KR100266082B1 - Method for producing of fruiting body using cultures of entomopathogenic fungal species - Google Patents

Abstract

PURPOSE: A method for cultivating a Cordyceps fruit body is provided to select for massively cultivating excellent fungi from Cordyceps fruit bodies at low costs, to prevent the invasion of various bacteria and to cultivate liquid-typed fungi. CONSTITUTION: Cordyceps fungi are cultured in a flat plate and expanded for preparing liquid-typed fungi. A grain culture medium is mixed with pupas in a ratio of 16:1, and put in a culture medium cultivating container with water for sterilizing the culture medium at 121deg.C for 30 minutes. The liquid-typed fungi are inoculated on the surface of the culture medium evenly. The temperature is kept at 24deg.C in having taken root of the fungi, and at 20deg.C in forming fruit bodies.

Description

Cordyceps sinensis production method

The present invention relates to a novel cordyceps fruiting body production method, and more particularly, to a method for producing cordyceps fruiting body which can mass-produce high quality products by artificial methods.

Here, Cordyceps sinensis (冬蟲夏草) is a type of mushroom named because of its appearance in the body of insects in winter and in the summer.

Some species of Cordyceps, which invade insects and form fruiting bodies on the larvae based on them, have been antiquated in antiquity in China since ancient times as an antidote for tuberculosis, asthma, jaundice, and antidote for opioid poisoning, post-mortem and tonic agents, and immune enhancers. It is an expensive herbal medicine that has been used [Reference (1). Humber, R. A. 1990. Fungal pathogens of insects, spiders, and mites; isolation, preservation, and identification. USDA Agricultural Research Service; Reference (2). Jianzhe, Y., Xiaoloan, M., Qiming, M., Yichen, Z. and Huaan, W. 1989. Icons of medicinal fungi from China. Science Press. China. p. 575; Reference (3). Kobayasi, Y. 1940.The genus Cordyceps and its allies. Sci. Rept. Tokyo Bunrika Daikaku, Sect. B., 5: 53-260; Reference (4). Shimizu, D. 1994. Color iconography of vegetable wasps and plant worms. Seibundo Shinkosha. Japan. pp. 381]. Representative cordycepss traditionally used for medicinal purposes include Chinese cordyceps, C. sinensis, C. militaris, C. martialis, C. ophioglossoides, C. sobolifera, C. hawkesii, which form fruiting bodies based on larvae of bat moths. About 7 species of Cordyceps sinensis including Beauveria bassiana are currently used for medicinal purposes.

Cordyceps sinensis has been mainly used as a treatment and tonic for tuberculosis and jaundice, and it has been recognized as an opioid addict and cordycepin, an isomer of quinic acid, is also a major component of fruiting body. And Cunningham, KG, W. Manson. F. S. Spring and S. A. Hutchinson. 1950. Cordycepin, a metabolic product from cultures of Cordyceps militaris (Linn.) Link. nature. 166. 949], the fruiting body is also regarded as a royal court dish in China, and Cordyceps sinensis is used for medicinal purposes in Japan. 1985. 冬蟲夏草 及 人工 蟲草 菌絲 硏 究 槪 況.海軍 醫學 硏 究 所. 10 (12): 51-54].

However, in the natural state, the collection of fruiting bodies is very difficult, so the supply is limited. Recently, as the natural harvesting of fruiting bodies becomes more difficult due to abnormal climate phenomenon due to ecosystem destruction and pollution, the artificial production of fruiting bodies is required [Basith , M., and Madelin, MF 1968. Studies on the production of perithecial stromata by Cordyceps militaris in artificial culture. Canadian Journal of Botany. 46: 473-480].

Methods using such Cordyceps sinensis can be broadly divided into methods of collecting fruiting bodies, spawn culture and cultivation methods using silkworm pupa, and mass culture methods using artificial media. Among the methods of collecting and using wild fruiting bodies in the wild, the collection of fruiting bodies is very difficult due to abnormal weather phenomena due to the recent destruction of ecosystems and pollution, and it is absolutely impossible to secure the required amount.

