a suitable flavor as curry powder, including an antioxidant spice and a heat-treated spice, wherein the curry powder is based on 100 parts by weight of the curry powder,
(1) a spice mixture comprising 20 to 70 parts by weight of antioxidant spices, and (2) 5 to 70 parts by weight of heat-treated spices,
The heat-treated spice is obtained by heat-treating the heat-treatment spice until the final product temperature reaches 60 to 145 ° C., where the heat-treated spice is one of two or more heat-treatment spices. kind by Ri mixture der of separate heat treatment two or more types of heat-treated spices went, the anti-oxidizing spices, caraway, peppermint, paprika, star anise, chenpi, basil, anise, rosemary, All spices, Sebori, cinnamon, dill, Ru mixture der of 5 or more spices selected from the group consisting of clove and thyme, curry powder. The antioxidant spices, differentiated HL-60 cell line as measured at a concentration of 200 [mu] g / ml as a 50% ethanol extract solution _{O 2} ^- production inhibition rate, or nitrite production inhibition rates of RAW264.7 cells or The curry powder according to claim 1, which is a spice having an L-citrulline production inhibition rate of 50% or more.   The curry powder according to claim 1, wherein the spice for heat treatment is selected from the group consisting of cumin, coriander, fennel, turmeric and fenugreek. As measured at a concentration of 100 [mu] g / ml as a 50% ethanol extract solution differentiated HL-60 cell line _{O 2} ^- production inhibition rate, or RAW264.7 cells nitrite production inhibition rate or L- citrulline production inhibition rate of The curry powder according to claim 1, which is 50% or more.   A food comprising the curry powder according to claim 1, wherein the curry powder is in a powdered state or a melted state. 6. The food product of claim 5 , selected from the group consisting of curry roux, cooked curry and microwave curry. A food comprising the curry powder according to claim 4 , wherein the curry powder is in a powdered state or a melted state. 8. A food product according to claim 7 , selected from the group consisting of curry roux, cooked curry and microwave curry. A method for producing curry powder having a high antioxidant property and a suitable flavor as curry powder,
(1) a step of heat-treating the heat-treatment spices to reach a final product temperature of 60 to 145 ° C. to obtain a heat-treated spice; and (2) 5 to 70 parts by weight of the heat-treated spices and 20 to 20 parts by weight. Obtaining 100 parts by weight of a spice mixture comprising 70 parts by weight of antioxidant spices;
Encompasses, where the heat treatment has been spices, Ri mixture der of two or more heat treated spices were two or more heat treatment spices one by separately heat treatment, the antibody oxide Sexual spice is a mixture of five or more spices selected from the group consisting of caraway, peppermint, paprika, star anise, cinnamon, basil, anise, rosemary, allspice, savory, cinnamon, dill, clove and thyme Oh Ru, method. The manufacturing method of a foodstuff including the process of adding the curry powder of Claim 1 or 4 to a foodstuff.