KR102315727B1 - Functional rice-nuruk and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a method for manufacturing malted rice, malted rice manufactured by a method, a composition for fermented food including malted rice, a composition for health functional food, and a fermenting method using malted rice. The method for manufacturing malted rice comprises: (a) a step of preparing rice or nonglutinous rice as a raw material by ultrasonic cleaning the rice or the nonglutinous rice for 2-3 hours; (b) a step of steaming the raw material at 95-110℃ for 40-50 minutes; (c) a step of cooling the steamed raw material at 40-50℃ and mixing the same with yeast; and (d) a step of incubating the raw material for 3 days by maintaining a temperature of 35-45℃ and a humidity of 70-90%. To overcome limitations of production of traditional malted rice with low sugar content and high possibility of contamination of bacteria, the present invention develops the method for manufacturing malted rice capable of increasing saccharification power by mixing various yeast strains at a specific ratio, and providing excellent functionality and excellent taste and aroma through contents of abundant bioactive substances and antioxidant activity.

Description

Functional rice-nuruk and manufacturing method thereof {Functional rice-nuruk and manufacturing method thereof}

The present invention comprises the steps of: (a) preparing rice or non-glutinous rice as a raw material by ultrasonic washing for 2 to 3 hours; (b) steaming the raw material at 95 to 110° C. for 40 to 50 minutes; (c) cooling the steamed raw material to 40 to 50° C., followed by blending with yeast; And (d) maintaining a temperature of 35 to 45 ° C and a humidity of 70 to 90% and culturing for 3 days; It relates to a composition for health functional food and a fermentation method using the rice yeast.

Fermentation is one of the reaction processes for generating energy and organic products, and is a process in which microorganisms obtain energy by decomposing organic nutrients such as glucose in an anaerobic environment. In addition, microorganisms involved in fermentation themselves enter the human body and have beneficial effects known as probiotics, which have a special effect on health. In 2006, three of the world's five health foods selected by the US Health magazine are fermented foods. From a long time ago, microorganisms, from fermented dairy products to various sauces, kimchi, fermented sausages, pharmaceuticals, and feed additives for livestock, have been closely related directly or indirectly to human life according to their characteristics. Fermented food has a higher flavor than conventional food, has antibacterial activity by generating bacteriocin, a substance that inhibits the growth of microorganisms, and plays a role in inhibiting the growth of spoilage bacteria in food by generating a large amount of lactic acid (Biosci Biotech) Bioch 61: 1211-1212, 1997). Also, in a previous study, there was a report that consumption of yogurt, one of the fermented foods, reduced the mortality from heart disease and type 2 diabetes (Brit J Nutr 113: S131-S135). Fermented foods can be broadly classified according to the raw materials used, and even if the same raw materials are used, foods produced in different countries around the world often have different characteristics. Most of the initial fermented foods occurred naturally in nature, but by identifying the causative bacteria of fermentation, excellent bacteria were isolated and the entire fermentation process was artificially managed.

On the other hand, koji refers to koji fungus that grows on cooked grains in a warm and humid environment. Specifically, under suitable conditions, microscopic yeast mold spores settle in cooked grains such as barley, wheat, and rice, and fungal cells reproduce with germinated mycelium. It refers to a mass of fungal grains that form a network known as a mycelium and grow white fluffy clumps. Yeast has an excellent ability to break down the molecular structure of starch and protein into small pieces, making it possible to perfectly ingest and absorb the nutrients of grains, as well as the unique taste such as sweetness and umami. Nuruk is used as a fermenting agent for making traditional liquors such as makgeolli and yakju, which are representative of Korea, and is made by crushing grains such as barley or wheat, adding moisture to form them, and then exposing them to the environment to allow various fermenting microorganisms to grow. For this reason, the diversity and content of microorganisms in koji is determined by geographic, physicochemical environment such as manufacturing region, temperature, and composition of raw materials. In the case of traditional yeast, since it is fermented by naturally attached microorganisms, there is a problem that there are many opportunities for contamination of various bacteria and difficulty in process management because the quality is not constant.

Under this background, the present inventors have completed the present invention by developing a method for producing rice yeast that can constantly maintain excellent quality by analyzing the functionality according to the type and content of the yeast strain in order to overcome the limitations of traditional yeast.

One object of the present invention is to prepare (a) rice or non-glutinous rice as a raw material by ultrasonic washing for 2 to 3 hours; (b) steaming the raw material at 95 to 110° C. for 40 to 50 minutes; (c) cooling the steamed raw material to 40 to 50° C., followed by blending with yeast; And (d) maintaining a temperature of 35 to 45 ℃ and a humidity of 70 to 90% and culturing for 3 days; to provide a method for producing rice yeast comprising a.