Today, the basic concept of the production of fruiting bodies of Cordyceps sinensis is to produce fruiting bodies by inoculating insecticidal insects with larvae, chrysalis and adult insects. For example, Korean Patent Publication No. 97-68810 (name of the invention: spawn cultivation method and cultivation method of pupa Cordyceps sinensis using silkworm chrysalis) adjusts the silkworm chrysalis to 65-70%, puts it in a spawn bottle and sterilizes it. After the medium cultured pupa Cordyceps sinensis seedlings are added, the silkworm pupa and the spawn seed are mixed well so that the seed culture is carried out, and the water supply medium is adjusted to 90 ~ 95% of the water supply medium, followed by the spawn seedlings. Discloses how to form fruiting bodies.

However, in the case of the above-described prior invention, mass production is impossible because the spawns are made of expensive silkworm pupa, and the vitality of the spawn may be reduced. In addition, since the seed must be stirred at the time of inoculation, the work is inefficient and can be contaminated with various germs. Moreover, since the moisture content of the medium for supplying water is 90-95%, germs cannot be cultured until the medium is grown, and fruiting bodies are formed only with the nutrients of the seed itself, so that high-quality fruiting bodies cannot be produced. Therefore, the above method cannot be said to be effectively effective.

In addition, according to the method of producing Cordyceps sinensis fruiting body as described above, since the Cordyceps sinensis uses only the nature of insects as a host, it is difficult to mass-produce because it supplies only moisture without supplying nutrients using pupa, which is expensive to purchase. have.

In addition, the Republic of Korea Patent Publication No. 97-68809 (name of the invention: new technology and method for preparing the medium of Cordyceps sinensis culture) describes a method for producing Cordyceps fruit body using red ginseng. That is, red ginseng is dried at 150 ° C., and dried to less than 5% of moisture, and then finely powdered using ginseng milling powder to produce Cordyceps sinensis using liquid culture of Cordyceps Sinensis and artificial culture of Cordyceps Sinensis. However, this technique also uses the expensive material called red ginseng bak because there is a disadvantage that the manufacturing cost of Cordyceps fruit fruit body is expensive.

The present invention was developed to solve the problems of the conventional Cordyceps sinensis fruit production as described above, select the fruiting body forming strains of the Cordyceps strains collected and separated, and the liquid that can maintain the vitality and prevent the incorporation of bacteria in the manufacturing process The purpose of the present invention is to provide a method for producing Cordyceps sinensis, which can be economically mass-produced by selecting a culture method and a suitable medium for spawn.

In addition, the present invention is capable of efficiently carrying out the pre-cultivation process and the liquid seed culture process under stringent conditions, respectively, after separating the protozoa of Cordyceps sinensis, and has great features in producing a medium which is cheap and efficient.

In addition, the present invention is characterized in that the fruiting body during the growth of Cordyceps sinensis is produced in a state that completely covers the entire surface of the culture medium.

1 is a process chart for explaining the cordyceps fruit body production method according to an embodiment of the present invention.

In order to achieve the above object, the present invention comprises the steps of preparing a Cordyceps spp. By culturing the protozoa of Cordyceps sinensis and expanding the culture; Preparing a cordyceps herb culture medium by placing the cordyceps herb culture medium with water into a culture medium container and putting it into a high temperature and high pressure sterilization pot; Inoculating the seedlings in the culture medium, and then cultivating them to harvest cordyceps fruiting body, in the Cordyceps fruiting body production method, the preparation stage of the Cordyceps fungus seedlings in the preparation stage of the Cordyceps fungi seedlings to prevent the incorporation of bacteria and maintain vitality In the preparation stage of the Cordyceps sinensis culture medium, a medium in which pupa is added to a grain medium is used, and in the spawn seeding and fruiting body production step, the whole surface of the grain medium to which the pupa is added is grown with the fruiting body completely covered. Inoculated with the insect species of insecticidal so that the liquid spawn, and the preparation step of the pre-culture solution consisting of 2 to 7% (w / v) carbon source, 0.1 to 1.0% (w / v) nitrogen source, and the remaining distilled water , The step of inoculating the plate cultured Cordyceps sinensis strain in the pre-culture medium, and the inoculated pre-culture solution at 80 to 200 rpm, 22 to 30 ℃ shaking culture A pre-culturing step of shifting to culturing for 6 to 8 days in yanggi; Preparing a liquid culture solution consisting of 2 to 7% carbon source (w / v), 0.1 to 1.0% nitrogen source (w / v), and the remaining distilled water; and aseptically inoculating the preculture source with the liquid culture solution. Inoculating the liquid culture solution with the preculture inoculation at a ratio of 20 to 200: 1, and ventilating the inoculated liquid culture solution with sterilized air at about 0.1 to 1.0 vvm at 22 to 28 ° C for 5 to 12 days. Provided is a method for producing Cordyceps sinensis fruiting body, which is formed by a liquid culture process for carrying out the step of culturing.

