CN102326542A - New use of palmitic acid as meloidogyne incognita repellent - Google Patents

Abstract

The invention discloses new use of palmitic acid as a meloidogyne incognita repellent. According to the new use, the palmitic acid can be used for preparing the meloidogyne incognita repellent and is used as an active ingredient or an inactive ingredient; and when the palmitic acid is used as the active ingredient, the palmitic acid can be separately used, and can also be used together with other active ingredients. The repellent is a methanol solution of the palmitic acid; and the concentration of the palmitic acid in the repellent is 0.5 to 4.00mM. The palmitic acid or the methanol solution of the palmitic acid used for preventing and controlling the meloidogyne incognita is safe, nontoxic and effective; and when the concentration of a palmitic acid solution is 0.5 to 4.00mM, the meloidogyne incognita can be repelled, and the tendency index can reach -0.20.

Description

Palmitic acid is as the new purposes of Meloidogyne incognita repellant

Technical field

The present invention relates to a kind of new purposes of palmitic acid, particularly palmitic acid is as the purposes in the Meloidogyne incognita repellant.

Background technology

Root-knot nematode is one of worldwide important causal organism, and production has brought serious loss to world agriculture for it, and the agricultural economy loss that therefore the annual whole world cause is up to 157,000,000,000.Kind surplus the root-knot nematode of having reported in the world at present has 90, and Meloidogyne incognita (Meloidogyne incognita), javanese root knot nematode (M.javanica), peanut root-knot nematode (M.arenaria) and northern root-knot nematode (M.hapla) account for 95% of whole root-knot nematode.A series of problems that Meloidogyne incognita can cause facility to produce, and make a large amount of economic crops underproduction.In northern China; With Meloidogyne incognita is main, and the host plant of root-knot nematode is in extensive range, surpasses 3000 plant species; Comprise monocotyledon, dicotyledon, herbaceous plant and woody plant; Remunerative crops such as the Solanaceae in the vegetables, Curcurbitaceae particularly, the general underproduction 30%～40% in back but tomato wherein and cucumber are injured, even total crop failure.Current, the control of root-knot nematode is main with the chemicals control mainly, and it is cancelled by legislative branch environment, person poultry safety's the serious harm that exists just gradually.Therefore, safely, effectively, the medicine of low toxicity and the method for preventing and treating are extremely urgent.

Root-knot nematode mainly comprises six breeding times; And in its two length of times, the cerebral organ that innervates of prosperity capable of using is through (the AWA of olfactory nerves unit of head; AWC) semiochemicals that comes the perception root system to give out; Carry out the taxis migration to host plant, infect plant, thereby accomplish its life cycle.Therefore, in two length of times of root-knot nematode, can play the purpose of nematoda control through disturbing the taxis migration of root-knot nematode.Completion along with the beautiful nematode of model animal (Caenorhabditis elegans) gene order-checking work; At present separated and identified the gene of 19800 6627 protein families of can encoding, and the function of related gene has been carried out detailed and deep research.And; Our previous work finds, E-value≤1 o'clock, and beautiful nematode and Meloidogyne incognita homologous gene are near 6000; Wherein the mpk-1 gene is one of major function gene in the Ras approach; Relevant with the taxis migration of nematode, and mpk-1 gene autoploidy in beautiful nematode and Meloidogyne incognita is higher, so the taxis migration of Meloidogyne incognita can supported and reflect to mpk-1 expression of gene situation.

Palmitic acid is as a kind of natural acid, and is nontoxic, at aspects such as food additives, perfume industries many application arranged all, do not see the report that is useful on the control Meloidogyne incognita at present as yet.

Summary of the invention

The new purposes that the purpose of this invention is to provide a kind of palmitic acid.This new purposes is that palmitic acid is used to prepare the Meloidogyne incognita repellant; In this repellant, palmitic acid can also can have the active composition of control Meloidogyne incognita with other and carry out compatibility jointly as active component separately as active component.

Said repellant is the methanol solution of palmitic acid.

The concentration of palmitic acid described in the said repellant in said repellant is 0.5mM-4.00mM.

The present invention also provides a kind of preparation method of said repellant, comprises the steps: palmitic acid is dissolved in the methanol solution that obtains palmitic acid behind the methyl alcohol.

