METHOD FOR PRODUCING FERMENTED COFFEE CULTURED WITH GRAIN SOLID-TYPE MUSHROOM MYCELIUM SEEDS

Abstract

The present invention relates to a method for producing fermented coffee comprising immersing green coffee beans in an extract; sterilizing the immersed coffee beans, followed by cooling; and separating grain solid-type seeds from the fermented product of the cooled coffee beans, followed by drying, and fermented coffee produced by the method.

Claims

1. A method for producing fermented coffee comprising: (1) adding 4.5 to 5.5 g of Tetragonia tetragonoides and 4.5 to 5.5 g of Rumex crispus to 180 to 220 mL of water, followed by extraction at 90 to 110 C. for 2 to 4 hours and filtration to prepare an extract; (2) immersing green coffee beans in the extract prepared in step (1) at 18 to 22 C. for 5 to 10 hours; (3) laying ivy leaves on the tray of a sterilizer and placing the coffee beans immersed in step (2) on the ivy leaves, followed by sterilization at 110 to 130 C. for 50 to 70 minutes and cooling; (4) applying grain solid-type seeds to the green coffee beans cooled in step (3), followed by culturing at 18 to 22 C. for 20 to 25 days; and (5) separating the grain solid-type seeds from the fermented product of the green coffee beans cultured in step (4), followed by drying such that the moisture content is 10 to 13% (v/w).

2. The method for producing fermented coffee of claim 1, wherein the grain is one or more selected from the group consisting of brown rice, white rice, black rice, red rice, green rice, red rice, barley, black barley, oats, wheat, sorghum, corn, beans, rye, mung beans, coix radish, foxtail millet, millet, red beans and buckwheat.

3. A fermented coffee produced by the method of claim 1.

4. A fermented coffee produced by the method of claim 4.

Description

BRIEF DESCRIPTION OF DRAWINGS

[0010] FIG. 1 is a photograph showing the seeds separated after culturing green coffee beans with solid-type grain seeds.

MODE FOR INVENTION

[0011] In order to achieve the object of the present invention, the present invention provides a method for producing fermented coffee comprising [0012] (1) adding Tetragonia tetragonoides and Rumex crispus to water, followed by extraction and filtration, to prepare an extract; [0013] (2) immersing green coffee beans in the extract prepared in step (1); [0014] (3) laying ivy leaves on the tray of a sterilizer and placing the coffee beans immersed in step (2) on the ivy leaves, followed by sterilization and cooling; [0015] (4) applying grain solid-type seeds to the green coffee beans cooled in step (3), followed by culturing; and [0016] (5) separating the grain solid-type seeds from the fermented coffee beans cultured in step (4), followed by drying.

[0017] In the method for producing fermented coffee of the present invention, the extract in step (1) may be prepared, preferably by adding 4.5 to 5.5 g of Tetragonia tetragonoides and 4.5 to 5.5 g of Rumex crispus to 180 to 220 mL of water, followed by extraction at 90 to 110 C. for 2 to 4 hours and filtration, and more preferably by adding 5 g of Tetragonia tetragonoides and 5 g of Rumex crispus to 200 mL of water, followed by extraction at 100 C. for 3 hours and filtration.

[0018] In addition, in the method for producing fermented coffee of the present invention, the immersion in step (2) may be carried out preferably by immersing green coffee beans in the extract at 18 to 22 C. for 5 to 10 hours, and more preferably by immersing green coffee beans in the extract at 20 C. for 8 hours.

[0019] In addition, in the method for producing fermented coffee of the present invention, the sterilization in step (3) may be carried out preferably by laying ivy leaves on the tray of a sterilizer and placing coffee beans on the ivy leaves, followed by sterilization at 110 to 130 C. for 50 to 70 minutes and cooling, and more preferably by laying ivy leaves on the tray of a sterilizer and placing coffee beans on the ivy leaves, followed by sterilization at 121 C. for 60 minutes and cooling.

[0020] In order to ferment green coffee beans, green coffee beans should be immersed and sterilized as described above, which has the advantage of supplying moisture to the green beans, causing them to swell and softening the tissue, allowing for good culture.