In addition, according to the present invention, the Cordyceps sinensis culture medium is provided with a method for producing Cordyceps sinensis, characterized in that the grain-chrysalis is added as 16: 1.

In addition, according to the present invention, there is provided a method for producing Cordyceps sinensis, characterized in that the grain is brown rice or comfort rice.

In addition, according to the present invention, any one of barley, wheat, corn, soybeans, yulmu, sorghum is added to the brown rice or sweet rice is provided with a method for producing Cordyceps fruiting body.

In addition, according to the present invention, during the spawn inoculation and fruiting body production step of the hyphae to maintain the temperature around 24 ℃, and when the fruiting body is formed, the method of producing a fruiting herbaceous fruit body characterized in that the temperature is maintained at 20 ℃ This is provided.

The present invention is inseparably constructed from each other in order that the above conditions (that is, technical configuration) achieve the above object according to the present invention.

In addition, the fruiting body of Cordyceps sinensis according to the present invention can be drunk directly by pouring water into a pot or a kettle after collecting it from the culture vessel.

Preferred Embodiments of the Invention

Hereinafter, preferred embodiment of this invention is described in detail.

(end). Preparation stage of Cordyceps sinensis

Cordyceps fruit fruit production according to the present invention starts from the step of preparing the cordyceps seedlings by receiving the protococci from the Korean Cordyceps Sinensis Bank (KEFC), or by incubating and spreading the protococci of the cordyceps isolated spores after collection. That is, the seed preparation stage of Cordyceps sinensis may be performed by a conventional method, and there are solid spawn cultured using a solid medium such as grains and a liquid spawn cultured by dissolving a predetermined nutrient in water.

(I). Medium preparation stage of Cordyceps sinensis

Cordyceps fruit fruit production according to the present invention uses a culture medium without silkworm chrysalis and a medium for water supply, and a medium in which silkworm chrysalis powder is added to grains such as brown rice and alami.

In the present invention, the reason for using the Cordyceps sinensis culture medium is that the whole surface of the medium is grown with the fruiting body completely covered, and the hyphae is fast and the fruiting body formed forms a relatively healthy fruiting body similar to that found in the natural state. .

In addition, the grains facilitate the formation of fruiting bodies by allowing the space between the rice and the rice in the incubator to facilitate the mycelial adhesion and to maintain the moisture and aeration in the medium for a considerable time. In addition, in the water content of the grains, the water content in the medium has a good effect on the hyphae of the hyphae, but when there is too much water in the medium, the gap in the medium decreases, which does not maintain proper aeration, thereby promoting the growth of the aerial hyphae. And the production of fruiting bodies is hindered. Therefore, the moisture composition must be different for each kind of grain.

In the present invention, grains and pupa were placed in a container, the moisture ratio was adjusted, and sterilized to make Cordyceps sinensis culture medium.

(All). Spawn inoculation of Cordyceps sinensis

Cordyceps fruit fruit production according to the present invention is made of the culture medium, and separately prepared liquid seed of Cordyceps sinensis on the surface of the culture medium.

In the present invention, the seedling of Cordyceps sinensis can be used both as a solid seed and a liquid seed, but it is more preferable to use a liquid seed than a solid seed. This is because when the conventional solid spawn is used according to a conventional method, it takes a lot of time for the solid spawn to be inoculated on the surface of the culture medium to extend the mycelia and grow well. In addition, although the liquid seed which normally performs the liquid seed of Cordyceps sinensis used in this invention can be used, it is more preferable to use the liquid seed of Cordyceps sinensis newly developed by this inventor. Since the method of manufacturing the liquid spawn of Cordyceps sinensis according to the present inventors conforms to the liquid spawn manufacturing method of basidiomycetes, the present inventors disclose Korean Patent No. 97-27291 (Invention: Liquid spawn culture apparatus of basidiomycetes), Republic of Korea Patent Publication No. 97-27294 (name of the invention: liquid spawn culture method of basidiomycetes and liquid spawn by the method), and Korean Patent Publication No. 97-27295 (name of the invention: liquid spawn culture method of basidiomycetes and its culture Device and its liquid seed) in detail. Looking at the production method of the liquid spawn disclosed as follows.