The present invention also provides a kind of method of preventing and treating Meloidogyne incognita, comprises the steps: said repellant is used to prevent and treat Meloidogyne incognita; Said control Meloidogyne incognita is the repellent Meloidogyne incognita.

Use the methanol solution control Meloidogyne incognita of palmitic acid or palmitic acid, safe, nontoxic, effective, but when the concentration of palmitic acid solution is 0.50mM-4.00mM the repellent Meloidogyne incognita, the taxis index can reach-0.20.

Description of drawings

Fig. 1 is the sketch map that the methanol solution of variable concentrations palmitic acid detects the Meloidogyne incognita taxis.Wherein, A representes to add the circle of methyl alcohol, and B representes to add the circle of palmitic acid methanol solution, and C representes to place the nematode position.

Fig. 2 is the influence of the methanol solution of variable concentrations palmitic acid to the Meloidogyne incognita taxis.

Fig. 3 is the influence that the methanol solution of variable concentrations palmitic acid is expressed Meloidogyne incognita Mi-mpk-1.

Embodiment

Employed experimental technique is conventional method like no specified otherwise among the following embodiment.

Used material, reagent etc. like no specified otherwise, all can obtain from commercial sources among the following embodiment.

The palmitic acid of embodiment 1, variable concentrations is to the influence of Meloidogyne incognita

1, material: with palmitic acid (CAS:57-07-3; Sigma) use chromatographically pure methyl alcohol to be made into the solution of concentration, obtain the methanol solution (repellant 1) of 0.50mM palmitic acid, the methanol solution (repellant 2) of 1.00mM palmitic acid, the methanol solution (repellant 3) of 2.00mM palmitic acid and the methanol solution (repellant 4) of 4.00mM palmitic acid respectively as 0.50mM, 1.00mM, 2.00mM and 4.00mM.Preserve subsequent use in-20 ℃ of refrigerators.

Meloidogyne incognita (Meloidogyne incognita) (force is raised, Zheng Jingwu, Shang Hanwu. root-knot nematode classification and evaluation approach and progress. Zhejiang agricultural journal .2005,17:106-110, the public can obtain from China Agricultural University) second instar larvae.

2, method: use repellant 1-4 and chromatographically pure methyl alcohol (contrast) to handle the second instar larvae of Meloidogyne incognita (Meloidogyne incognita) respectively; Utilize the result of taxis index, Mi-mpk-1 gene expression, the effect of palmitic acid as the Meloidogyne incognita repellant is described from physiological level and molecular level.

Under the laboratory condition; According to Ward (Ward Samuel.Chemotaxis by the nematode Caenorhabditis elegans:Identification of attractants and analysis of the response by use of mutants.Proc.Nat.Acad.Sci.USA.1973; 70,817-821) with (Bargmann C.I., Hartweig E. such as Bargmann; Horvitz H.R.Odorant selective genes and neurons mediate olfaction in C.elegans.Cell; 1993,74, the method that 515-527) is provided; Adopting diameter is the culture dish of 6cm, is the circle of 1cm at a diameter apart from 1cm place, culture dish edge label diameter respectively.The agar that adds 10ml 0.8% in each culture dish.In the culture dish of the two circles of mark, the chromatographically pure methyl alcohol that adds 10ml in the side circle is contrast, and opposite side adds the palmitic acid solution of 10ml variable concentrations for handling.In the circle of both sides, all add 10 μ L chromatographically pure methyl alcohol as negative control.Culture dish behind the adding compound; Put into 25 ℃ of incubator lucifuge hatchings 2 hours earlier; Take out the back in the middle part of each culture dish, add the second instar larvae of 50 Meloidogyne incognitas that just hatched with the position (Fig. 1) of the round equidistance of both sides, 25 ℃ of incubator lucifuges were hatched 3 hours again; According to Bargmann and Horvitz (Bargmann C.I.; Horvitz H.R.Chemosensory neurons with overlapping functions direct chemotaxis to multiple chemicals in C.elegans.Neuron, 1991,7; Method statistic taxis index (Chemotaxis Index) 729-742); Its computational methods are: the quantity of adding nematode in the palmitic acid solution circle with add the poor of nematode population in the methanol solvate circle,, i.e. taxis index=(nematode population in nematode population in the palmitic acid solution circle-methyl alcohol circle)/the add total amount of nematode with the ratio that adds line insect number); Taxis index>=0.2 o'clock is to attract; 0≤taxis index＜0.2 o'clock is faint attraction, and taxis index≤-0.02 o'clock is to repel.

