KR101206707B1 - Cultivation method of plant with increased contents of functional materials - Google Patents

Abstract

The present invention provides a method of growing a plant, comprising the steps of increasing the content of the functional material by treating the chloride, methyl jasmonate, or chloride and methyl jasmonate to the plant content of the functional material, characterized in that Provides a method for growing plants.

Description

Cultivation method of plant with enhanced content of functional substance {CULTIVATION METHOD OF PLANT WITH INCREASED CONTENTS OF FUNCTIONAL MATERIALS}

The present invention relates to a cultivation method of a plant having an increased content of a functional substance, and more particularly, to induce stress in the plant appropriately, in particular, a large amount of the functional substance contained in sprouts and young leafy vegetables by self-defense ability. It relates to a cultivation method of plants that can be promoted.

Various polyphenolic compounds contained in plants have the ability to prevent infections of pertussis and influenza bacteria, which are pathogens of respiratory infections. It is known to have a function of preventing the corrosive action of the blood and also inhibiting the increase of blood cholesterol, preventing arteriosclerosis, myocardial infarction and stroke and suppressing essential hypertension.

In addition, fats in foods rapidly produce lipid peroxide by taking oxygen in the air by oxidation-promoting action such as sunlight, which is known to have a particularly strong relationship between aging and cancer. It is known as polyphenol.

As the well-being boom on the table is rising and rising recently, various foods using sprouts or young vegetable leaves are becoming popular. Typically, however, the content of polyphenols present in such shoots or young leaves is limited. In particular, among the polyphenols known to be contained in buckwheat, a compound called rutin is known to have a great effect of preventing cerebral hemorrhage by strengthening capillaries, but various food developments have been tried. There is a limit to this.

The present invention has been proposed to solve the problems of the prior art as described above, its purpose is to induce stress appropriately to the plant, in particular by the self-defense ability to contain the content of functional substances contained in sprouts and young leafy vegetables The present invention provides a method for growing plants that can be promoted in large quantities.

The technical problem of the present invention as described above is achieved by the following means.

(1) A method of cultivating a plant, wherein the content of the functional substance is increased by treating chloride, methyljasmonate, or chloride and methyljamonate with the plant to increase the content of the functional substance. Method of growing plants.

(2) The method according to claim 1,

The plant is a method of cultivating a plant having an increased content of a functional substance, characterized in that the buckwheat.

(3) The method according to claim 1,

Functional material is a cultivation method of a plant having an increased content of the functional material, characterized in that the routine.

(4) The method according to 1,

A chloride is a method for cultivating a plant having an increased content of a functional substance, characterized in that sodium chloride.

(5) The method according to claim 1,

The method of cultivating plants with increased content of functional substances, characterized in that the chloride is treated to plants by adjusting the concentration to 10-200mM in the cultivation water.

(6) The method according to 1,

The concentration ratio of chloride and methyl jasmonate in the cultivation water is a molar concentration of 10: 1-1: 10.

(7) The method according to 1,

Concentration ratio of chloride and methyl jasmonate in the cultivation water is a method of cultivating plants with increased content of functional substances, characterized in that the molar concentration of 100: 1-1: 100.

(8) The method according to 1,

Method of cultivating the plant with increased content of the functional material, characterized in that it further comprises the step of treating light to the plant.

(9) A plant having an increased content of the functional substance cultivated by any one of the above-mentioned items.

(10) The method according to 9,

The plant is a plant with an increased content of a functional substance, characterized in that the buckwheat seedlings.

According to the present invention, it is possible to appropriately induce stress on the plant, and in particular, to increase the content of functional substances contained in the shoots and young leafy vegetables by the self-defense ability.