Liquid spawn is cultivated by undergoing a process of receiving a culture of the progeny, and a process of preculture of the plate cultured inoculum, and a process of liquid culture of the precultured inoculum.

Here, in the pre-culture step, first, the carbon source 2-7% (w / v), the nitrogen source 0.1-1.0% (w / v), KH ₂ PO ₄ 0-0.15% (w / v), MgSO ₄ · 7H Prepare a preculture consisting of ₂ 0 0 to 0.15% (w / v) and the remaining distilled water. Then, the inoculated platelet Cordyceps fungi were inoculated into the preculture, and the inoculated preculture was incubated for 6 to 8 days in a shaker at 80 to 200 rpm and 22 to 30 ° C.

In the above liquid culture step, first, a carbon source of 2 to 7% (w / v), a nitrogen source of 0.1 to 1.0% (w / v), KH ₂ PO _{4 0 to} 0.15% (w / v), and MgSO ₄ · 7H ₂ Prepare a liquid culture consisting of O 0-0.15% (w / v) and the remaining distilled water. Thereafter, the liquid culture solution is aseptically inoculated with the preculture inoculation, and the liquid culture solution is inoculated with the preculture inoculation at a ratio of 20 to 200: 1. The inoculated liquid culture solution is aerated for 5 to 12 days at 22-28 ° C. with sterilized air at 0.1-1.0 vvm.

Herein, one or two or more of sugar, maltose, fructose, glucose, sucrose, malt extract, and starch syrup may be selectively used as a carbon source, and one or two of soy flour or peptone may be used together as a nitrogen source.

(la). Culture of Cordyceps Sinensis and Fruiting Body Production

In the present invention, after inoculating the Cordyceps spp. Into the culture medium, the inoculated medium is transferred to a normal culture chamber, and when the culture is completed, the fruit is transferred to the growth chamber. In this case, the seedling of the Cordyceps sinensis extends into the culture medium from the surface of the culture medium by extending new mycelia as the culture days pass. This phenomenon can be easily observed by selecting the culture vessel of the culture medium as a transparent or translucent vessel. At this time, the incubation temperature should be kept constant around 24 ℃ and should be able to maintain a constant light by turning on a fluorescent lamp.

It takes about a week before the hyphae starts to fill up and fill the surface of the medium. At first, the surface of mycelium, which was pale beige, gradually became darker and began to form a dark orange dendritic mycelium. It takes 30 to 40 days for the primordial stem to be formed, and it takes 30 to 40 days to produce the pericardium, and it takes 50 to 60 days to form the fruiting body in full form. Fruiting body formation temperature of Cordyceps sinensis is well formed fruiting temperature in the temperature range around 20 ℃, but above 21 ℃ inhibiting the growth of fruiting body is more active than mycelial growth.

Cordyceps sinensis produced in this way, peel off the container and take only the fruiting body part and dry it.

<Example>

Hereinafter, a preferred embodiment of the method for mass production of Cordyceps sinensis according to the present invention will be described with reference to the drawings.

The conditions presented in this example are merely to illustrate the technical spirit of the present invention in more detail. Accordingly, the invention is not limited to the conditions set forth in the following examples and should not be construed in that sense.

In the drawings, Figure 1 is a process chart for explaining the cordyceps fruit body production method according to an embodiment of the present invention.

(end). Preparation stage of Cordyceps sinensis

Cordyceps fruit fruit production according to the present invention is 74 strains of C. militaris, 3 strains of C. scarabaeicola, 2 strains of C. pruinosa, 5 strains of C. kyushuensis, from the Korean Cordyceps Sinensis Bank (KEFC), A total of 106 strains, including 14 strains of C. sphecocephala, 1 strain of C. bifusispora, 1 strain of C. pentatomi, 5 strains of Paecilomyces tenuipes, and 1 strain of C. tricentri, were used as public strains. Strains that were distributed were selected for excellent strains by fruiting body formation test <Table 1, Table 2>.

Selection of fruiting body forming strains Cordyceps sinensis Fruiting body forming strain C. militaris, C. kyushuensis, C. sphecocephala, C. pruinosa, C. scarabaeicola, Paecilomyces tenuipes Strains that do not form fruiting bodies C. bifusispora, C. pentatomi, C. tricentri

As a result of the fruiting body formation test using the disclosed strains, six species including C. militaris succeeded in producing fruiting bodies artificially in the culture chamber, but three species including C. bifusispora could not induce the fruiting body formation.