The palmitic acid solution-treated of each concentration is made 3 wares and is repeated, and add up the quantity of adding nematode in palmitic acid methanol solution (B) circle in every ware respectively and add the nematode population in methanol solvate (A) circle, the mean value that calculates the taxis index and respectively repeat, the result sees table 1.

The methanol solution of the palmitic acid of table 1. variable concentrations is handled the statistics of Meloidogyne incognita

According to the method for Ward and Bargmann etc., collect the second instar larvae of 2000 different disposal simultaneously, be used for the analysis of Mi-mpk-1 gene expression.The primer that gene information and Real-time PCR adopt, as shown in table 2.

Actin and mpk-1 gene and primer information among the table 2.Real-time PCR

RNease Kit (Tiangen) is adopted in the extraction of the total RNA of nematode, and total RNA adopts RNase-free DNase (Takara) to carry out purifying, utilizes M-MLV (Promega) to reverse, and obtains article one cDNA chain.With the cDNA chain is template (2 μ g), carries out Real-time PCR, and fluorescent dye adopts 2 * SYBR Green mix (Toyobo), and each 1 μ L of the upstream primer of 10 μ M and downstream primer complements to 25 μ l with high purity water.The PCR reaction condition is a two step method:

The first step: 50 ℃ of 2min, 95 ℃ of 1min

Second step: 95 ℃ of 15s, 52 ℃ of 15s, 72 ℃ of 45s, 40 circulations, and at 72 ℃ of collection fluorescence.

3, result

(1) the palmitic acid methanol solution of variable concentrations is to the influence of Meloidogyne incognita taxis

Between scope 0.5mM～4.00mM that test detects; Palmitic acid all shows as the effect of repellent to Meloidogyne incognita; And repellent effect strengthens along with the increase of palmitic acid concentration, and taxis index variation scope is-0.20～-0.067, all shows as the effect (Fig. 2) of repulsion.And in contrast (0mM), the taxis index is 0, between-0.02～0, gets rid of the influence of solvent methanol to Meloidogyne incognita.

(2) the palmitic acid methanol solution of variable concentrations is to the influence of Meloidogyne incognita Mi-mpk-1 expression

Palmitic acid shows as inhibitory action (Fig. 3) to the influence that Meloidogyne incognita Mi-mpk-1 expresses, and inhibitory action increases with the increase of palmitic acid concentration (0.50mM-4.00mM), and maximum suppression effect reaches 77%.Show that by molecular data the palmitic acid of 0.50mM-4.00mM repels Meloidogyne incognita.

4, conclusion

Physiological data and molecular data show: but the methanol solution repellent Meloidogyne incognita of 0.50mM～4.00mM palmitic acid, thus play the effect of preventing and treating Meloidogyne incognita, and control efficiency is along with the increase that increases to of palmitic acid concentration.So palmitic acid can be used as the repellant of Meloidogyne incognita, the using dosage scope is: 0.50mM～4.00mM.

Claims (8)

1. the application of palmitic acid in preparation Meloidogyne incognita repellant.

2. application according to claim 1 is characterized in that: the active component of said Meloidogyne incognita repellant is a palmitic acid.

3. application according to claim 1 and 2 is characterized in that: said Meloidogyne incognita repellant is the methanol solution of palmitic acid.

4. application according to claim 3 is characterized in that: the concentration of said palmitic acid in said repellant is 0.5mM-4.00mM.

5. repellant of preventing and treating Meloidogyne incognita, it is characterized in that: said repellant is the methanol solution of palmitic acid.

6. repellant according to claim 5 is characterized in that: the concentration of said palmitic acid in said repellant is 0.5mM-4.00mM.

7. the preparation method of repellant described in the claim 5 or 6 comprises the steps: palmitic acid is dissolved in the methanol solution that obtains palmitic acid behind the methyl alcohol.

8. a method of preventing and treating Meloidogyne incognita comprises the steps: repellant described in claim 5 or 6 is used to prevent and treat Meloidogyne incognita; Said control Meloidogyne incognita is the repellent Meloidogyne incognita.

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