KR100330674B1 - Sliced Kimchi and Kimchi Juice made by using Leuconostoc citreum IH22 - Google Patents

Abstract

PURPOSE: Provided are kimchi and kimchi juice, which are excellent in acid resistance and matured within a short period of time, and keeps a taste and flavor thereof, by using Leuconostoc citreum IH22 strain(KCTC 0542BP). CONSTITUTION: Kimchi is characteristically fermented by using Leuconostoc citreum IH22 strain(KCTC 0542BP) as a starter. It is further added with red beet. Kimchi juice from a mixture of chinese cabbage, radish, red beet, and various kinds of flavorings is characteristically fermented by using Leuconostoc citreum IH22 strain(KCTC 0542BP) as a starter. The Leuconostoc citreum IH22 strain(KCTC 0542BP) is obtained by cultivation in a sugar medium.

Description

Kimchi and Kimchi Juice prepared using Luconosstock Citrium IH22 strain. {Sliced Kimchi and Kimchi Juice made by using Leuconostoc citreum IH22}

The present invention relates to kimchi and kimchi juice prepared by using the Leuconostoc citreum IH22 lactic acid bacteria producing dextran.

Kimchi, a traditional Korean fermented food, is highly likely to be exported to countries around the world. In order for kimchi to be exported, it is important not only to improve the quality of the product, but also to improve the preservation in the distribution process, and to reduce the distribution cost.To date, studies of kimchi are mainly used to improve the taste of kimchi. The study was conducted on packaging methods to increase the value of kimchi and on the microorganisms involved in fermenting kimchi. The results of studies on microorganisms related to kimchi fermentation indicate that lactic acid bacteria are important for fermentation, and that lactose, including Lactobacillus plantarum, appears mainly at the beginning of fermentation, mainly Leuconostoc mesenteroides. It is a fact that Bacillus (Lactobacillus) occurs mainly. Many studies have been conducted to find ways to keep luconosestock species in kimchi for a long time, but good results have not been reported.

In addition, studies using luconosestock as a starter have been conducted and reported in the patent literature, but it has not been very helpful in improving the quality of kimchi.

An object of the present invention is to provide a method for producing kimchi and kimchi juice having high preservation and shortening the manufacturing time by using Luconosstock Citrium IH22 lactic acid bacteria, which are relatively resistant to acids, as a starter. .

Figure 1 is a graph of the pH change when the kimchi added to Lukonoscitrium IH22 is aged at 20 ℃.

Figure 2 is a graph of total acidity change when aged kimchi added to Luconostock citrium IH22 at 20 ℃.

Figure 3 is a graph of the change in pH and total acidity when aged kimchi added Lukonostock citrium IH22 and beet at 20 ℃.

Figure 4 is a graph of the change in pH and total acidity when the juice added Lukonostock citrium IH22 and beet at 20 ℃.

Figure 5 is a graph showing the change of viable bacteria when culturing Luconosstock Citrium IH22 in 0.05M citric acid solution of pH 3, pH 4, 25 ℃, 3 days.

Figure 6 is a graph of the change of viable bacteria when culturing Luconosstock Citrium IH22 in artificial gastric juice of pH 2.5 for 3 hours.

Strains used in the present invention are lactic acid bacteria (Leuconostoc citreum IH22) lactic acid bacteria isolated from Kimchi (deposit institution: Korea Gene Bank, deposit number: KCTC 0542 BP, date of deposit: November 2, 1998) , Kimchi and kimchi juice of the present invention is prepared using the Luconostock citrium IH22.

The strain used in the present invention is isolated by the following method.

After making kimchi in the usual way, ferment it at 15 ℃ and take samples up to the kimchi ripening machine at 12 hour intervals, and dilute by 10-fold dilution with sterile physiological saline so that 30 to 300 colonies are formed. 10 g of tryptone per liter, 5 g of yeast extract, 5 g of dipotassium phosphate, 5 g of ammonium citrate, 50 g of sugar, 50 g of sugar, pH 7.0} and plated in a 25 ° C. incubator for 2-3 days Incubate. As various types of dextran-producing bacteria grow, 30 colonies of different shapes are taken and separated from the MRS plate medium. Thirty strains were largely divided into four groups by the Bugy's manual species identification method, the largest of which contained 19 strains.

Luconosstock Citrium IH22 strain used in the present invention is one strain out of 19.

The strain used in the present invention has the characteristics as shown in Table 1 and can be classified as lukonostium citrium in view of these characteristics.

Luconosstock Citrium IH22 is a strain that secretes insoluble dextran and thus does not utilize ribose and lactose.

The strain is 0.673 h ^-1 in the sugar medium, the doubling time (doubling time) is 1.03h is showing a faster growth than other lactic acid bacteria.