Selection of excellent fruiting body strains in medium containing potato agar medium and silkworm pupa powder Strains (KEFC) Date of formation Aspergillosis Fruiting bodies Fruiting body length (cm) Fruit dry weight after 50 days (g) C129 18 0.09 C225-1 13 25 33 2.8 0.469 C228 13 23 36 6.2 0.862 C234 18 0.085 C115-1 18 12 1.5 1.898 C197 15 35 11 3.5 0.447 C210 15 34 8 5 0.437 C218 15 34 3 4 0.259 C249 9 23 81 5.8 0.790 C250 15 3 7 4.4 0.184 C257 15 30 7 3.5 0.308 C269 13 37 6 1.3 0.314 C273 13 23 16 4.5 0.556 C275-4 9 0.216 C281 21 2 1.5 0.045

The strains were inoculated on a medium containing potato agar and silkworm pupa to induce fruiting at 20 ° C. As a result, 14 strains of C.militaris and 1 strain of C. kyushuensis were selected as good fruiting strains. >.

It takes about a week for the hyphae to settle throughout the medium, and the hyphae once attached to the whole medium becomes pale yellow and gradually becomes dark orange. The earliest date of occurrence of the locus was generated with the C249 and C275-4 strains. After the onset of the locus, until the incidence of formation, the incidence is 23 to 35 days after inoculation and usually forms a narcotic type. The growth of the locus was terminated by the formation of the mature locus of percussion. The fruiting body formation was the most active in five strains C225-1, C228, C197, C249, and C273 after 35 days of incubation.

Selection of excellent fruiting body strains in brown rice and silkworm pupa medium Strains (KEFC) Fruiting body formation Asymptomatic Fruiting bodies Fruiting body length (mm) Fruiting body dry weight (g) C234 +++ - 22 52 12.24 C239 +++ + 10 24 11.45 C245 +++ + 13 41 13.4 C246 +++ + 23 54 14.94 C257 +++ - 21 48 13.15 C273 +++ + 47 64 15.17 C275-2 +++ - 10 20 12.93 C281 +++ + 31 47 12.5 C418 +++ + 19 49 16.82 C420 +++ + 47 63 11.55 C18 ++ + 24 45 8.28 C247 ++ - One 15 8.27 C250 ++ - 13 26 9.79 C251-1 ++ + 3 54 4.94 C274 ++ - 13 21 10.51 C412 ++ + 22 42 8.11 C415 ++ + 25 40 8.11 C171 + + 4 33 7.22 C237 + + 9 23 7.85 C252 + + 17 32 9.6 C259 + + 9 48 7.78 C298 + + 14 30 7.34 C406 + + 22 42 7.66 C411 + + 11 41 7.8

※ +++: Excellent fruiting body formation, ++: Fruiting body formation normal, +: Fruiting body formation poor

As a result of inducing fruiting bodies in the incubator prepared by adding brown rice and pupa, 27 strains including 25 strains of C. militaris and 2 strains of C. scarabaeicola were selected as excellent fruiting strains.

Cultured excellent strains selected as fruiting body above the plate culture and expanded culture. Plate culture in a petri dish can be performed by a conventional method.

When the expanded cultured Cordyceps Sinensis mycelium is about 80% grown, it is transferred to the previous stage of the pre-culture process to culture it with liquid seed. This is done by inoculating a mycelial fragment of Cordyceps sinensis cultured in a liquid medium having a composition as shown in Table 4.

Composition ratio for liquid seed culture of Cordyceps sinensis (unit: g) ingredient Inoculation source (500 ml) Liquid medium (10ℓ) Sulfur white sugar 15 300 Two minutes 1.5 30 Distilled water Remainder Remainder

Inoculate the mycelia to the inoculum medium as described above and inoculate the inoculum by shaking culture at 25 ± 1 ° C. and 80 to 150 rpm for 7 to 10 days. Incubate for 10 days to obtain a liquid seed.

Obtaining a liquid spawn using the liquid spawn culture component of Cordyceps sinensis in Table 4 as described above is based on the following test results.

