BRPI0804558A2 - mercaptopyrimidylethane derived organostannic compound for fungicide formulation - Google Patents

Abstract

It is an organotin compound derived from the reaction between triphenyltin (IV) chloride and bis- (2-mercaptopyrimidyl) ethane of formula [SnxClxPh3x (R1R2CH2CH2R2R1) (1) {R1 = 2-pyrimidyl, R2 = S (sulfur), x = 1, 2, 3, 4} with fungicidal property, usable as a single active ingredient in the formulation of new fungicide or as an ingredient in existing fungicidal formulations for the control of plant and fungal diseases in the environment. Various organotins are known and employed as ingredients in fungicidal composition. However, problems such as fungal resistance, low MIC (Minimum Inhibitory Concentration) value and high active ingredient concentrations make disease control difficult. The present invention is directed to the development of a fungicidal compound for the control of plant diseases, and other toxicogenic and allergenic fungi. The preparation of organotin involves solid state synthesis technique as well as solution. The results of the fungitoxic test and mycelial growth clearly show activity of the present invention against all tested fungi.

Description

"DEMERCAPTOPYRIMIDILETAN ORGANESTATIC DERIVATIVE COMPOUND FOR FUNGICIDE FORMULATION"

The present invention relates to the preparation and coordinated decomposed fungicidal or organotin effect derived from the reaction between triphenyltin (IV) chloride with bis- (2-mercaptopyrimidyl) -ethane against fungi, pathogenic, toxicogenic, allergenic and others. The derivatized organostannic compound object of the present application has the general formula [SnxClxPh3x (R1R2CH2CH2R2R1)] {R1 = 2-pyrimidyl, R2 = S (sulfur), x = 1,2,3,4}. according to the number of chlorotriphenyl tin groups in its formula. For x = 1 no prefix is used, but for x = 2 we use the prefix bis, for x = 3 we use the prefix tris and for x = 4 we use the prefix tetrakis. For x = 2 the name will be bis (2-mercaptopyrimidyl) ethane-7,7'-bis- (chlorotriphenyl tin) or bis (2-mercaptopyrimidyl) ethane-3,3'-bis (chlorotriphenyl tin) (IV)) or bis (2-mercaptopyrimidyl) ethane-7,3'-bis- (chlorotriphenyl tin) (IV)) or bis (2-mercaptopyrimidyl) ethane-3,7'-bis (chlorotriphenyl tin) (IV) )) or bis (2-pyrimidylthio) ethane-7,7'-bis- (chlorotriphenyl tin (IV)) or bis (2-pyrimidylthio) ethane-3,3'-bis (chlorotriphenyl tin (IV)) or bis (2-pyrimidylthio) ethane-7,3'-bis- (chlorotriphenyl tin (IV)) or bis (2-pyrimidylthio) ethane-3,7'-bis (chlorotriphenyl tin (IV)) . The present invention relates to the technical plant health sector of the area of Agronomy and synthesis of coordination compounds of the area of Chemistry.

State of the art

There are patents that use the metal precursor detriphenyl tin (IV) chloride, or other tin precursor in the preparation of materials with fungicidal, bactericidal, algicidal properties among others.

USPTO 4158001 discloses the use of triorgananes (SnCIR3, R = butyl, phenyl, propyl) in the preparation of hydroxydiazene oxide and N-cyclohexylhydroxydiazene oxide derivatives, which have a good fungicidal effect for wood preservation or for use as an emulsion preservative of paints, leather, adhesive and paper. The disadvantage of this invention relates to the high concentration of the active ingredient. The present patent application differs from this patent with respect to the industrial application of the active principle as well as the chemical nature of the organic precursor, mercaptopyrimidine.

USPTO 3931262 and USPTO 3933877 report the obtaining of detriorgano-stannic salts derived from mercaptocarboxylic acid, 2-mercaptopropionic acid, mercaptoalkane sulfonic acid, among others, with biocidal activity as well as having hydrophilic properties. In these patents, this property lowers the volatile character of the material, which makes its use possible. However, this reduces the application of this invention as a single active ingredient in solid mixtures (powder). Moreover, in these patents the hydrophilic character leads to a chemical bonding of the triorgano-stannic radical to domercaptan sulfur. The material in these patents has low toxicity and may be applied to protect plants against phytopathogenic fungi. The advantage of these inventions relates to the high concentration of the active ingredient and the phytotoxic character of the active principle.

USPTO 6270810 discloses a fungicidal composition for use in the control of plant pathogenic fungi. The main active ingredient of the fungicidal composition is the compound N- [1'-chloro-S-methyl-4-oxopentylH-SS-dichloro-4-methylbenzamide or N- [3 '- (1'-chloro-S4-methyl-oxopentyl S.-dibromo-cyano-benzamide or a mixture of both The compound disclosed in USPTO 6270810 consists of, in addition to these, the addition of other organostannic fungicides such as phentine hydroxide (detriphenyl tin hydroxide) and phentine acetate (acetate triphenyl tin), fungicides containing copper (I) and copper (II) salts, as well as component organic fungicides.In this patent, it is clear that to improve the compounding efficacy, the addition of existing compounds is necessary. a phytotoxic ingredient in its formulation as well as the fact that the application of the active ingredient in the field establishes high concentration.