[0021] In addition, in the method for producing fermented coffee of the present invention, step (4) may be carried out preferably by applying grain solid-type seeds to the cooled green coffee beans, followed by culturing at 18 to 22 C. for 20 to 25 days. Culturing green coffee beans under the above-described conditions increased the content of ingredients useful to a human body contained in coffee, improved the taste and flavor of coffee, and reduced the bitter taste of coffee. However, the conditions for culturing outside the above-described range was not preferred because the effect of the culture was minimal or an off-flavor occurred due to overfermentation.

[0022] The grain solid-type seeds are made preferably by inoculating mushroom mycelium into grains that were immersed in water and sterilized, followed by culturing.

[0023] The mushroom mycelium may be one or more selected from the group consisting of: Shiitake, Phellinus linteus, Ganoderma lucidum, Poria cocos, Agaricus, Hericium erinaceus, Cordiceps, Trametes versicolor, Polyporus umbellatus, Oyster mushroom, Enoki mushroom, King oyster mushroom, Sparassis crispa, Maitake mushroom, Chaga mushroom, Fomitella fraxinea, Wood ear mushroom, Agrocybe aegerita, Antler ganoderma Lucidum, Matsutake, Lentinus edodes, and Truffle, but the present invention is not limited thereto.

[0024] In addition, the grain may be one or more selected from the group consisting of brown rice, white rice, black rice, red rice, green rice, red rice, barley, black barley, oats, wheat, sorghum, corn, beans, rye, mung beans, coix radish, foxtail millet, millet, red beans and buckwheat, but the present invention is not limited thereto.

[0025] In addition, in the method for producing fermented coffee of the present invention, step (5) may be carried out preferably by separating the grain solid-type seeds from the fermented product of the cultured green coffee beans, followed by drying such that the moisture content is 10 to 13% (v/w). It is preferred to dry green coffee beans under the conditions in order to prevent additional fermentation thereof.

[0026] The method for producing fermented coffee of the present invention may, more specifically, comprise the steps of: [0027] (1) adding 4.5 to 5.5 g of Tetragonia tetragonoides and 4.5 to 5.5 g of Rumex crispus to 180 to 220 mL of water, followed by extraction at 90 to 110 C. for 2 to 4 hours and filtration, to prepare an extract; [0028] (2) immersing green coffee beans in the extract at 18 to 22 C. for 5 to 10 hours; [0029] (3) laying ivy leaves on the tray of a sterilizer and placing coffee beans on the ivy leaves, followed by sterilization at 110 to 130 C. for 50 to 70 minutes and cooling; [0030] (4) applying grain solid-type seeds to the cooled green coffee beans, followed by culturing at 18 to 22 C. for 20 to 25 days; and [0031] (5) separating the grain solid-type seeds from the fermented product of the cultured green coffee beans, followed by drying such that the moisture content is 10 to 13% (v/w).

[0032] The method may, further more specifically, comprise the steps of: [0033] (1) adding 5 g of Tetragonia tetragonoides and 5 g of Rumex crispus to 200 mL of water, followed by extraction at 100 C. for 3 hours and filtration, to prepare an extract; [0034] (2) immersing green coffee beans in the extract at 20 C. for 8 hours; [0035] (3) laying ivy leaves on the tray of a sterilizer and placing coffee beans on the ivy leaves, followed by sterilization at 121 C. for 60 minutes and cooling; [0036] (4) applying grain solid-type seeds to the cooled green coffee beans, followed by culturing at 18 to 22 C. for 20 to 25 days; and [0037] (5) separating the grain solid-type seeds from the fermented product of the cultured green coffee beans, followed by drying such that the moisture content is 10 to 13% (v/w).

[0038] The present invention also provides fermented coffee produced by the above-described method.

[0039] Hereinafter, the present invention will be described in detail by the following embodiments. However, the following embodiments are only for illustrating the present invention, and the present invention is not limited thereto.

