JP2010252726A - Antioxidant activity enhancement method for salmon and health food material - Google Patents

Abstract

[PROBLEMS] To enhance the high functionality of cocoons to increase the effective use of cocoons, and to dispose of non-standard products, fully-ripened products, and processing by-products, etc., due to a high-grade preference or poor aesthetics The purpose is to make effective use of persimmon peels that are not eaten and that are mostly discarded.
[Solution] The koji is made into a paste and lactic acid fermented to enhance the antioxidant activity function of koji. As lactic acid bacteria, figs, grapes, strawberries, ogi, isotoma (flowers) and color Lactic acid bacteria derived from (flower) and the like are preferable, and the antioxidant activity function is enhanced by double fermentation combined with plant tissue-disrupting enzyme.
[Selection] Figure 1

Description

The present invention relates to a method for enhancing the antioxidant activity function of a persimmon fruit or fruit.
In particular, the present invention relates to health foods using, as a raw material or ingredient, koji whose antioxidant activity function has been enhanced by this enhancement method, and relates to fermentation technology and health food manufacturing technology.

Persimmon is a fruit tree that is familiar to Japanese people since ancient times, and has been consumed in large quantities as raw fruit or as dried persimmon because of its sweetness.
In addition, sputum contains vitamin C and carotene, and has many physiological functions such as healthy tissue inside the skin, regeneration of capillaries, enhanced resistance to bacteria, regeneration of red blood cells, regulation of blood pressure, etc. It is effective and is effective in the prevention and treatment of blood vessel related diseases (arteriosclerosis, hypertension, heart disease), and further has the ability to protect cells from carcinogens, with antioxidant capacity. thing.

On the other hand, lactic acid fermentation is a fermentation phenomenon that occurs mainly by lactic acid bacteria and produces lactic acid, and has long been involved in the production of sake, soy sauce, miso brewing, various pickles, lactic acid beverages and cheese, It has been widely used as a fermentation related to eating habits.
Accordingly, it is well known to lactically ferment various food ingredients such as cereals, milk, fruits or vegetables.
In addition, various proposals have been made for lactic acid fermentation, and many proposals have been made for lactic acid fermentation of koji as a food material.

  Taking an example of lactic acid fermentation of foods containing koji, for example, in JP 2001-190251 A (Patent Document 1), from juices of fruits and vegetables that contain koji and are supposed to have an immunostimulatory action, A method for producing a fermented beverage has been reported in which a fermented beverage having a good flavor and easy to drink is obtained by using both fermentation by yeast and fermentation by lactic acid bacteria.

  JP-A-2004-313032 (Patent Document 2) discloses a functional substance having an antihypertensive effect by causing specific lactic acid bacteria to act on various food materials including sputum, particularly unused food materials. A method for producing a functional material that can produce γ-aminobutyric acid at a high concentration has been proposed.

Furthermore, in Japanese Patent Application Laid-Open No. 2004-357509 (Patent Document 3), vegetables and / or fruits having a high immunostimulatory capacity per se, Enterococcus faecalis having the strongest TNF activity among cocci are included in a predetermined ratio or more. It is disclosed that by fermenting with lactic acid bacteria, it is possible to obtain a lactic acid fermented food that has a high effect of activating the immune function of the living body and has a good flavor.

JP 2001-190251 A (Claims, paragraph 0017) JP 2004-313032 A (Claims, paragraph 0026) JP 2004-357509 A (Claims, paragraph 0056)

As described above, it has been proposed to effectively use koji by means of lactic acid fermentation. However, the ratio of koji used effectively is very small, and many of them are out of specification because they are inferior in the quality of taste or in appearance. It is sold as a product.
Above all, most of the cocoon skin that is produced when processing by-products are produced is simply discarded, and the processing is in trouble.

  In view of the present situation, the present invention uses lactic acid fermentation technology to promote more effective use of koji having the functions described above, thereby more efficiently using koji as a material with excellent functionality, particularly as a raw material for health foods. We studied earnestly to obtain the materials that can be used.

As a result, the inventors of the present invention have enhanced the antioxidant activity function inherent in koji by making koji paste into a paste form, and the material obtained by lactic acid fermentation is used as a health food material. Furthermore, the present invention was completed by discovering that it has the potential as a raw material for pharmaceuticals.

That is, the invention according to claim 1 of the present invention is
This is a method for enhancing the antioxidant activity function of koji, characterized in that koji is paste-like and lactic acid fermented.

