KR20140081103A - Method for screening an antiviral agent of plant diseases - Google Patents

Abstract

The present invention relates to a method for screening a material for inducing resistance against plant diseases, the method comprising the steps of: (a) smearing a sample for inspection on the leaf of an indicator plant; (b) smearing a standard sample on the left half of the indicator plant of step (a); (c) leaving the leaf of step (b) in order to exhibit a local lesion; and calculating the number of local lesions exhibited on the leaf of step (c) in order to be substituted for a potency (CVT) inspection formula so that the antiviral functions of a tested material can be determined. The method according to the present invention indicates pass standards and indexes through plant antivirus active potency metrization so as to provide a means which is useful in developing environmentally-friendly agriculture materials by ensuring a standard method to inspect the activity of an antiviral agent against plant viruses. The method is also useful in objectively managing the quality of the environmentally-friendly agriculture materials.

Description

METHOD FOR SCREENING AN ANTIVIRAL AGENT OF PLANT DISEASES FIELD OF THE INVENTION [0001]

The present invention relates to a method for screening a plant disease resistance inducing substance by reading the potency of the controlling ability of a test substance on the basis of the number of necrotic lesions on the leaf of a plant.

The chemical spraying method, which is commonly used as a means of controlling plant diseases in the cultivation process of crops, is the spraying of pesticides which is a chemical control method. The continuous massive spraying of toxic and non-selective pesticides threatens the destruction of environment as well as the survival of mankind directly or indirectly .

Domestic chemical pesticide use amounted to 1,205 kg / ㎢ in the mid-1990s, second only to Japan among OECD member countries, 4.6 times the OECD average 263 kg, 48 times the New Zealand 25 kg minimum pesticide use, It is a reality that the excessive use of pesticides causes serious problems such as destruction of natural environment ecosystem, groundwater pollution, residual toxicity of crops and appearance of resistant pest. In order to solve this problem, the '92 Rio Environmental Conference has reached an agreement between countries to reduce the use of chemical pesticides by 50% by 2004. In the United States, for example, an average of 50% The use of alternative pesticides such as nematode insects and insect pathogenic fungi has been replaced by organic synthetic insecticides. As a result, the proportion of chemical pesticides has been significantly reduced, and the trend is expected to continue to increase.

According to the report of the National Institute of Agricultural Science and Technology in Korea, since crop damage caused by misuse of chemical pesticides is still serious, it is important to observe the use standards of pesticides at individual farms in order to improve them. However, It is very urgent to develop the technology and disseminate it.

Among the eco-friendly organic materials registered at the Rural Development Administration (www.rda.go.kr), there are about 30 kinds of materials for controlling crop disease and about 50 kinds of materials containing microorganisms as active ingredients, Therefore, it is required to develop technology for screening of many domestic indigenous microorganisms, insecticides, fungicides and nutrients using extracts of medicinal plants that can be used in the past. Most of the developed screening methods are judged by changes in gene expression in plants related to control, and it is required to develop a more convenient method since it is necessary to perform troublesome work such as gene extraction.

Accordingly, the present inventors have made intensive efforts to develop a screening method for a quick and convenient environmentally friendly control agent. As a result, the present inventors have found that the plant extract and the tobacco mosaic virus (TMV) , The number of necrotic lesions caused by tobacco mosaic virus (TMV) is observed to fall below a certain level, and a criterion for quantifying the number of local lesions is formulated so that the control ability of the test sample can be more easily judged And completed the present invention.

The object of the present invention is to provide a plant disease resistance inducing substance capable of reading a controlling ability according to a cutoff criterion for the number of necrotic lesions after laminating a test sample and a virus sample to a leaf of an indicator plant, And a method for screening the same.

In order to accomplish the above object, the present invention provides a method for producing a plant, comprising: (a) smearing a test sample on leaves of an indicator plant; (b) smearing a standard sample on the left half of the indicator plant of (a); (c) allowing the lesion of step (b) to show a local lesion; And (d) counting the number of necrotic lesions appearing on the leaves in step (c), and substituting the number of necrotic lesions on the leaf for the potency resistance (CVT) test formula to read out the control ability of the test substance. to provide.