1 is a chromatogram (A), total phenolic compound content (B), and the structure of the main compound (C) of phenolic compounds treated with methyl jasmonate in buckwheat sprouts for 7 days (MeJA) and untreated (control). , And the influence (D) on each compound.
Figure 2 is a result of measuring the antioxidant activity of the treated group (MeJA) treated with methyl jasmonate in buckwheat sprout for 7 days (control).
Figure 3 is the result of measuring the change in the raw weight of the buckwheat sprout according to the treatment of the concentration of sodium chloride (each data is measured by repeating three times for 40 shoots expressed as mean ± standard error).
Figure 4a is the result of measuring the change in the rutin content of buckwheat sprout according to the treatment of sodium chloride concentration (each data is measured by repeating three times for 40 shoots expressed as mean ± standard error).
Figure 4b is the result of measuring the change in the total phenolic content of buckwheat sprouts according to the concentration of sodium chloride treatment (each data is repeated 40 times to measure the average ± standard error).
Figure 5 is the result of measuring the change in the antioxidant activity of the buckwheat sprout according to the treatment of the concentration of sodium chloride (each data is measured by repeating three times for 40 shoots expressed as mean ± standard error).
Figure 6 is the result of measuring the change in the raw weight of buckwheat sprouts according to the mixing treatment of sodium chloride and methyl jasmonate (each data is repeated three times for 40 shoots expressed as the average ± standard error).
Figure 7a is a result of measuring the change in the routine content of buckwheat sprouts according to the mixing treatment of sodium chloride and methyl jasmonate (each data is repeated three times for 40 shoots expressed as the average ± standard error).
Figure 7b is the result of measuring the change in the total phenolic content of buckwheat sprouts according to the mixing treatment of sodium chloride and methyl jasmonate (each data is repeated three times for 40 shoots expressed as mean ± standard error).
Figure 8 is the result of measuring the change in the antioxidant activity of buckwheat sprouts according to the mixing treatment of sodium chloride and methyl jasmonate (each data is repeated three times for 40 shoots expressed as mean ± standard error).

The present invention provides a method for cultivating a plant having an increased content of a functional substance, comprising the step of increasing the content of the functional substance by treating the plant with chloride, methyl jasmonate, or chloride and methyl jasmonate. do.

Hereinafter, the content of the present invention in more detail as follows.

Plants aimed at the method of cultivating plants according to the present invention are preferably sprouts and young leafy vegetables, which are self-defense against external stress caused by chloride, methyljasmonate, or a mixture of chloride and methyljasmonate. It is assumed that a functional substance is produced in large quantities by the ability. As a representative example, the plant is buckwheat.

In the present invention, the "functional substance" includes polyphenol compounds including rutin and derivatives thereof, and includes, for example, rutin, homoorientin, orientin, vitexin, and the like, which are ingestible and useful for the human body. Any material that exhibits functionality may be included, but preferably the routine is mentioned.

The mass production method of the functional substance in the present invention includes a process of treating the plant with chloride, or chloride and methyl jasmonate in the cultivation water supplied to the plant. At this time, the chloride used in the present invention may be sodium chloride, potassium chloride, calcium chloride, etc., but is preferably sodium chloride.

The treatment of chloride is not particularly limited, but is preferably such that the cultivation water is 10 to 200 mM. If it is added below 10mM concentration, the effect of increasing the functional substance according to the addition of chloride is not large, and if the treatment exceeds 200mM, problems such as causing the growth of the plant rather causes.

The concentration of the methyl jasmonate added in the cultivated water is preferably set to 0.01 to 200 mM, preferably 0.1 to 2 mM. If the concentration is less than 0.01 mM, the effect of increasing the functional substance according to the addition of methyl jasmonate is not great, and if the treatment exceeds 200 mM, problems such as the growth of plants are caused.

Preferably, the chloride and methyljasmonate are treated together and are not particularly limited, but preferably the composition ratio is 100: 1-1: 100, preferably 10: 1-1: 10 in molar concentration. do. This is because when the molar concentration ratio is formulated, a synergistic effect can be expected, especially in the production amount of the functional substance, without affecting the growth.

It is sufficient to treat the cultivation water having the composition as described above according to the treatment time and the number of times determined according to the kind of the target plant. For example, in the case of buckwheat sprout, supply 100mL ~ 4L / m ² once per 1 ~ 3 days.

In addition, in the present invention, it is possible to treat the light to the plant in order to further increase the content of the functional material. The treatment of light is more than 500 Lux for 4 to 12 hours per day, and it is confirmed that the content of phenolic compound including rutin increases significantly.

As a result of treatment for 1 week with buckwheat sprout using the cultivation method according to the present invention, the result of the treatment of methyl jasmonate increased the content of rutin 1.5 times or more, and the result of treating sodium chloride increased 1.8 times or more. It was. In addition, the total phenolic compound content was increased by 33.7% as a result of the treatment of methyl jasmonate, and 112% was confirmed by the treatment of sodium chloride. Thereby, the treatment of the compound according to the present invention can confirm that the content of the phenolic compound containing rutin in the plant is greatly increased, and in the case of treating them together, the increase is increased by synergy between these compounds. Judging.

Hereinafter, the content of the present invention will be described in more detail with reference to Examples. However, these embodiments are only for understanding the content of the present invention, but the scope of the present invention is not limited thereto.

