RICE MILK USING RICE PROTEIN AND METHOD FOR PREPARING THEREOF

Abstract

A rice milk according to an embodiment of the present invention includes a mixture of rice protein powder and rice enzyme digestion extract concentrate in purified water. The rice milk using rice protein is suitable for allergy-sensitive elderly and infants to drink and also provides functionality to stressed adults because it has milk properties, high nutritional value and good digestion by mixing rice enzyme decomposition extract obtained by digesting rice starch and rice protein with subsidiary ingredients. In addition a method for preparing a rice milk using rice protein according to an embodiment of the present invention includes a first enzymatic digestion step, a second enzymatic digestion step, a filtration step, a rice protein powdering step, and a rice enzyme extract saccharification solution concentration step.

Claims

1. A rice milk comprising a mixture of a rice protein powder and a rice enzyme digestion extract concentrate in purified water.

2. The rice milk of claim 1, wherein the mixture further comprises an enzymatic extract of kelp, seaweed and bamboo leaf, fructooligosaccharide, soy lecithin, vegetable cream, mixed lactobacillus powder, refined salt, citric acid and sodium bicarbonate.

3. The rice milk of claim 2, wherein the mixture comprises the purified water 80 wt %, the rice protein powder 6 wt %, the rice enzyme extract concentrate 10 wt %, the enzymatic extract of kelp, seaweed and bamboo leaf 0.4 wt %, the fructooligosaccharide 0.6 wt %, the soy lecithin 2 wt %, the vegetable cream 0.3 wt %, the mixed lactobacillus powder 0.15 wt %, the refined salt 0.15 wt %, the citric acid 0.2 wt %, and the sodium hydrogencarbonate 0.2 wt % are mixed and added.

4. The rice milk of claim 1, wherein the rice protein powder and the rice enzyme digestion extract concentrate are prepared by a process comprising: a first enzymatic digestion step of preparing a mixture comprising a substrate comprised of rice, water and -amylase, wherein a weight of the water is 3 to 5 times of the weight of the rice, and a weight of a-amylase is 0.3 percent of a weight of the substrate, and then enzymatically digesting the substrate at 90 C. for 1 hour to prepare a first-enzymatic digested mixture; a second enzymatic digestion step of cooling the first-enzymatic digested mixture after the first enzymatic digestion step to 50 C., and then enzymatically digesting the first-enzymatic digested mixture for about 3.5 hours at a temperature of 50 C. by adding 0.5% saccharogenic amylase to the weight of the substrate to prepare a secondary enzymatically degraded formulation; a filtration step of inactivating the saccharogenic amylase of the secondary enzymatically degraded formulation at a temperature of 90 C. for about 0.5 hour, and then filtering the enzyme-inactivated formulation through a filter cloth to separate a sludge comprising rice protein and a filtrate comprising sugar solution; a rice protein powdering step of homogenizing the sludge obtained by the filtration step and then drying the homogenized sludge to obtain a rice protein powder; and a rice enzyme extract saccharification solution concentration step of concentrating and sterilizing the filtrate obtained in the filtration step to obtain a rice enzyme digestion extract concentrate

5. The rice milk of claim 2, wherein the rice protein powder and the rice enzyme digestion extract concentrate are prepared by a process comprising: a first enzymatic digestion step of preparing a mixture comprising a substrate comprised of rice, water and a-amylase, wherein a weight of the water is 3 to 5 times of the weight of the rice, and a weight of a-amylase is 0.3 percent of a weight of the substrate, and then enzymatically digesting the substrate at 90 C. for 1 hour to prepare a first-enzymatic digested mixture; a second enzymatic digestion step of cooling the first-enzymatic digested mixture after the first enzymatic digestion step to 50 C., and then enzymatically digesting the first-enzymatic digested mixture for about 3.5 hours at a temperature of 50 C. by adding 0.5% saccharogenic amylase to the weight of the substrate to prepare a secondary enzymatically degraded formulation; a filtration step of inactivating the saccharogenic amylase of the secondary enzymatically degraded formulation at a temperature of 90 C. for about 0.5 hour, and then filtering the enzyme-inactivated formulation through a filter cloth to separate a sludge comprising rice protein and a filtrate comprising sugar solution; a rice protein powdering step of homogenizing the sludge obtained by the filtration step and then drying the homogenized sludge to obtain a rice protein powder; a rice enzyme extract saccharification solution concentration step of concentrating and sterilizing the filtrate obtained in the filtration step to obtain a rice enzyme digestion extract concentrate; and mixing the rice protein powder and the rice enzyme digestion extract concentrate in purified water to prepare the rice milk.