16S rRNA gene analysis of strains; The strain of the present invention was determined to be Lukonostium citrium, but to clarify this, 16S rRNA gene sequence was determined. Strains cultured in MRS medium at 25 ° C were taken to isolate chromosomes and SL-1 (5'gagtttgatcctggctcag3 ') and A portion of the 16S rRNA gene was amplified using a polymerase chain reaction (PCR) method using the SL-2 probe (5'agaaaggaggtgatccagcc3 ') {Suzuki & Yamasato, FEMS Microbiol. Lett. 115: 13 (1994)}. Inserting this DNA fragment into the pGEM vector (Promerga Co) and determining the DNA sequence are shown in Table 2.

Compared to the nucleotide sequence of the ruconosstock citrium standard strain KCTC 3526, only two of the 1501 bp sequences differed (99.86% homology). This sequence is registered with GeneBank under the number AF111949.

Kimchi of the present invention is prepared as follows.

In a conventional kimchi production method, salted cabbage is mixed with seasonings such as red pepper powder, garlic, and the like, and then added to the starter (luconostoke citrium IH22) of the present invention and aged at 20 ° C. for 24 hours.

Example 1; Chae Kimchi

Based on 100g cabbage weight, 20% of radish, onion, 3.0%, green onion, garlic, red pepper powder, 1.5%, ginger 1.0%, salt is refined salt (Korean industry, flower salt), and 2.8% of the weight of cabbage (g) Chinese cabbage and radish were cut into 1.5cm thick slices to prepare kimchi in the form of kimchi. The amount of starter used was 10 ml / kg of Chinese cabbage, which was grown in MRS medium, sugar medium or Kimchi medium. The final starter volume was about 10 ⁶ cells / ml. Fermentation temperature of kimchi was maintained at 20 ℃ using a BOD thermostat.

The degree of maturation of kimchi was judged by measuring the total acidity and pH of the kimchi sample while having a taste. The pH was measured using a pH meter (Orion, SA720) after taking 20 ml of Kimchi sample, and the total acidity was titrated with 0.1 N caustic soda solution until the pH reached 8.9 and then converted to total acidity. Measured.

12 hours after the kimchi production, the pH was about 4.0, and after 24 hours, the pH was changed to about pH 3.8 (see FIG. 1).

Until 4 days thereafter, the pH was about 3.8, which did not change at all. On the other hand, in the case of the control kimchi without the starter, the pH is about 3.8 after 3 days (72 hours) after the production of kimchi, and then the pH is continuously lowered. Kimchi is sour.

In addition, kimchi of the present invention 12 hours after the production of kimchi total kimchi acidity is about 0.5% and after 24 hours the total acidity reached about 0.9% (see Figure 2).

The total acidity was then maintained at the level of 1.1% until 5 days (120 hours). On the other hand, in the case of the control kimchi without the starter, the total acidity was 1.1% after 3.5 days after the production of kimchi, and the total acidity was continuously increased. After 5 days, the total acidity was about 1.3%.

Kimchi prepared by using the Luconostock citrium IH22 of the present invention has the advantage of inhibiting the growth of various kinds of microorganisms because the acidic kimchi within a quick time and also has the characteristics of promoting the ripening of kimchi. The pH of kimchi is closely related to total acidity, and it is a standard for indirectly determining the degree of fermentation, lactate, and acetic acid.

The above results show that when the strain used in the present invention is used as a starter, it promotes fermentation of kimchi while delaying rapid acidification of kimchi by fermentation, thereby facilitating preservation of kimchi.

Example 2; Beet kimchi

Based on 100g cabbage weight, 20% radish, 3% green pepper and onion, 3% green onion, 1.5% garlic, 1.0% ginger, and beet used for salad to make kimchi red from pink (red beet) ) To make kimchi. The cabbage was cut to about 1.5 cm thick, sliced and sliced, and sprinkled with 3% of its weight. 3 wt% of dry salt was applied to the total weight of the cabbage and the radish, so that it was sufficiently pickled. After removing the pickled water, the sun beet was mixed with the seasoning and then inoculated with Lukonostium Citrium IH22 lactic acid bacteria as a starter and fermented at 20 ° C.

The total amount of kimchi was tested as 4kg.

As a result, the kimchi added with beet was red and the fermentation was delayed by about 2 days as a whole, but the fermentation patterns such as a decrease in pH and an increase in total acidity were similar to kimchi without added beet. 3) And kimchi inoculated with Lukonostium Citrium IH22 was about 1 day faster to reach pH 3.5 and total acidity of about 1%, as in kimchi without beets (Fig. 1, Fig. 2). Since then, this figure has been maintained for seven days.

Kimchi with beet added of the present invention has the characteristics of kimchi salad.