Another object of the present invention is to provide a rice yeast prepared by the above production method.

Another object of the present invention is to provide a composition for fermented food containing the rice yeast.

Another object of the present invention is to provide a composition for health functional food comprising the rice yeast.

Another object of the present invention is to provide a fermentation method using the rice yeast.

This will be described in detail as follows. Meanwhile, each description and embodiment disclosed in the present invention may be applied to each other description and embodiment. That is, all combinations of the various elements disclosed herein fall within the scope of the present invention. In addition, it cannot be considered that the scope of the present invention is limited by the specific descriptions described below.

One aspect of the present invention for achieving the above object, (a) preparing by ultrasonic washing rice or non-glutinous rice as a raw material for 2 to 3 hours; (b) steaming the raw material at 95 to 110° C. for 40 to 50 minutes; (c) cooling the steamed raw material to 40 to 50° C., followed by blending with yeast; And (d) maintaining a temperature of 35 to 45 ° C and a humidity of 70 to 90% and culturing for 3 days; provides a method for producing rice yeast comprising.

The yeast of the present invention is a fermenting agent made by propagating a fungus having an enzyme for making alcohol on grain, and according to the manufacturing method, a traditional yeast made by propagating mold, yeast, bacteria, etc. existing in a natural state, and a sterilized starch raw material It can be classified as an improved yeast made by inoculating culture on Traditional yeast has the advantage that the taste and flavor of fermented foods vary depending on the type of yeast because various microorganisms present in the yeast decompose carbohydrates and ferment alcohol at the same time. There is a problem that there is. On the other hand, improved yeast is used only as an enzyme source that decomposes starch during soaking, and safe fermentation and contamination of various bacteria are prevented, so that fermented food of constant quality can be obtained at all times. Accordingly, the yeast of the present invention may mean improved yeast prepared by inoculating a specific culture in order to overcome the problems of traditional yeast, but is not limited thereto.

Traditional Korean yeast is a microbial organism that has long been used as a starch degrading enzyme and a source of fermenting microorganisms in the production of takju, and has been manufactured using wheat as a main ingredient. In contrast, the yeast of the present invention refers to rice koji made from rice or non-glutinous rice as a raw material, and the present inventors have made diligent efforts to develop an efficient rice koji production process, as a result of specifying the conditions of the yeast strain and its production step, the production of rice koji of the present invention method was completed.

The rice yeast manufacturing method of the present invention includes (a) preparing by ultrasonically washing rice or non-glutinous rice as a raw material for 2 to 3 hours. The ultrasonic cleaning refers to a technique that uses a cavitation effect and a particle acceleration effect of ultrasonic waves, which are forms of high-frequency vibration energy, for cleaning, and has a strong particle removal power and a dispersion effect. In addition, non-contact cleaning is possible and has a high penetrating power in a narrow space.

In general, since the cavitation effect is weakened when the temperature of the liquid increases, it is advantageous that the temperature is not high in the case of ultrasonic cleaning. Therefore, the ultrasonic cleaning of the present invention may be carried out at 40 to 60 ℃, but is not limited thereto.

The rice yeast production method of the present invention includes (b) steaming the raw material at 95 to 110° C. for 40 to 50 minutes.

As used herein, the term “steaming” refers to an act of steaming and cooking raw materials using steam, and as long as the raw materials can be cooked by generating steam, the steaming equipment or steaming tools are not limited.

The steaming process is preferably made at a temperature of 95 to 110 ℃, if it is steamed at a temperature of less than 95 ℃, heat is not completely transferred to the inside of the raw material, and if it is steamed at a temperature higher than 110 ℃, the components of the raw material are destroyed It may lose its taste and nutrition. The steaming process is preferably carried out for 40 to 50 minutes, if the steaming time is less than 40 minutes, the raw material cannot have enough physical properties to be combined with the yeast, and if it is steamed for more than 50 minutes, the raw material contains excessive moisture can

The rice yeast production method of the present invention includes the step of (c) cooling the steamed raw material to 40 to 50 ℃, and then blending with yeast bacteria.

The cooling, if the temperature of the steamed raw material can be reduced to 40 to 50 ℃, the cooling equipment or its tool is not limited, and specifically, it may be a cooling fan. The cooling process is preferably to reduce the temperature of the steamed raw material to 40 to 50 ℃, if the temperature of the steamed raw material is too high or low outside the above range, the blended yeast may not be sufficiently proliferated.