Effect of Carbon Sources on Mycelial Growth Carbon source type Fucked cornflour Corn starch glucose molasses Potato starch flour Yellow sugar Mycelial Growth ++ +++ ++ + ++ ++ +++ ++++

※ ++++: Very good, +++: Excellent, ++: Normal, +: Low

Effect of Nitrogen Sources on Mycelial Growth Nitrogen source type Corn Soak peptone Soy flour Yeast Juice Mycelial Growth ++ +++ ++++ +++

※ ++++: Very good, +++: Excellent, ++: Normal, +: Low

Effect of Inorganic Salts on Mycelial Growth Inorganic salt type Control Calcium chloride Calcium sulfate Calcium phosphate Magnesium sulfate Mycelial Growth +++ +++ +++ +++ +++

※ ++++: Very good, +++: Excellent, ++: Normal, +: Low

As can be seen from Table 5 to Figure 7, in the carbon source test was the mycelial growth in the sulfur white sugar, corn flour, wheat flour, etc., in the nitrogen source test was the best mycelial growth in soy flour, mycelial growth in the order of yeast extract, peptone, corn leaching solution Decreased. In addition, the inorganic salt test was not able to confirm the apparent effect of the addition.

(I). Medium preparation stage of Cordyceps sinensis

Put 80g of grain and 5g of silkworm pupa into 800ml translucent plastic container. After controlling the moisture to, sterilized for 20 minutes at 121 ℃ as a culture medium.

Fruiting body formation test according to medium type and moisture content Badge Moisture content (ml) 30 50 70 50 (with silkworm pupa) Brown rice (20 g) ++ ++ ++ +++ Alami (20 g) + + +++ ++ Potato Agar Badge - - - ++

※ +++: Excellent fruiting body formation, ++: Fruiting body formation normal, +: Fruiting body formation poor

Cordyceps mycelial growth and fruiting body formation test in grain medium Badge Mycelial Growth Fruiting body formation Rice 5g + Water 60ml + +++ Potato 5g + Water 60ml ++ +++ 5g corn + 60ml water +++ ++ Rice 5g + Corn 5g + Water 60ml +++ +++

※ +++: Excellent, ++: Normal, +: Low

As can be seen in Table 9, 5 g of rice and 5 g of corn were incubated with 60 ml of water, and mycelial growth and fruiting were well formed.

Cordyceps mycelial growth and fruiting body formation test in silkworm pupa Badge Mycelial Growth Fruiting body formation Silkworm pupa 20g + 100ml water +++ ++ Silkworm pupa 20g + agar medium 20ml +++ +++ Silkworm pupa 20g ++ ++

※ +++: Excellent, ++: Normal, +: Low

As can be seen in Table 10, the addition of agar medium to silkworm pupae was faster in mycelial growth and better fruiting body formation, and the mycelial growth and fruiting body formation were good even in the silkworm pupae.

(All). Spawn inoculation of Cordyceps sinensis

Cordyceps sinensis spawn prepared above is inoculated into the medium. At this time, the liquid spawn is spread evenly on the grain medium and inoculated to cover the surface. Inoculation is performed in a clean room to prevent the incorporation of various bacteria.

(la). Culture of Cordyceps Sinensis and Fruiting Body Production

Inoculated Cordyceps sinensis medium is incubated for 10 to 15 days in a culture room capable of maintaining light by turning on a fluorescent lamp at a humidity of 70 to 80% and a temperature of 24 ° C.

The initial activity of hyphae was excellent at 24 ℃ in the test that induced artificial production of fruiting bodies in a thermostat at 20 ℃ and 24 ℃ to determine the temperature suitable for fruiting body formation. It speeds up and forms mature fruiting bodies that produce pericardial angulation. At 24 ° C., the growth of aerial mycelia was more active than the production of fruiting bodies, which inhibited the growth of fruiting bodies, and the fruiting bodies formed were incomplete forms that did not produce pericardial angle. Therefore, it was found that the optimum temperature for fruiting body formation is 20 ° C.