Preparation Example 1. Fermented Coffee

[0040] (1) 5 g of Tetragonia tetragonoides and 5 g of Rumex crispus were added to 200 mL of purified water, followed by extraction at 100 C. for 3 hours and filtration, to prepare an extract. [0041] (2) 100 g of green coffee beans were immersed in 200 mL of the extract prepared in step (1) at 20 C. for 8 hours. [0042] (3) Ivy leaves were laid on the tray of a sterilizer, and the coffee beans immersed in step (2) were placed on the ivy leaves, followed by sterilization at 121 C. for 60 minutes and cooling to 20 C. in a cooling room. [0043] (4) 15 mL of brown rice grain solid-type seeds were evenly applied to the top of the green coffee beans cooled in step (3), and cultured in a culture room at 18 to 22 C. for 20 to 25 days. In the culturing process, the container was shaken 10 days after inoculation to create an air gap such that the culture was evenly spread across the bottom and entire container.

[0044] The brown rice grain solid-type seeds are made by inoculating shiitake mushroom mycelium into brown rice immersed in water and sterilized, followed by culturing at 25 C. for 20 days. [0045] (5) The brown rice grain solid-type seeds were separated from the fermented coffee beans cultured in step (4), and the fermented coffee beans were dried such that the moisture content was 10 to 13% (v/w).

Comparative Example 1. Coffee

[0046] (1) 100 g of green coffee beans were immersed in 200 mL of purified water at 20 C. for 8 hours. [0047] (2) The green coffee beans immersed in step (1) were placed on the tray of a sterilizer, followed by sterilization at 121 C. for 60 minutes and cooling to 20 C. in a cooling room. [0048] (3) The green coffee beans cooled in step (2) were dried such that the moisture content was 10 to 13% (v/w).

Comparative Example 2. Fermented Coffee

[0049] (1) 100 g of green coffee beans were immersed in 200 mL of purified water at 20 C. for 8 hours. [0050] (2) The green coffee beans immersed in step (1) were placed on the tray of a sterilizer, followed by sterilization at 121 C. for 60 minutes and cooling to 20 C. in a cooling room. [0051] (3) 15 mL of brown rice grain solid-type seeds were evenly applied to the top of the green coffee beans cooled in step (2), and cultured in a culture room at 18 to 22 C. for 20 to 25 days. In the culturing process, the container was shaken 10 days after inoculation to create an air gap such that the culture was evenly spread across the bottom and entire container.

[0052] The brown rice grain solid-type seeds are made by inoculating shiitake mushroom mycelium into brown rice immersed in water and sterilized, followed by culturing at 25 C. for 20 days. [0053] (4) The brown rice grain solid-type seeds were separated from the fermented coffee beans cultured in step (3), and the fermented coffee beans were dried such that the moisture content was 10 to 13% (v/w).

Comparative Example 3. Fermented Coffee

[0054] (1) 10 g of Tetragonia tetragonoides were added to 200 mL of purified water, followed by extraction at 100 C. for 3 hours and filtration, to prepare an extract. [0055] (2) Fermented coffee was prepared by using the extract prepared in step (1) in the same manner as steps (2) to (5) of Preparation Example 1.

Comparative Example 4. Fermented Coffee

[0056] (1) 10 g of Rumex crispus were added to 200 mL of purified water, followed by extraction at 100 C. for 3 hours and filtration, to prepare an extract. [0057] (2) Fermented coffee was prepared by using the extract prepared in step (1) in the same manner as steps (2) to (5) of Preparation Example 1.

Comparative Example 5. Fermented Coffee

[0058] (1) 5 g of Tetragonia tetragonoides and 5 g of Rumex crispus were added to 200 mL of purified water, followed by extraction at 100 C. for 3 hours and filtration, to prepare an extract. [0059] (2) 100 g of green coffee beans were immersed in 200 mL of the extract prepared in step (1) at 20 C. for 8 hours. [0060] (3) The green coffee beans immersed in step (2) above were placed on the tray of a sterilizer, followed by sterilization at 121 C. for 60 minutes and cooling to 20 C. in a cooling room. [0061] (4) Fermented coffee was prepared by using the green coffee beans cooled in step (3) in the same manner as steps (4) to (5) of Preparation Example 1.

Example 1. Beta-Glucan Analysis

[0062] Beta-glucan in the sample was measured by using the Megazyme kit (Mushroom and Yeast -glucan Assay Procedure K-YBGL, Megazyme, Ireland).