The yeast of the present invention refers to a fungal strain exhibiting saccharification enzyme activity, and may include all molds used or added to the production of yeast. In the case of traditional yeast, wild yeast bacteria grow naturally, but these wild bacteria have different culture conditions such as temperature, humidity, and time, and show great differences in saccharification rate or content of active ingredients depending on the culture conditions. Therefore, in the present invention, the type of yeast strain used for the production of yeast was specified, and the difference in functionality according to the mixing ratio was confirmed.

The yeast of the present invention may be a mixture of Aspergillus oryzae , Lichtheimia corymbifera , Monascus pilosus and Rhizopus japonicus strains. have. Specifically, Aspergillus oryje, Lychtemia corimvipera, Monascus phyllus and Rhizopus japonica strains may be mixed in a weight ratio of 1: 1: 2 to 4: 2 to 4, more specifically As such, it may be mixed in a weight ratio of 1:1:4:4.

The yeast of the present invention may be formulated in 0.1 to 0.5 parts by weight based on the weight of the steamed raw material, specifically, it may be formulated in 0.3 parts by weight. When the yeast is blended in less than 0.1 parts by weight, fermentation does not proceed, and when the yeast is blended in more than 0.5 parts by weight, the physical properties may not be suitable, such as excessive saccharification proceeds and the rice yeast becomes soft.

The "Aspergillus oryzae " strain of the present invention is an organism belonging to the genus Aspergillus koji mold, and most of them reproduce asexually. Round seminal vesicles are formed at the end of the twigs of the upright mycelium, and twigs such as long and thin bottle-shaped, spherical, and club-shaped twigs are densely formed, and spores are formed at the tip. Individual spores are roughly spherical, but as the spores grow one after the other, they form long chains and disperse at their ends. It has decomposing enzymes such as amylase, maltase, invertase, cellulase, and inulinase, and among them, amylase is used to manufacture yeast through the action of decomposing starch into sugar.

The " Lichtheimia corymbifera " strain of the present invention is also called Absidia corymbifera , and is a genus of zygote fungus and hair fungus. The lower part of the columnar axis of the sporangia is enlarged and has a structure called apophysis.

"Monascus pilosus " of the present invention is also called hongguk gombangi, and has been traditionally used for the production of red rice. By biosynthesis of statin-based compounds such as monacolin K, mevinolin, and lovastatin that inhibit cholesterol biosynthesis, it has been reported to have the effect of preventing arteriosclerosis (J Antibiot 33: 334-336, 1980) and promoting bone formation (Korean J Nutr). 37: 423-430, 2004). However, it has not been used for the production of improved functionality by mixing with other yeast strains.

"Rhizopus japonicus " of the present invention is a zygomatic fungus with large sporangia, usually black. The main axis (columella) is hemispherical, and the hyphae are abundant and elongate. Starch has strong saccharification power, and although it has a small amount, it has alcohol fermentation power and protein decomposition power, and also has strong ability to produce organic acids such as lactic acid and fumaric acid. Although it has been reported on a method for manufacturing wheat yeast using Rhizopus japonica (KOREAN K. FOOD & NUTRITION 6(2), 96-102, 1993), it is mixed with other yeast strains to improve the functionality of rice yeast. It has not been used in manufacturing.

Another aspect of the present invention provides a rice yeast prepared by the above method.

The description of the term "rice nuruk" is the same as described above.

The rice koji of the present invention may be characterized by increased saccharification and antioxidant activity.

As used herein, the term “saccharogenic power (SP)” refers to the activity of an enzyme or acid to decompose polysaccharides into monosaccharides or disaccharides. 1 SP means that 1 g of enzyme produces 10 mg of glucose in 1 hour under certain test conditions.

Grains contain less sugar than fruits and mostly contain carbohydrates in the form of starch, so for fermentation, it is essential to first decompose starch into sugar through saccharification. The saccharification power (SP) of the present invention may refer to the ability of yeast to convert starch into glucose. In the case of traditional rice nuruk, the number of yeast required for fermentation is smaller than that of wheat nuruk, so the saccharification power is lower than that of wheat nuruk. The lower the saccharification power, the higher the likelihood that the food will go rancid in the manufacturing or distribution process of the fermented food using yeast, and the sour taste of the fermented food may become stronger and cause discomfort. Therefore, the present invention overcomes the limitations of the conventional rice yeast production method, and by controlling the mixing ratio and content of the yeast strain, it has excellent taste and flavor while developing a rice yeast production method with increased saccharification power compared to traditional rice yeast.