Example 1

In a dark room maintained at 15 ° C. to 18 ° C. for 7 days, the water is treated twice a day at 20 L / m 2 in one treatment, and the treated water [0.1 mM methyl jasmonate (MeJA)] is treated in one day in the middle of the water treatment. Once, 2L / m ² was treated to buckwheat sprout once

As a result of the treatment of methyl jasmonate on buckwheat sprouts, as shown in FIGS. 1a to 1d, the content of rutin increased 1.5 times compared to the untreated group, and the total phenol content increased by 33.7% compared to the untreated group. You can see that.

A ferric reducing antioxidant power (FRAP) assay was used to determine the antioxidant activity of the methyljamonate treatment. According to Figure 2 it was confirmed that the antioxidant activity increased more than two times in the single treatment of methyl jasmonate compared to the untreated.

As described above, the treatment of methyl jasmonate was confirmed that the effect of increasing the total phenol content and antioxidant activity including rutin is very large.

[Example 2]

7 days in the dark room maintained at 15 ℃ to 18 ℃ treated twice a day, 20L / ㎡ in one treatment and treated water [sodium chloride (NaCl) 10, 50, 100, 200mM] 1 in the middle of the irrigation treatment Once a day, 1.6L / m ² was treated to buckwheat sprout once

As a result of treatment of the concentration of sodium chloride for the buckwheat sprout, the change in the raw weight was confirmed to increase by 2.5 times or more as compared to the untreated group, as shown in Figure 3, it was confirmed that the treatment of sodium chloride has a good effect on the growth.

In addition, as a result of treatment of the concentration of sodium chloride in the buckwheat sprout as shown in Figure 3a it can be seen that the content of the rutin increased 1.8 times compared to the untreated group, as shown in Figure 3b the total phenolic content is about 112% larger than the untreated group It was confirmed that the width increases.

In addition, as a result of measuring DPPH scavenging activity according to the published method to measure the antioxidant activity according to the treatment of sodium chloride, it was confirmed that increased by more than 30% compared to the untreated group as shown in FIG.

As described above, the treatment of sodium chloride was confirmed that the effect of increasing the weight of buckwheat sprout, total phenolic content including rutin and increasing antioxidant activity was very large.

[Example 3]

7 days in the dark room maintained at 15 ℃ to 18 ℃ treated twice a day, 20L / ㎡ in one treatment and treated water [100mM sodium chloride (NaCl) + 0.1mM methyl jasmonate (MeJA)] 1.6L / m ² was treated to buckwheat sprout once a day in the middle of treatment.

As a result of the treatment of sodium chloride and methyljasmonate on buckwheat sprouts, the change in fresh weight increased more than 3.0 times compared to the non-treated group, and it was confirmed that the parallel treatment of sodium chloride and methyljasmonate had a good effect on growth. .

In addition, as a result of the treatment of sodium chloride and methyl jasmonate on buckwheat sprouts, it can be seen that the content of rutin is increased by 2.0 times compared to the untreated group, and the total phenolic content is increased by about 130% compared to the untreated group. there was.

In addition, as a result of measuring the DPPH scavenging activity according to the published method for measuring the antioxidant activity according to the treatment of sodium chloride and methyl jasmonate, it was confirmed that the increase by more than 50% compared to the untreated group.

As described above, the parallel treatment of sodium chloride and methyl jasmonate showed that the growth of buckwheat sprout, the total phenol content including rutin and the antioxidative activity were significantly higher than those of the untreated and monotreated groups. .

Example 4

The same procedure as in Example 1 was conducted except that the light was treated at about 500Lux for about 4-12 hours per day. As a result, it was confirmed that the content of the phenolic compound was increased by more than 85% compared to the untreated group, 40% compared with the case treated with methyl jasmonate alone.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It can be understood that

Claims (10)

A method of growing buckwheat, the method comprising increasing the content of rutin by treating chloride, methyljasmonate, or chloride and methyljasmonate with buckwheat, which is a plant, to increase the content of rutin. Cultivation method. delete delete The method of claim 1,
A method of growing buckwheat with an increased content of rutin, characterized in that the chloride is sodium chloride. The method of claim 1,
Chloride is a method of growing buckwheat with an increase in the content of rutin, characterized in that it is treated to plant buckwheat by adjusting the concentration to 10-200mM in the cultivation water. The method of claim 1,
Methyl jasmonate is cultivated buckwheat cultivation method, characterized in that the treatment of buckwheat, the plant content is adjusted to a concentration of 0.01-200mM in cultivation water. The method of claim 1,
Concentration ratio of chloride and methyl jasmonate in the cultivation water is cultivation method of buckwheat with an increased content of rutin, characterized in that the molar concentration of 100: 1-1: 100. The method of claim 1,
Method of cultivating buckwheat with increased content of the routine, characterized in that it further comprises the step of treating light to the buckwheat.
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