[0063] First, 100 mg of the ground sample obtained by filtering the total glucan through a 100 mesh sieve was placed in a tube, added with 1.5 mL of 37% HCl, and placed in a constant temperature water bath at 30 C. for 45 minutes to decompose same. Afterwards, 10 mL of distilled water was added to vortex same, and cultured at 100 C. for 2 hours. Afterwards, while being cooled at room temperature, the sample was added with 10 mL of 2N KOH, adjusted to 100 mL by using 200 mM sodium acetate buffer, and thoroughly mixed.

[0064] Afterwards, 0.1 mL of the supernatant was added with 0.1 mL of exo-1,3--glucanase plus -glucosidase dissolved in 200 mM of sodium acetate buffer, 0.2 mL of acetate buffer as a reagent blank, 0.1 mL of D-glucose standard and 0.1 mL of acetate buffer, followed by mixing and culturing at 40 C. for 60 minutes. Then, 3 mL of glucose oxidase/peroxidase mixture (GOPOD) was added and cultured at 40 C. for 20 minutes, and absorbance was measured at 510 nm.

TABLE-US-00001 TABLE 1 -glucan (%) of fermented coffee Type of fermented coffee -glucan (%) Preparation Example 1 5.6 0.2 Comparative Example 1 ND (Not detected) Comparative Example 1 2.3 0.1

[0065] As a result, -glucan was not detected in the coffee of Comparative Example 1, and the -glucan content was found to be higher in the fermented coffee of Preparation Example 1, as compared to the fermented coffee of Comparative Example 2.

Example 2. DPPH Radical Scavenging Ability

[0066] To determine the antioxidant activity of each coffee, the antioxidant activity was measured by hydrogen electron donation ability. The samples were diluted with distilled water, and 900 l of DPPH solution (100 uM) was mixed with 100 l of each sample and stirred. The hydrogen electron donating ability was averaged by repeating each experiment three times, and the degree of decrease in absorbance relative to the control was calculated using the following equation:

DPPH radical scavenging ability (%)=(AB)/A100 [0067] A: Absorbance of DPPH solution without addition of sample [0068] B: Absorbance of the sample reacted with DPPH in the reaction solution

TABLE-US-00002 TABLE 2 Antioxidant activity (%) of fermented coffee Type of fermented coffee DPPH radical scavenging ability (%) Preparation Example 1 69.2 1.4 Comparative Example 1 45.3 0.9 Comparative Example 2 55.2 2.1 Comparative Example 3 61.0 1.3 Comparative Example 4 59.3 1.8 Comparative Example 5 62.8 1.0

[0069] The results of measuring the DPPH radical scavenging ability by diluting fermented coffee are shown in Table 2 above. As a result, it was found that the fermented coffee of Preparation Example 1 had the highest DPPH radical scavenging ability.

Example 3. Sensory Test

[0070] A test on the sensory properties was conducted on 50 testers by using the coffees of Preparation Example 1 and comparative examples. The coffee extract obtained by roasting each coffee with medium roasting, grinding, and hot water extraction using hand drip was consumed by each of the testers, which was repeated 3 times, and the aroma, taste, smoothness, and overall preference were classified by using a 5-point preference scale (1 point: very bad, 4 points: bad, 3 points: average, 4 points: good, 5 points: very good), and the average was calculated.

TABLE-US-00003 TABLE 3 Test on the sensory properties of coffee Overall Type of Coffee Aroma Taste Smoothness preference Preparation 4.5 4.4 4.2 4.3 Example 1 Comparative 3.3 3.4 3.5 3.3 Example 1 Comparative 3.8 3.7 3.8 3.5 Example 2 Comparative 3.9 3.9 3.9 3.7 Example 3 Comparative 4.0 4.0 4.0 3.9 Example 4 Comparative 4.1 3.9 4.0 3.8 Example 5

[0071] The results of the test on the sensory properties of the extract from each coffee are shown in Table 3 above. As a result, the fermented coffee of Preparation Example 1 showed higher scores in all items, as compared to the coffees of comparative examples, and it was found that the fermented coffee of Preparation Example 1 had a high -glucan content and excellent antioxidant activity and was suitable for consumers' tastes.