In a specific embodiment of the present invention, its saccharification power varies depending on the mixing ratio of Aspergillus oryse, Lychtemia corimvipera, Monascus phyllus and Rhizopus japonicus strains, and among the strains, Rhizopus japonicus It was confirmed that the higher the content ratio of the phonicus strain, the better the saccharification power (Experimental Example 1).

As used herein, the term “antioxidation” refers to inhibiting oxidation, specifically inhibiting cell oxidation. Oxygen that enters the body through respiration also has a beneficial effect such as making energy necessary for the body, but in the process, reactive oxygen species (ROS), which is an extra oxygen that is not good for the body, is generated. Reactive oxygen species are characterized by high energy and unstable reactivity than oxygen molecules. Active oxygen is generated in the living body and plays a role in defending the living body from the outside. Since oxygen occupies approximately 21% in the air, oxygen that enters the body through respiration is produced in a small amount during the metabolic process and acts as a phagocytic to prevent bacteria, fungi, and bacteria. Avoid infection from viruses. However, when it is present in excess, it tends to react with lipids, proteins, nucleic acids, and the like, thereby destroying cells as well as causing DNA mutations. In the living body, antioxidant enzymes such as superoxide dismutase (SOD), catalase, and glutathione peroxidase (GSHPx) that remove free radicals exist to prevent oxidative damage. It is known to cause various adult diseases and cancer.

DPPH (1,1-diphenyl-2-picrylhydrazyl) is widely used to evaluate the free radical scavenging ability of natural antioxidants. The degree of free radical scavenging activity of antioxidants depends on the hydrogen-donating ability of antioxidants. When observed with the naked eye, DPPH, which exhibits purple color, is reduced to yellow after reaction with an antioxidant with excellent free radical scavenging activity.

In a specific embodiment of the present invention, the DPPH scavenging ability of each yeast is different depending on the mixing ratio of the yeast strains, and Aspergillus oryse, Lychtemia corimvipera, Monascus phyllus and Rhizopus japonicus strains are It was confirmed that the antioxidant activity of Example 3 rice yeast mixed in 1:1:4:4 was the highest at 37.5% (Experimental Example 3).

As used herein, the term "biologically active material" refers to a material that enhances or inhibits the function of a living organism in leading an organism, and may enhance or inhibit an immune response. Natural physiologically active substances mainly contained in fruits, vegetables and grains prevent damage to human DNA and regenerate damaged areas. These physiologically active substances are estimated to be about 100,000, among them, polyphenols such as flavonoids, which are phenolic compounds, are being actively studied.

Polyphenol compounds are aromatic compounds having a hydroxyl group, and although they are obtained in small amounts from nature, they have been the subject of much interest because of their usefulness. Due to its effect, interest in it is very high. Polyphenol compounds are well known as natural antioxidants that can inhibit oxidative stress, and by ingestion of polyphenols, the antioxidant function in the human body is improved and various types of damage that can be caused by oxidative stress are prevented. It became possible to expect activity regulation and efficacy.

Among plant polyphenols, flavonoids are a group of substances having a structure in which two benzene rings (C6) are connected by three carbons. Various types of pigments such as anthocyanins, flavones, flavonols, and isoflavones are included in flavonoids, and are mainly present on the surface of fruits, leaves, and flowers. Various polyphenol compounds including flavonoids have been reported to have various physiologically active effects, and in particular, anti-inflammatory and anticancer activities based on antioxidant effects are known. Although studies have been actively conducted on polyphenols or flavonoids contained in fruits, there has been no report on the difference in the content of the physiologically active substances of yeast, and furthermore, the difference in the content of the physiologically active substances according to the difference between the yeast strains.

In a specific embodiment of the present invention, in order to check the correlation between the antioxidant activity of each rice nuruk and the content of polyphenols and flavonoids with different mixing ratios of the yeast strain, the total polyphenol and total flavonoid content of each rice nuruk is measured did. As a result, a positive correlation was derived from rice nuruk having high antioxidant activity with high polyphenol and flavonoid contents (Experimental Example 2). That is, it was found that the rice yeast prepared by the method of the present invention is rich in polyphenols and flavonoids, and thus its antioxidant activity is also excellent.

Another aspect of the present invention provides a composition for fermented food comprising the rice yeast.

The description of the term "rice nuruk" is the same as described above.