Example 3; Beet Kimchi Juice

The raw material and the seasoning used in Example 2 were mixed in the same ratio, and squeezed with a juicer to make a red vegetable juice. The vegetable juice and pickled water were mixed at a ratio of 1: 1, and then mixed well, and then inoculated with Lukonostium Citrium IH22 lactic acid bacteria and fermented at 20 ° C. The total juice amount was 2L.

As a result, the kimchi juice with beet showed red color and the pH was about 3.2 on the 4th day and maintained until 7 days thereafter. Characteristically, the juice added with Luconostock Citrium IH22 had a total acidity of 0.5% on the third day of fermentation, and the total acidity was reduced by half than kimchi added with beets (see FIG. 4).

The kimchi and kimchi juice of the present invention prepared using beet and luconostock citrium IH22 have a red color and have a low pH and total acidity in the range of edible range. The smell was weak or almost no smell, and the sour taste was weak. In particular, the color of kimchi and juice showed red color, so it was well received visually and highly palatable.

Acid resistance, resistance to bile acids and resistance to artificial gastric juice; In order to indirectly assess the extent to which the strain used in the present invention reaches the large intestine of humans with kimchi, resistance to acids, bile acids and artificial gastric juice was investigated.

◎ Acid resistance test was performed by incubating the strain used in the present invention in a sugar liquid medium for 2 days to produce dextran, and then 1 ml of the culture solution was added to 10 ml of 0.05 M citric acid-citrate buffer having pH 3 and pH 4. Inoculation was incubated at 25 ° C. and the number of viable cells was measured at 12 hour intervals.

The strain of the present invention was found to be able to survive about 70% even if incubated for 1 day in pH4 solution, about 40% when incubated for 1 day at pH 3 and 12 hours at pH 3 About 60% can survive (see Figure 5).

Given that the residence time in the stomach of the food is about 30 minutes, the survival rate is more than 60% for 12 hours in an environment of pH 3, which is why most of the IH22 strain can survive the passage of the stomach. It shows that there is.

◎ Bile acid resistance test was added to the final concentration of 1% and 4% oxgall in MRS medium and inoculated with the test strain was incubated for 3 days at 25 ℃ to determine whether the growth.

The IH22 strain of the present invention showed resistance to bile acids by growing in both 1% and 4% oxgall addition medium. Therefore, IH22 strain is judged that the growth is not inhibited by the bile acid of the human body.

◎ To investigate the resistance to artificial gastric juice, adjust 10 ml of MRS liquid medium to pH 2.5, add pepsin to 1000 units / ml, and add 1% of the strain cultured in sugar medium to 37 ℃ Reacted at and observed the viable count.

IH22 strain pre-cultured in sugar medium survived about 60% after 30 minutes in artificial gastric juice, and viable cell count did not decrease significantly after 3 hours (see FIG. 6).

On the other hand, IH22 strains pre-cultured in MRS medium survived about 40% after 30 minutes in artificial gastric juice, and no viable cells were found after 3 hours.

These results show that the pre-culture of the IH22 strain in sugar medium can increase the resistance to artificial gastric juice.

Cha kimchi of the present invention prepared by using the leuconotium citrium IH22 strain as a starter was shortened to 24 hours of aging, and maintained at about 1.1 until the total acidity after aging was 5 days so that the unique flavor of kimchi was 5 days. It is possible to keep up to improve the preservation of kimchi. In addition, the kimchi of the present invention is shortened the ripening time, so the growth of harmful microorganisms to kimchi is suppressed.

In addition, because kimchi of the present invention has excellent resistance to acid resistance, bile acids and artificial gastric juice can be activated by lactic acid bacteria in the large intestine.

In addition, the beet added kimchi of the present invention is almost no kimchi smell and green smell, and sour so weak that you can eat like a salad, the beet kimchi and the beet added kimchi juice of the present invention visually because the color tone is pink to red There is an advantage that can increase the degree of degree.

Claims (4)

It is characterized by fermentation by using lactic acid bacterium (Leuconostoc citreum IH22) lactic acid bacterium (deposited institution: Korea Gene Bank, deposit number: KCTC 0542 BP, deposited date: November 2, 1998) isolated from Kimchi prepared using a strain of Lukonostium Citrium IH22. The kimchi according to claim 1, wherein the beet is prepared using a ruconotstock citrium IH22 strain, wherein a beet is added. Lukonostium citium, characterized by fermentation using a mixture of cabbage, radish, beet (red beet), and various condiments from a vegetable juice and pickled water using Lukonostium Citrium IH22 lactic acid bacteria as a starter. Kimchi juice prepared using IH22 strain. The kimchi according to any one of claims 1 to 2, which is prepared using a leukostock citrium IH22 strain, which is precultured in a sugar medium.