Fruiting body formation in the incubator made with brown rice and silkworm pupae showed complete fruiting body formation between 50 and 65 days, but it took 10 to 15 days for the mycelium to stick to the whole medium. Mycelia initially milky, but gradually develop a yellowish color throughout the mycelia. In this case, if the incubation temperature is maintained at 20 ℃, humidity 80-90%, and light brightness 500-1000Lux, the color of hyphae growing on the surface of the medium will change into a fluffy state. The formation of the locus begins when the mycelial lumps of the prominence are formed. The development of the locus is initially elongated, and the upper part of the locus thickens in a club shape to form a capsular angle in this area. As the formed pericardial angulation matures, the growth of the fruiting bodies stops and gradually degenerates. The periformum formed in the head of the fruiting body is slightly attenuated than that found in the natural state. It became. Contrary to these general characteristics in strains with excellent fruiting body formation, it was found that the growth of fruiting bodies is inhibited in strains with excessive growth of mycelia on the surface of the medium.

When producing Cordyceps sinensis according to the present invention, unlike the conventional method, since the grain is easily available around us as a main material, it is easy to purchase the culture material, and there is no difficulty in securing the culture material, and thus mass production is possible. .

In addition, the production of Cordyceps sinensis fruiting body according to the present invention by selecting the excellent fruiting body forming strains can be obtained, can obtain a high yield of fruiting body, by selecting the appropriate medium used in the manufacturing process can produce a high-quality cordyceps fruiting body of high quality.

In addition, by inoculating with liquid spawn as compared to the conventional solid spawn culture method, not only the occurrence of defective products due to the infection of various germs is significantly reduced, but also the fruiting body is produced in a state that completely covers the entire surface of the culture medium, thereby increasing production efficiency. Mass production is possible.

Moreover, it can be used for various pharmaceutical materials by extracting the active ingredient from Cordyceps sinensis produced in a mass according to the present invention through various physical and chemical methods.

Preferred embodiments of the present invention have been described in detail by way of examples, but this is only for describing the technical idea of the present invention, and the scope of the present invention is not limited thereto. In addition, those skilled in the art to which the present invention pertains, it will be appreciated that various forms of imitation and modification are possible within the scope of the technical idea of the present invention based on the above specification. For example, in preparing the Cordyceps sinensis culture medium according to the present invention, barley, wheat, corn, soybeans, barley, sorghum and the like may be added.

Claims (5)

Preparing a Cordyceps spp. By culturing the protozoa of Cordyceps sect. Preparing a cordyceps herb culture medium by placing the cordyceps herb culture medium with water into a culture medium container and putting it into a high temperature and high pressure sterilization pot; Inoculated into the culture medium to the seed, and then cultured to harvest the Cordyceps fruiting body, Cordyceps fruiting body production method comprising the steps of: In the preparation of Cordyceps sinensis seedlings, a liquid seed that can prevent the incorporation of various bacteria and maintain vitality is used, and in the preparation stage of Cordyceps sinensis culture medium, a pupa is added to a grain medium, and the seed inoculation and fruiting body production In the step of inoculating the Cordyceps vermin liquid spawn so that the entire surface of the grain medium to which the pupa is added can be grown with the fruiting body completely covered, The liquid seed is inoculated with a preculture solution consisting of a carbon source of 2-7% (w / v), a nitrogen source of 0.1-1.0% (w / v), and the remaining distilled water, and the inoculation of Cordyceps sinensis strain plated in the preculture solution. And a pre-culturing step of shifting the inoculated pre-culture solution to the step of incubating the inoculated pre-culture solution at 80-200 rpm, 22-30 ° C. in a shaker for 6 days to 8 days; Preparing a liquid culture solution consisting of 2 to 7% carbon source (w / v), 0.1 to 1.0% nitrogen source (w / v), and the remaining distilled water; and aseptically inoculating the preculture source with the liquid culture solution. Inoculating the liquid culture solution with the preculture inoculation at a ratio of 20 to 200: 1, and ventilating the inoculated liquid culture solution with sterilized air at about 0.1 to 1.0 vvm at 22 to 28 ° C for 5 to 12 days. Cordyceps fruit fruit body, characterized in that formed by a liquid culture process for performing the step of culturing. According to claim 1, Cordyceps sinensis culture medium is a production method of Cordyceps sinensis, characterized in that the grain to chrysalis is added as 16: 1. The method for producing cordyceps fruiting body according to claim 1 or 2, wherein the grains are brown rice or sweet rice. The method of claim 3, wherein any one of barley, wheat, corn, soybeans, barley, and sorghum is additionally added to the brown rice or sweet rice. The method according to claim 1, wherein the spawning inoculation and fruiting body production step maintains the temperature around 24 ° C. when the hyphae adheres, and when the fruiting body is formed, the temperature is maintained at 20 ° C.