As used herein, the term “fermented food” refers to a food made through a fermentation process in which organic matter is decomposed by the action of microorganisms such as mold, bacteria, and yeast to synthesize new ingredients. The types of fermented foods are very diverse according to the types of microorganisms and the materials of the food, and as a result of the complex reaction, ingredients not contained in the raw materials are generated, improving the nutritional value, palatability, and storability. Alcohol fermentation, lactic acid fermentation, acetic acid fermentation, amino acid fermentation, etc., are used in various foods because the product varies depending on the type of fermenting bacteria and fermentation conditions. Dairy products such as alcoholic beverages, vinegar and cheese, fermented soybean foods, and pickles are representative fermented foods, and they are also applied to the processing of foods such as fermented tea, fermented tofu, fermented seasonings, and fermented bread. The main fermented foods in Korea are fermented vegetables such as soy sauce, soybean paste, gochujang, and cheonggukjang. Fermented food is made as a way to preserve food for a long time, and it is changed to a state that is easy to digest by the action of useful microorganisms. The organic acid produced by fermentation improves taste, maintains homeostasis of intestinal microbes, and acts as an intestinal tract by inhibiting the growth of harmful bacteria.

The fermented food of the present invention means a food containing rice koji produced by the method of the present invention, and may mean a food that undergoes a fermentation process using the rice koji produced by the method of the present invention, and is commonly used in the art. It can be prepared by the method used. Specifically, the fermented food may be a fermented beverage, fermented salt, salted fish, fermented liquor, vinegar, or soy sauce.

The fermented beverage of the present invention means a beverage made by fermenting the rice yeast of the present invention, and specifically, it may include fermented tea, fermented milk, fermented soup, etc., but if the food is fermented with the rice yeast and can be consumed, it includes without limitation do. In a specific embodiment of the present invention, a fermented rice yeast beverage was prepared using rice koji and glutinous rice of the present invention (Preparation Example 2), but a fermented beverage may be prepared using brown rice as well as glutinous rice, and the rice koji of the present invention Fermented beverages can be used as a light breakfast substitute, healthy snack, or dessert.

The fermented salt of the present invention refers to a food prepared by fermenting the rice yeast of the present invention in salt. Compared to general salt, the sodium content is lower and the umami taste is increased, so it can be used as a seasoning for various dishes.

The salted fish of the present invention refers to a food obtained by fermenting the main ingredient mainly composed of fish and shellfish with salt or the like and fermenting it using the rice koji of the present invention. For example, salted shrimp, salted clams, salted squid, salted octopus, anchovy fish sauce, canary fish sauce, etc. are included. Considering that the raw materials become soft due to the action of yeast, the fish sauce is preferred.

The fermented wine of the present invention refers to alcohol obtained by mixing and fermenting the rice koji of the present invention with grains, and it is a fact in the art that the characteristics and taste of the fermented wine are different depending on the raw material and the yeast. Makgeolli prepared from rice koji of the present invention is rich in lactic acid bacteria, which helps to improve intestinal function, and is rich in physiologically active substances, so it can exhibit antioxidant activity. For example, the fermented liquor includes makgeolli, dongdongju, or cheongju.

The vinegar of the present invention is a sour seasoning with a unique fragrance, and refers to a food fermented using the rice koji of the present invention using grains or fruits as raw materials. For example, the vinegar includes rice vinegar, brown rice vinegar, grain vinegar, malt vinegar, apple vinegar, grape vinegar, red wine vinegar, persimmon vinegar, balsamic vinegar, herbal vinegar, and the like.

Soy sauce of the present invention refers to a seasoning fermented by using soybean as a raw material and rice koji of the present invention. For example, doenjang, red pepper paste, soy sauce, ssamjang, makjang, etc. are included.

Another aspect of the present invention provides a composition for health functional food comprising the rice yeast.

The description of the term "rice nuruk" is the same as described above.

As used herein, the term "health functional food" refers to food manufactured and processed in the form of tablets, capsules, powders, granules, liquids, pills, etc. using raw materials or ingredients useful in the human body. Here, "functionality" refers to obtaining useful effects for health purposes, such as regulating nutrients or physiological actions with respect to the structure and function of the human body. The health functional food of the present invention can be prepared by a method commonly used in the art, and during the manufacture, it can be prepared by adding raw materials and components commonly added in the art. In addition, the dosage form of the health functional food is also included without limitation as long as it is a dosage form recognized as a health functional food.

The health functional food of the present invention is not limited in its form as long as it can contain the rice koji produced by the method of the present invention, and if the activity of the rice koji can be exhibited, its content is also not limited.