USPTO 4115094 discloses the tetravalent herbicidal and pesticidal effect of tetravalent organics containing three tin-carbon bonds derived from butyl, phenyl as well as sucrose derivatives. The invention may also be used in combating the growth of aquatic plants, fixative detectors. Some sucrose-derived organotins have a certain fungicidal, algicidal, herbicidal and bactericidal effect. They are stable compounds that can be applied in spray, powder, or liquid formulations because when exposed to sunlight or added to the soil, the compounds decompose to a stable inorganic compound, producing no long exposure environmental pollution and, in addition, have biological activity. 1 ppmanally to other organotin biocides such as detributyl tin oxide (IV). However, this invention has the disadvantage of containing a phytotoxic ingredient in its formulation, as well as the fact that the application of the active ingredient in the field establishes a high concentration.

USPTO 4578489 discloses new organotin deamonium compounds with high biocidal activity, where the active compounds contain radicaistributyl, triphenyl attached to the metal center. The preferred active compound dimethylbenzyl-n-tetradecylammonium tri-n-butyldichloroestanate (IV) or dimethyl benzyl-n-tetradecylammonium tri-n-butyldifluorostannate (IV) has the pententordinate metal center. These, among other compounds described in this patent, are water soluble, having a broad spectrum of action as fungicides, acaricides, herbicides and algaecides, and have an industrial application in the protection of wood, paper, leather, paints in general, rubber, etc. The advantage of this invention relates to the high concentration of the active ingredient and the high value of the MIC (Minimum Inhibitory Concentration).

USPTO 5,436,267 reports the use of N-phenylcarbamate or its salt as an active ingredient in biocidal composition for pest control in agriculture. Active carbamate may have various substituents such as alkylthio or alkylsulfonyl groups, and others such as benzimidazole, benzothiazolyl, benzimidazolyl, imidazopyridyl, dihydrobenzofuryl, thiazolyl, pyrimidyl, pyrazinyl, benzothiazinyl, among others. The material derived from this invention may be used in combination with other commercially available fungicides such as triphenyltin hydroxide and triphenyltin acetate. Carbamate, the non-inventive organic material, and its derivatives can be used as active ingredients in agriculture and horticulture against plant diseases. The disadvantage of this invention is the high concentration of the active ingredient in addition to its phytotoxic property. USPTO 4678804 reports the fungicidal and insecticidal effect of benzylthiostannans. The compounds contain radicals such as tributyl, tricyclohexile triphenyl attached to the tin (IV) atom. For example, the compounds R'benzylthio triphenylstannane where R '= 2,5-dimethyl-, 2,6-dichlorobenzylthio-, 4-ethyl-, 2-trifluoromethyl-, 3-trifluoromethyl-, 4-trifluoromethyl-, 3-nitro -, 3,5-dinitro-, 2-chloro-, 2,4,6-trichloro-, 2-bromo-, 4-bromo-, 2-fluoro-, 4-fluoro-, 4-tert-butyl-, 2-methyl-, 2,4,6-trimethyl-. The invention of this patent is directed to its fungicidal potential in plant protection against a variety of fungi. The disadvantage of this invention is that the active ingredient does not have a broad spectrum of action as well as the high concentration of the active ingredient in the fungicidal composition. USPTO 4654368 reports the activity of silatran-derived triorganostannins in pesticidal, fungicidal, insecticidal compositions as well as a protective agent against marine organisms. The active compounds contain sulfur, silicon organometallic and organotin. The latter are derived from various precursors such as trimethyl tin (IV), triethyl tin (IV), tri-n-propyl tin (IV), tri-n-butyl tin (IV), tricycline (IV), tricyclohexyl tin chloride or bromide. (IV) ethenyl tin (IV). The disadvantage of this invention relates to the use of phytotoxic active ingredient, which reduces the application of this material as a good fungicide.

USPTO 4581373 discloses biologically active organostannic derivatives in emulsifying concentrates as well as methods for controlling plant infestations. Organic compounds associated with organotin are lipophilic acids whose derived salts contain sulfur or phosphorus in their chemical composition. Among the organotin radicals are triphenyl tin (IV) and tricyclohexyl tin (IV). Acids also contain carbon chains of 6 to 18 carbon atoms. The active compound is due to the mixture of other fungicides such as dicyclohexyl tin (IV) hydroxide or triphenyl tin (IV) hydroxide with lipophilic acids. The concentration of the active ingredient in the emulsifiable concentrate depends on the solvent used, but generally the material is used in sufficient amount in dilute aqueous solution. The disadvantage of this invention refers to the high concentration of the active ingredient, besides presenting phytotoxic property.

USPTO 4514225 discloses the preparation and use of an acetylsalicylate-derived compostotriorganoate for the control of microorganisms such as bacteria, algae, marine organisms, as well as wood preservation. Metallic precursors of general formula SnCIR3 (R = butyl, phenyl, alkyl and cyclohexyl) were used in the preparation of the active compounds.