6. A method for producing a rice milk, the method comprising: a first enzymatic digestion step of preparing a mixture comprising a substrate comprised of rice, water and a-amylase, wherein a weight of the water is 3 to 5 times of the weight of the rice, and a weight of a-amylase is 0.3 percent of a weight of the substrate, and then enzymatically digesting the substrate at 90 C. for 1 hour to prepare a first-enzymatic digested mixture; a second enzymatic digestion step of cooling the first-enzymatic digested mixture after the first enzymatic digestion step to 50 C., and then enzymatically digesting the first-enzymatic digested mixture for about 3.5 hours at a temperature of 50 C. by adding 0.5% saccharogenic amylase to the weight of the substrate to prepare a secondary enzymatically degraded formulation; a filtration step of inactivating the saccharogenic amylase of the secondary enzymatically degraded formulation at a temperature of 90 C. for about 0.5 hour, and then filtering the enzyme-inactivated formulation through a filter cloth to separate a sludge comprising rice protein and a filtrate comprising sugar solution; a rice protein powdering step of homogenizing the sludge obtained by the filtration step and then drying the homogenized sludge to obtain a rice protein powder; a rice enzyme extract saccharification solution concentration step of concentrating and sterilizing the filtrate obtained in the filtration step to obtain a rice enzyme digestion extract concentrate; and preparing a mixture comprising the rice protein powder and the rice enzyme digestion extract concentrate in purified water to produce the rice milk.

7. The method of claim 6, wherein the mixture further comprises an enzymatic extract of kelp, seaweed and bamboo leaf, fructooligosaccharide, soy lecithin, vegetable cream, mixed lactobacillus powder, refined salt, citric acid and sodium bicarbonate.

8. The method of claim 6, wherein the mixture comprises the purified water 80 wt %, the rice protein powder 6 wt %, the rice enzyme extract concentrate 10 wt %, the enzymatic extract of kelp, seaweed and bamboo leaf 0.4 wt %, the fructooligosaccharide 0.6 wt %, the soy lecithin 2 wt %, the vegetable cream 0.3 wt %, the mixed lactobacillus powder 0.15 wt %, the refined salt 0.15 wt %, the citric acid 0.2 wt %, and the sodium hydrogencarbonate 0.2 wt % are mixed and added.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] FIG. 1 is a flow diagram illustrating a method of producing a rice milk using rice protein according to an embodiment of the present invention.

SPECIFIC CONTENTS TO CARRY OUT INVENTION

[0017] Hereinafter, with reference to the drawings and embodiments will be described in more detail a rice milk using rice protein and a method for preparing thereof.

[0018] The present invention relates to a technique for preparing a rice milk product having a milk property by mixing the rice enzymatic extract and the rice protein obtained by decomposing rice starch with an enzyme with subsidiary materials such as prebiotic.

EXAMPLE 1

Extraction of Rice Protein

[0019] A: first enzymatic digestion step (S10)

[0020] Rice is enzymatically decomposed about 1 hour at a temperature of 90 C. by mixing with water of 3 to 5 times the weight of rice and 0.3% -amylase by weight of rice.

[0021] B: secondary enzymatic digestion step (S20)

[0022] The formulation after the first enzymatic digestion step is cooled to 50 C., and then enzymatically decomposed about 3.5 hours at a temperature of 50 C. by adding 0.5% of saccharogenic amylase to the weight of the substrate (rice).

[0023] C: filtration step (S30)

[0024] The enzyme of the second enzymatically decomposed compound is inactivated at a temperature of 90 C. for about 0.5 hours (30 minutes), and the enzyme-inactivated compound is separated by a filter cloth into a sludge (rice protein) and a filtrate (sugar solution).