The health functional food of the present invention may contain various flavoring agents or natural carbohydrates as additional ingredients. The above-mentioned natural carbohydrates are monosaccharides such as glucose and fructose, disaccharides such as maltose and sucrose, polysaccharides such as dextrin and cyclodextrin, and sugar alcohols such as xylitol, sorbitol and erythritol. As the sweetener, natural sweeteners such as taumatine and stevia extract or synthetic sweeteners such as saccharin and aspartame may be used.

In addition to the above, the health functional food of the present invention includes various nutrients, vitamins, electrolytes, flavoring agents, coloring agents, pectic acid and salts thereof, alginic acid and salts thereof, protective colloidal thickeners, pH regulators, stabilizers, preservatives, glycerin, alcohol, It may contain a carbonation agent used in carbonated beverages, and the like. These components may be used independently or in combination.

Another aspect of the present invention provides a fermentation method using the rice yeast.

The description of the term "rice nuruk" is the same as described above.

The term "fermentation" of the present invention refers to a decomposition of organic matter that occurs in an anaerobic state in which oxygen is insufficient, and the fermentation method of the present invention includes all processes of fermentation using the rice koji produced by the method of the present invention.

In order to overcome the limitations of traditional rice nuruk production with low saccharification power and high possibility of contamination with various bacteria, the present invention not only increases its saccharification power by mixing various yeast strains in a specific ratio, but also increases the content of abundant physiologically active substances and antioxidant activity. We developed a method for producing rice koji that has excellent taste and aroma while having excellent functionality.

Hereinafter, the present invention will be described in more detail through examples. However, these examples are for illustrative purposes only and the scope of the present invention is not limited to these examples.

Preparation Example 1. Preparation of rice yeast

In order to prepare the rice yeast of the present invention, the raw material rice was washed 5 times with general water, and then foreign substances were removed with the naked eye and ultrasonic washing was performed for 2 hours and 30 minutes in an ultrasonic washing machine. The washed rice was placed in a steamer and steamed by heating at 100° C. for 45 minutes. After that, the steamed rice is placed on a workbench and cooled to 45 ° C with wind, prepared by yeast ( Aspergillus oryzae , Lichtheimia corymbifera ), Monascus pilosus ( Monascus pilosus ) ) and Rhizopus japonicus ( Rhizopus japonicus )) and mixed evenly. The yeast was added in an amount of 0.3 parts by weight based on the weight of the steamed rice, and the mixture was cultured for 3 days at a temperature of 40° C. and a humidity of 80% to prepare rice yeast.

In the present invention, in order to check the effect difference according to the type of yeast bacteria and the mixing ratio thereof, as shown in Table 1 below, the weight ratio of each strain was different and the method was the same to prepare the rice yeast of Examples and Comparative Examples.

A. oryzae L. corymbifera M. pilosus R. japonicus Example 1 One One 2 One Example 2 One One One 2 Example 3 One One 4 4 Comparative Example 1 One One One One Comparative Example 2 2 One One One Comparative Example 3 One 2 One One Comparative Example 4 2 2 One One Comparative Example 5 One One 2 2

As shown in Table 1, the yeast of Examples 1 to 3 and Comparative Example 5 has a higher content of Monascus phyllus and/or Rhizopus japonica strain, and the yeast of Comparative Examples 1 to 4 is Aspergillus A higher content of the Oryje and / or Lychtemia corimvipera strain was prepared.

Experimental Example 1. Evaluation of saccharification (SP) of rice koji

The saccharogenic power (SP: Saccharogenic Power) of the rice koji of the present invention was analyzed according to the alcohol analysis regulations. Specifically, the reduction equivalent (mg) produced by 1 g of sample yeast acting on a substrate, which is a 2% soluble starch solution at 55 ° C. for 1 hour, was expressed as SP (mg/hour), and the saccharification rate of the substrate was 15% It was calculated by multiplying the dilution factor by the glycation rate in .

A. oryzae :
A. awamori :
M, pilosus :
R. japonicus
mixing ratio Saccharification Power (SP) Example 1 1:1:2:1 502 Example 2 1:1:1:2 838 Example 3 1:1:4:4 794 Comparative Example 1 1:1:1:1 366 Comparative Example 2 2:1:1:1 584 Comparative Example 3 1:2:1:1 539 Comparative Example 4 2:2:1:1 617 Comparative Example 5 1:1:2:2 746

As shown in Table 2, the saccharification power of rice yeast was Example 2 in which Aspergillus oryje, Lychtemia corimvipera, Monascus phyllus and Rhizopus japonicus strains were mixed at 1:1:1:2. It was confirmed that the saccharification power of rice koji was the highest, and the rice koji of Example 3, which was a mixing ratio of 1:1:4:4, and the rice koji of Comparative Example 5, which had a mixing ratio of 1:1:2:2, showed the next highest saccharification power. . Through the above results, it was found that, in the case of rice yeast prepared by the method of the present invention, the higher the content ratio of Rhizopus japonica, the better the saccharification power.