The screening method according to the present invention provides an acceptance criteria and an index through quantification of plant antiviral activity and provides an easy means to develop an eco-friendly farm material by establishing a standard method for assaying the activity of an anti-plant virus agent And is useful for objective quality control of eco-friendly farm materials.

FIG. 1 is a comparative photograph of the measured values of potency (CVT) according to necrotic lesions obtained by treating a test sample and a cigarette mosaic virus (TMV) infectious fluid.

Hereinafter, the present invention will be described in detail.

In order to develop eco-friendly pesticide products needed to solve serious problems such as destruction of natural environment ecosystem due to excessive use of pesticides, groundwater pollution, residual toxicity of crops and appearance of resistant insect pests, many domestic indigenous microorganisms, insecticides , A disinfectant, and a nutrient. Therefore, the screening method developed so far is mostly determined by a change in gene expression in the plant in relation to the control. Since it is necessary to carry out troublesome work such as gene extraction, Development of a convenient method is required.

Accordingly, the present inventors have made intensive efforts to develop a screening method for an environmentally friendly control agent, which is quick and convenient. As a result, the inventors of the present invention have found that, after lyophilizing a plant extract and a cigarette mosaic virus (TMV) The number of necrotic lesions caused by cigarette mosaic virus (TMV) fell below a certain level, and a criterion for quantifying the number of local lesions was formulated. As a result, And the present invention has been completed.

In one aspect, the present invention provides a method for producing a plant, comprising: (a) smearing a test sample on leaves of an indicator plant; (b) smearing a standard sample on the left half of (a); (c) allowing the lesion of step (b) to show a local lesion; And (d) counting the number of necrotic lesions present on the leaves in step (c) and reading the control efficacy of the test substance by substituting in the following formula for the titration (CVT) ≪ / RTI >

In the present invention, the 'half-treated half-blotch of drug treatment' in the above formula is the number of necrotic lesions of the lobe where the hot water extract of mushroom, which is a test sample, is applied, and the number of the untreated half- And counting the number of necrotic lesions of the stained leaf area.

In the present invention, the mushroom hot water extract is used as the test sample, but is not limited thereto.

In the present invention, when the potency (CVT) in the step (d) is 90% or more of the standard, it is determined that the control ability is acceptable.

In the present invention, the step (a) may further include the step of treating carbon flour (carborundum) on the whole leaf of the indicator plant. The carbon powder is used on the surface of the leaf to induce infection when the inoculum containing the infectious agent is contacted with the indicator plant. The method and the dosage are obvious to those skilled in the art.

Plant diseases are very selective in that certain pathogens are infected only to specific plants, and these plants are called host plants. This is due to the physical defects such as plant cell walls, wax and cuticle layers, and defense against many antimicrobial substances.

Thus, the indicator plants of the present invention can be used in a variety of applications including white clover, surgarcane fiji, alfalfa, cucumber, grapevane, barley, potato, tobacco, And the like, but the present invention is not limited thereto.

The standard sample of the present invention is a sample containing an infectious agent and is an indicator of a positive control. The infectious agent can be selected in consideration of the host relationship with the indicator plant, as shown in [Table 1], but is not limited thereto.

Infectious factor Indicator plant Partitiviridae white clover Reoviridae Sugarcane fiji, clover, rice, lettuce Bromoviridae alfalfa, tobacco, cucumber, olive Closterovidae beet, lettuce, grapevine Tombusviridae tomato, carnation, oat

The plant disease resistance inducing substance of the present invention may be a plant-derived, microorganism-derived, or a mixture thereof, and is characterized by being antiviral.

The infectious agent of the present invention is characterized by being a virus.

In the screening method of the present invention, the indicator plants may be plants of 3-5 leaf, 6-8 leaf, or 9-10 leaf stage, and can be easily selected by those skilled in the art.

In addition, in the screening method of the present invention, the time for counting the number of necrotic lesions after applying a test sample may vary depending on the infectivity of the infectious agent contained in the standard sample used, but 50 or more necrotic lesions , Which can be easily selected by those skilled in the art.