[0025] D: rice protein powdering step (S40)

[0026] The sludge obtained by filtration in the said filtration step is homogenized and then dried (freeze drying or spray drying) to obtain rice protein powder.

[0027] E: rice enzyme extract saccharification solution concentration step (S50)

[0028] The filtrate obtained by filtration in the said filtration step is concentrated and sterilized to obtain a rice enzyme decomposition extract concentrate.

[0029] Table 1 below summarizes the nutritional composition of rice protein powder and rice (white rice, brown rice) obtained through the above process, and Table 2 summarizes the constituent amino acid content of the rice protein powder.

TABLE-US-00001 TABLE 1 Nutrient White rice(100 g) Rice protein powder (100 g) Carbohydrate 80 34.77 (g) Dietary Fiber (1.30 g) Dietary Fiber (1.55 g) Protein (g) 7.10 54.50 Fat (g) 0.66 4.18 Calorie (Kcal) 130

TABLE-US-00002 TABLE 2 Constituent amino acids Content (mg/100 g) Tyrosine 2150.46 Glycine 2462.46 Serine 2852.46 Alanine 3025.08 Glutamic acid 9410.15 Lysine 1529.08 Leucine 4361.38 Methionine 787.08 Valine 2749.69 Arginine 4317.23 Aspartic acid 4848.77 Isoleucine 1932.77 Threonine 1960.31 Phenylalanine 2874.31 Proline 2345.85 Histidine 1222.31 Cystine 304.93 Tryptophan 250.47

EXAMPLE 1

Preparation of Rice Protein Milk

[0030] The rice protein powder and the rice enzyme decomposition extract concentrate isolated in the said Example 1 were used as the main raw materials, and these were mixed with the following sub raw materials to prepare a rice milk composition.

[0031] Main raw materials: Rice enzyme digestion extract concentrate (rice enzyme digestion saccharification solution), rice protein powder, prebiotic

[0032] Side ingredients: emulsifier(soybean lecithin), lactic acid bacteria, purified salt, citric acid, sodium hydrogen carbonate

[0033] Other: purified water

[0034] As the prebiotic, an enzymatic digestion extract of kelp, seaweed and bamboo leaf is used. The said enzymatic digestion extract of kelp, seaweed and bamboo leaves is the enzymatic digestion extract which to the mixture of kelp: laver: bamboo leaf=2:1:1 (weight ratio), 0.5% of the enzyme (VISCOZYME, FUNGAMYL) by weight of the mixture was added, followed by enzymatic digestion and extraction at 50 C. for 3 hr.

[0035] Table 3 below summarizes the mixing ratio of the rice milk composition using the rice protein.

[0036] Table 4 summarizes the nutritional components of the rice protein milk prepared as described above.

TABLE-US-00003 TABLE 3 Compounding No. Raw material content (g) Remarks 1 Purified water 80 2 Rice protein 6 Main raw material 3 Rice enzymatic 10 Main raw extraction material concentrate 4 Enzymatic digestion 0.4 Prebiotic extract of kelp, seaweed and bamboo leaf 5 Fructooligosaccharide 0.6 Prebiotic 6 Soy lecithin 2 Natural emulsifiers 7 Vegetable cream 0.3 8 Lactobacillus 0.15 Blended Powder 9 Refined salt 0.15 10 Citric acid 0.2 pH adjustment 11 Sodium hydrogen 0.2 pH carbonate adjustment Total 100

TABLE-US-00004 TABLE 4 Nutrients Unit Content carbohydrate g/100 ml 7.6 Crude protein g/100 ml 3.8 Crude fat g/100 ml 0.1

[0037] Rice milk using a rice protein described above and shown in the drawings and a method of manufacturing the same are just one embodiment for carrying out the present invention, and should not be construed as limiting the technical spirit of the present invention. The scope of protection of the present invention is defined only by the matters set forth in the claims below. And modified and modified embodiments without departing from the spirit of the invention will be within the scope of the invention as long as it will be apparent to those skilled in the art.