Experimental Example 2. Evaluation of the content of physiologically active substances in rice koji

In order to analyze the functionality of the rice yeast prepared by the method of the present invention, the total polyphenol content and flavonoid content of each yeast extract were measured. Specifically, after adding ethanol 10 times the weight of yeast in Examples and Comparative Examples, extraction was performed at room temperature for 24 hours, followed by filtration to obtain a yeast extract.

Total polyphenol content was measured by Folin-Denis method, 2% Na ₂ CO ₃ solution was added to 50 μl of each yeast extract, 50 μl of Folin &Ciocalteu's phenol solution was mixed, and then reacted at room temperature for 30 minutes, and absorbance was measured at 760 nm. did.

For the total flavonoid content, 4 ml of 90% diethylene glycol was added to 400 μl of each yeast extract, 40 μl of 1N NaOH was added thereto, reacted at 37° C. for 1 hour, and absorbance was measured at 420 nm.

Total polyphenol (mg/g) Total flavonoids (mg/g) Example 1 8.1±0.1 3.0±0.3 Example 2 7.3±0.2 1.9±0.1 Example 3 10.1±0.5 3.4±0.1 Comparative Example 1 5.9±0.1 0.8±0.0 Comparative Example 2 6.2±1.2 0.9±0.1 Comparative Example 3 5.2±0.3 0.3±0.0 Comparative Example 4 7.7±0.1 1.2±0.1 Comparative Example 5 8.9±0.3 2.5±0.0

As a result of evaluating the total polyphenol and total flavonoid content of rice nuruk, as shown in Table 3 above, the rice nuruk of Example 3 had the highest polyphenol and flavonoid content as 10.1 ± 0.5 mg / g and 3.4 ± 0.1 mg / g, respectively. indicated. Next, it was confirmed that the polyphenol and flavonoid contents were high in the order of Comparative Example 5, Example 1, Example 2, and Comparative Example 4.

Through the above results, it was found that the difference in the content of the physiologically active substance was large according to the mixing ratio of the yeast strain, and the following experiment was carried out in anticipation that the antioxidant activity according to the difference in the content of the physiologically active substance would also be different.

Experimental Example 3. Evaluation of antioxidant activity of rice yeast

Examples and Comparative Examples In order to compare and analyze the antioxidant activity of rice nuruk, the DPPH radical scavenging ability of each rice nuruk was measured. Specifically, ethanol was added to the rice yeast extract prepared in Experimental Example 2, diluted to a concentration of 25 mg/100 ml, and the DPPH reagent was prepared by dissolving it in ethanol to a concentration of 0.1 mM in a state of blocking light. After adding 0.5ml of sample and 3ml of DPPH reagent, blocking light for 20 minutes and reacting, absorbance was measured at 519 nm with a spectrophotometer. The measured values were calculated as EDA (electron donating ability, %) values using the following formula, and are shown in Table 4 below.

DPPH radical scavenging activity (%) = (1-Abs _sample /Abs _control ) X 100

Radical scavenging activity (%) Example 1 26.2±0.4 Example 2 18.5±0.1 Example 3 37.5±0.6 Comparative Example 1 8.1±0.9 Comparative Example 2 10.2±0.8 Comparative Example 3 7.4±0.1 Comparative Example 4 15.4±0.2 Comparative Example 5 20.8±0.7

As a result, as shown in Table 4, Example 3 rice yeast in which Aspergillus oryje, Lychtemia corimvipera, Monascus phyllus and Rhizopus japonicus strains were mixed in a ratio of 1:1:4:4 It was confirmed that the antioxidant activity of 37.5% was the highest. Next, it was confirmed that the rice nuruk of Example 1 having a mixing ratio of 1:1:2:1 and the rice nuruk of Comparative Example 5 having a mixing ratio of 1:1:2:2 showed high antioxidant efficacy in the order.

These results were found to correspond to the results of Experimental Example 2 in relation to the difference in polyphenol and flavonoid content according to the mixing ratio of the yeast strain.