The invention according to claim 2 of the present invention is
In the method for enhancing the antioxidant activity function of sputum according to claim 1,
The lactic acid fermentation is
It is performed using lactic acid bacteria derived from plants.

The invention according to claim 3 of the present invention is
In the method for enhancing the antioxidant activity function of sputum according to claim 2,
The plant is
It is one of fig, grape, strawberry, ogi, isotoma (flower) and color (flower).

The invention according to claim 4 of the present invention is
In the method for enhancing the antioxidant activity function of sputum according to any one of claims 1 to 3,
The lactic acid fermentation is
It is characterized by being performed in combination with a plant tissue disrupting enzyme.

The invention according to claim 5 of the present invention is
It is a health food material characterized by using cocoon as a raw material and having an enhanced antioxidant activity function provided by the method of enhancement according to any one of claims 1 to 4.

  The method for enhancing the antioxidant activity function of cocoons of the present invention can enhance the antioxidant activity function of cocoons by making cocoon paste into lactic acid fermentation. An excellent effect of not deteriorating the ability to suppress the reduction can be exhibited.

Further, the health food material obtained by the method for enhancing the antioxidant activity function of the koji, that is, the lactic acid fermented product has an excellent antioxidant activity function, and can be used as a raw material for health food and also for medicine. It is a sexual thing.
Therefore, according to the present invention, it is possible to further effectively use the waste discarded in large quantities, to greatly reduce industrial waste, and to achieve environmental maintenance.

It is a figure which shows the fall inhibitory effect of the erythrocyte deformability by the health food material of this invention.

  The koji used in the present invention is its fruit and / or skin, and can be used regardless of whether it is a sweet potato or astringent.

  The lactic acid fermentation of the paste-like koji employs stationary culture in a closed container for 1 to 7 days under fermentation conditions using a known lactic acid bacterium, for example, from room temperature to 40 ° C.

Although various lactic acid bacteria can be used, plant lactic acid bacteria are preferred.
Examples of the plant lactic acid bacteria include Lactobacillus plantarum, Leuconostoc mesenteroides, Enterococcus malodratas, Raccobacillus fermentum, Lactococcus lactis, and Vicera confusa.

In addition, in the method for enhancing the antioxidant activity function of koji according to the present invention, it is preferable to carry out parallel double fermentation using lactic acid fermentation and a food enzyme preparation.
Examples of food enzyme preparations include plant tissue disrupting enzymes.
Examples of commercially available products include cellulase preparations (cellulosin AC40) and pectinase preparations (cellulosin PE60) manufactured by HI Corporation.

<Acquisition of lactic acid bacteria>
Small pieces of separation sources such as various fruits and flowers were put into MRS medium, and static anaerobic culture was performed at 30 ° C. for about 1 week using aneropack.
In the culturing step, 10 ppm of cycloheximide was added to the MRS medium to suppress the growth of fungi such as yeast as necessary.
After completion of the enrichment culture, the culture solution was applied to an MRS plate medium containing 0.5% calcium carbonate, and anaerobic culture was performed at a temperature of 30 ° C. for several days.
Among the colonies appearing on the MRS plate medium, those in which calcium carbonate is dissolved in the surroundings due to acid generation are fished on the MRS medium in a test tube, and statically cultured at a temperature of 30 ° C. for 1 to several days. Then, the growth was observed as an isolate.
Among the isolates, a catalase test negative one was obtained as a lactic acid bacteria isolate.

<Identification of lactic acid bacteria>
The lactic acid bacteria isolate obtained above was identified by the following procedure, and the lactic acid bacteria shown in Table 1 below were obtained.
The saccharide utilization of lactic acid bacteria-like isolates was analyzed by APIWEB (Biomelieu) from the saccharide utilization pattern after 24 hours and 48 hours obtained with the API 50 CHL kit (Biomelieu). Comparison with the saccharide utilization pattern in the literature was also performed.
The base sequence of the 16S rRNA gene of the lactic acid bacteria isolate was extracted from genomic DNA from the lactic acid bacteria isolate, PCR, cloning, and sequence analysis of the 16S rRNA gene in the usual manner. A homology search was performed.

<Lactic acid fermentation of koji paste>
Using the above lactic acid bacteria, lactic acid fermentation of the koji paste was performed, and the characteristics including antioxidant activity were measured.
Lactic acid fermentation of koji paste was performed by inoculating 18 ml of koji paste pasted with a juicer with 2 ml of lactic acid bacteria culture solution pre-cultured in MRS medium, and stationary culture at 30 ° C. for 6 days.
Instead of the lactic acid bacteria culture solution, sterilized water or MRS medium added was cultured in the same manner.
After completion of the culture, a lactic acid fermentation supernatant of koji paste was obtained by centrifugation and filter filtration.
The antioxidant activity of the obtained supernatant was measured as DPPH radical scavenging ability by the method described below.
Further, the pH and the contents of sugar, lactic acid and the like of each supernatant sample were measured and shown in Table 2.