The infectivity of the infectious agent contained in the standard sample is characterized in that it is prepared through dilution by preliminary experiment so that the necrotic lesion includes infectious agent such that it can occur at a level of 50 to 250 per half leaf.

The present invention will be described in more detail with reference to the following examples. However, the following examples are provided to aid understanding of the present invention, and the scope of the present invention is not limited by these examples in any sense.

In this case, unless otherwise defined, technical terms and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. In the following description and the accompanying drawings, A description of known functions and configurations that may unnecessarily obscure the description of the present invention will be omitted.

[ Example  One] Black samples and tobacco mosaic virus ( TMV)  Production of Infectious Fluid

1. Tobacco mosaic virus ( TMV Establishment of manufacturing conditions and inoculation conditions of infectious liquid

Nicotiana (TMV) was infected with 9 to 10 leaves of benthamiana , and the leaves were taken at the tip of the leaf with the symptomatic appearance, and the 1M inoculation buffer (38.5 g _{KH 2 PO 4 + 61.5g K 2} HPO were mixed with ₄ / 1L, pH 7.0) 5ml ratio, grinding, to give the juice liquid TMV infection.

When the tobacco mosaic virus (TMV) -infectious fluid obtained was inoculated into the wild-type tobacco, the necrosis lesion was diluted to a level of 50 ~ 250 per half leaf, and the titration amount of the test solution (0.01 M buffer for inoculation) Was used as an inoculation source.

2. Anti-plant virus  Preparation of sample for assay

Samples with antiviral activity were diluted with distilled water to prepare a 50-fold dilution, and the standard product was a 90% or more pure product.

200 μl of this extract and 200 μl of tobacco mosaic virus (TMV) infectious solution were added to a 1.5 ml eppendorf tube as a test sample. The final concentration of the test sample was 100 times, (vortex) for 3 minutes to prepare a test sample by mixing test sample with tobacco mosaic virus (TMV) infectious solution.

[ Example  2] Antiviral activity assay method

Orient species in the 7th to 8th leaf of the main leaf ( Nicotiana tabaccum cv. Xanthi nc) Tobacco leaves of about 12 cm × 8.5 cm (end × end) size were cut to the petiole and placed on 2 layers of overlapping cloth. Carbon powders were evenly sprayed. To the right half of the leaves, the same amount of Tobacco Mosaic Virus (TMV) infected liquid was inoculated into the left half with 5 swabs using a cotton swab. Then, a paper towel cut into 6 cm x 6 cm was put on a petri dish (14.5 cm in diameter), and the tobacco leaf treated with the test sample and the cigarette mosaic virus (TMV) infected liquid was applied to the petri dish (0.1% NaOCl). The lid was closed and incubated for 3 days in a 23 ° C incubator (air non-circulating system). During the incubation, 3 ml of distilled water (0.1% NaOCl) was supplied twice a day to prevent drying of tobacco leaves.

After 3 days of inoculation, necrotic lesions were counted. When the number of lesions without treatment was less than 50, the counts were excluded from the counting.

(CTV) was calculated by the following formula based on the number of half-leaf lesions treated with the drug and the number of lesions treated with the untreated half-leaf. The CTV of the mushroom hydrothermal extract to be assayed was more than 90% It can be judged that there is a control ability.

Claims (4)

A method of screening for a plant disease resistance inducing substance comprising the steps of:
(a) smearing a test sample on leaves of an indicator plant;
(b) smearing a standard sample on the left half of (a);
(c) allowing the lesion of step (b) to show a local lesion; And
(d) counting the number of necrotic lesions on the leaves in step (c), and substituting the number of necrotic lesions in the test for the following titer (CVT) to read out the control ability of the test substance.

2. The screening method according to claim 1, wherein the number of the necrotic lesions in the lobe portion to which the test sample is applied is counted as the half-life of the medicament-treated half lobule.
The screening method according to claim 1, wherein the number of 'untreated half-leaf lesions' in the formula counts the number of necrotic lesions in a leaf area to which a standard sample is smoothed.
2. The screening method according to claim 1, wherein, when the activity value (CVT) in the step (d) is 90% or more of the standard, it is determined that the control ability is acceptable.

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