Preparation Example 2. Preparation of fermented rice yeast beverage

A rice yeast fermented beverage was prepared using the rice yeast of the present invention. Specifically, 300 g of glutinous rice was soaked for 30 minutes or more, and steamed with jinbap. In the meantime, knead the rice yeast with warm water to loosen it well. When the glutinous rice is finished, add 1.4L of water, cool it to 50℃, and stir well to mix it evenly with each other. The well-mixed rice koji glutinous rice was first aged for 9 hours by maintaining a temperature of 60 to 65°C, then lowered to a temperature of 4 to 8°C and secondarily aged for 12 hours, then 3 at -2 to 4°C for 36 hours. A fermented rice yeast beverage was prepared by aging tea.

Except for using the rice yeast of Examples 1-3 and Comparative Examples 1-5, the rice yeast fermented beverage prepared by the above-described method was named as the fermented beverage of Examples 1-3 and Comparative Examples 1-5, and the following experiment was carried out did.

Experimental Example 4. Sensory evaluation of fermented rice yeast beverage

In order to evaluate the preference of the fermented rice yeast beverage prepared using the rice yeast of the present invention, a comparative sensory evaluation was performed on the fermented beverages of Examples and Comparative Examples of Preparation Example 2.

The sensory test was carried out by selecting 25 adult men and women in their 20s - 50s, and specifically, the age and gender were evenly distributed to 5 people in each group. Odor, swallowing, and overall palatability were evaluated. For the rating, a 10-point rating method was used, and the higher the preference, the higher the score. After taking a sip of each fermented beverage, each item was evaluated, and the process of rinsing the mouth with water and taking another fermented beverage again after 5 minutes was repeated and evaluated.

taste incense throat swallow Overall Preference Example 1 9.0 8.7 8.3 8.6 Example 2 8.7 9.3 8.8 9.0 Example 3 9.5 9.1 8.9 9.2 Comparative Example 1 8.1 8.5 7.8 8.0 Comparative Example 2 7.8 8.3 8.1 8.1 Comparative Example 3 7.5 8.6 7.5 7.8 Comparative Example 4 8.0 8.2 7.6 7.9 Comparative Example 5 8.4 8.6 9.4 8.6

As a result of sensory evaluation of the fermented beverage prepared from rice yeast of the present invention, as shown in Table 5, it was confirmed that the fermented beverage of Example 3 had a high overall preference including taste and aroma. In particular, it was found that the fermented beverage of Example 3 was significantly superior in taste evaluation compared to other fermented beverages, followed by Example 1 with a relatively high content ratio of Monascus phyllus or Rhizopus japonica strain. It was confirmed that the overall preference for Example 2 and Comparative Example 5 fermented beverages was high.

It was found that the saccharification power and the content of physiologically active substances of the rice koji prepared by the method of the present invention were completely different depending on the mixing ratio of the yeast strain, and accordingly, the activity of the rice koji such as antioxidant also occurred, and further, the above It was found that the taste and aroma of the fermented rice yeast beverage produced using rice yeast was also affected. Summarizing the above results, Aspergillus oryzae, Lychtemia corimvipera, Monascus phyllus and Rhizopus japonica strains are 1: 1: 2 to 4: Manufactured using a mixture of yeast bacteria in a ratio of 2 to 4: The overall functionality of one rice koji was the best.

From the above description, those skilled in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential characteristics thereof. In this regard, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The scope of the present invention should be construed as being included in the scope of the present invention, rather than the above detailed description, all changes or modifications derived from the meaning and scope of the claims described below and their equivalents.

Claims (10)

(a) preparing by ultrasonically washing rice or non-glutinous rice as a raw material for 2 to 3 hours;
(b) steaming the raw material at 95 to 110° C. for 40 to 50 minutes;
(c) cooling the steamed raw material to 40 to 50° C. and then blending with 0.1 to 0.5 parts by weight of yeast based on the weight of the steamed raw material; and
(d) maintaining a temperature of 35 to 45 ° C and a humidity of 70 to 90% and culturing for 3 days;
The yeast is Aspergillus oryzae ( Aspergillus oryzae ), Lichtheimia corymbifera ), Monascus pilosus ( Monascus pilosus ) and Rhizopus japonicus ) strains are 1:1:4: It is mixed in a weight ratio of 4,
The rice nuruk is characterized in that the saccharification power and antioxidant activity is increased, rice nuruk manufacturing method.
delete delete delete A rice yeast prepared by the method of claim 1, wherein the rice yeast has increased saccharification and antioxidant activity.
delete A composition for fermented food comprising the rice yeast of claim 5, wherein the fermented food is a fermented beverage, fermented salt, salted fish, fermented liquor, vinegar, or soy sauce.
delete delete A fermentation method comprising the step of adding the rice yeast of claim 5.