<Method for measuring antioxidant activity>
An equal amount of DPPH (1,1-diphenyl-2-picrylhydrazyl) solution, MES buffer, and 20% ethanol are added to the sample solution, and the mixture is reacted at room temperature for 20 minutes, and then the absorbance at 520 nm is measured. The activity was performed in the same manner.
A calibration curve of DPPH radical scavenging activity was created with Trolox, and the radical scavenging activity per g of sample was expressed as Trolox equivalent (nmol / g).

In the table, ND indicates that lactic acid and acetic acid were not detected or could not be measured due to impurities, “+” in the column of ethanol, and “−” not.

<Parallel double fermentation with enzyme preparation>
32 g of koji paste (sweet candy: koji), 4 ml of 4% enzyme preparation solution (cellulase preparation: cellulosin AC40) and 4 ml of the culture solution of lactic acid bacteria a were mixed, and anaerobic culture was performed at 30 ° C. for 3 days.
The obtained culture solution was centrifuged (10,000 × g, 60 minutes), and the wet weight (T) of the insoluble component was measured.
Similarly, a comparison was made between those using 4 ml of deionized water instead of the 4% enzyme preparation solution and those without lactic acid fermentation.
For the supernatant after centrifugation, the amount of reducing sugar, total sugar, total phenol, and antioxidant activity (β-carotene fading method, DPPH radical scavenging ability) were measured. Comparison was made between those using 4 ml of deionized water and those not subjected to lactic acid fermentation.
The results are shown in Table 3.

<Measurement method of antioxidant activity (β-carotene fading method)>
Antioxidant activity was measured by the following method according to the method of Miller et al. Using the action of linoleic acid oxide to discolor β-carotene.
The fading degree of β-carotene when the linoleic acid-β-carotene solution is added to the spectrophotometer test tube cell into which the sample has been dispensed and stirred and reacted in a thermostat at a temperature of 50 ° C. for 20 minutes. Was determined by the absorbance at 470 nm, the decrease in absorbance by the synthetic antioxidant butylhydroxyanisole (BHA) was measured, and the antioxidant activity of the sample was expressed by the concentration of BHA giving the same decrease as the sample.

<Blood circulation improvement effect>
About the lactic acid fermented product using the said lactic acid bacteria (af), aseptic culture (W), and unfermented product (N), it measured by the following method about the blood circulation improvement effect, The result is shown in FIG. It was.

<Measurement method of blood circulation improvement effect>
Blood collected in a blood collection tube containing a 3.8% sodium citrate solution was centrifuged at 2500 rpm for 10 minutes to precipitate red blood cells, washed, and then added with HEPES to prepare a 6.0% red blood cell suspension. .
After adding HEPES to the 6.0% erythrocyte suspension and preincubating at a temperature of 37.0 ° C., an AAPH solution, an AAPH solution and a sample were added, and incubated at a temperature of 37.0 ° C. for 45 minutes.
Then, it cooled on ice until it measured, and the measurement was performed after incubating again for 7 minutes at the temperature of 25.0 degreeC.

According to the method for enhancing antioxidant activity of sputum according to the present invention, the antioxidative activity inherent in sputum is greatly improved without reducing the blood circulation improvement effect that sputum has previously unknown. Therefore, it can be widely used not only in the health food industry but also in the pharmaceutical industry.

    None

Claims (5)

A method for enhancing the antioxidant activity function of koji, characterized in that koji is paste-like and lactic acid fermented. The lactic acid fermentation is
The method for enhancing the antioxidant activity function of cocoons according to claim 1, wherein the method is performed using plant-derived lactic acid bacteria. The plant is
The method for enhancing the antioxidant activity function of strawberries according to claim 2, wherein the method is any one of fig, grape, strawberry, ogi, isotoma (flower) and color (flower). The lactic acid fermentation is
The method for enhancing the antioxidant activity function of cocoons according to any one of claims 1 to 3, wherein the method is performed in combination with a plant tissue disrupting enzyme. A health food material characterized by using cocoon as a raw material and having an enhanced antioxidant activity function provided by the enhancement method according to any one of claims 1 to 4.