The compounds may be applied in solution, emulsion, dispersions in water or through organic solvents. The compounds described in this patent may be applied in combination with other biocidal activity compounds. The advantage of this invention relates to the high concentration of the active ingredient, besides having an active ingredient derived from a phytotoxic precursor, which reduces the application of this material as a good fungicide.

USPTO 4221811 reports the fungicidal, bactericidal and fungal and bacterial control process of triorganoic bacteria containing substituent groups such as phenyl-, butyl-, methylbutyl-, methylphenyl- linked to the centrometal with up to two metal centers where the fourth substituent group is attached to the metal center. It consists of -OH, -CN, dimethylaminopropylamine (-NH (CH2) 3-NMe2) or the corresponding hydrochloride (-NH (CH2) 3-NMe2.2HCl) groups. The compounds showed activity against fungi, gram-positive and gram-negative bacteria. It is apparent from this patent that the solubility of the compound in water strongly promotes its fungicidal and bactericidal activity. The use of organic solvents in the application of active products has some disadvantages, such as being volatile, flammable and toxic. The present invention has the disadvantage of having a high MIC (Minimum Inhibitory Concentration) value. The present patent application differs from this patent by the low value of the MIC as well as the use of different organic precursor, mercaptopyrimidine. Other tin-free compounds, but containing their chemical composition sulfur and nitrogen atoms, are also fungicidal as described in USPTO 7067668. This invention reports the fungicidal potential of 4-quinolinol derivatives in agriculture and horticulture. The compounds showed an activity against pathogenic fungi of plants such as rice (blast), beans (brown spot) and potato (anthracnose). However, this invention has the disadvantage of using high concentration of the active ingredient.

USPTO 6270810, USPTO 6267991, USPTO 6264993, USPTO 6075047, USPTO 6060490, USPTO 6057356, USPTO 6004947 discloses application of fungicidal composition containing one or more active ingredients, for example, antifungal N-acetonylbenzamide (s) that act as a breath inhibitor such as ziram and fluazinam. N-acetonylbenzamid may also be added to a tin-based fungitoxic metabolite, for example, fentin (triphenyltin hydroxide or triphenyltin acetate). The advantage of these inventions relates to the phytotoxic character of the reactive ingredient.

USPTO 4554367 discloses the application of phosphonium halogenene stannates (IV) as biocidal agents as well as for the preservation of materials and protection of various crops in agriculture. Phosphonium stannate (IV) complexes stand out for their high water solubility, low volatility and biocidal activity. The main application of this invention relates to the use of this material as a protective paint. This invention has the disadvantage of having a high MIC (Minimum Inhibitory Concentration) value.

USPTO 4474760 reports compound mixing activity containing a combination of 2-mercaptopyridine-1-oxo or derivative (triphenyltin-2-mercaptopyridine-1-oxo), an organophosphate, for example diphenylisodecylphosph among others, and a benzotriazole, e.g. for example 2- (2'-hydroxy-5-t-octylphenyl) benzotriazole. The various antimicrobial combinations are stabilizers of polymeric systems that can be used for protection of adhesives, film sheets and any material-based polymeric system such as polyvinyl chloride, vinyl acetate-butylene-styrene (ABS) copolymer, polyurethane among others. . However, this invention has the disadvantage of using high concentration of the active ingredient as well as having a limited fungicidal result, low spectrum spectrum, and the active ingredient decomposes by heat.

Several of the patents mentioned below report the use of organic compounds with biocidal activity. These compounds are mixed with known tin or other metal fungicides to form an active formulation.

The final composition of the mixture may contain one or more distinct demetal active ingredients. Some examples are mancozeb, brestan, benomyl and fentin (triphenyltin hydroxide and triphenyltin acetate). Furthermore, the chemical nature of the organic material is completely different from that disclosed in the present invention, the subject of patent application. Other patents involving tin compounds are related to another type of application of these materials and again have the different chemical nature of the present invention in relation to the organic precursor: USPTO 7316738, USPTO 7194964, USPTO 7070795, USPTO 6811703, USPTO 6624179, USPTO 6399542, USPTO 6303078, USPTO 6291399, USPTO 5952496, USPTO 5939357, USPTO5910496, USPTO RE35985, USPTO 5436267, USPTO 5346704, USPTO 5336751, USPTO 5306712, USPTO 5384844, USPTO 5262115, USPTO USPTO 4766113, USPTO 4710220, USPTO 4666767, USPTO 4639393, USPTO 4602011, USPTO 4353962, USPTO 4528228, USPTO4286020, USPTO 42765079, USPTO 41678079, USPTO 41630340745, 409 USPTO 4125624, USPTO3957847, USPTO 3954992, USPTO 3932448, USPTO 5468715, USPTO4482759.

The present invention, object of the present patent application, consists of organotin coordination coordination derived from the reaction between detriphenyl tin (IV) chloride and bis (2-mercaptopyrimidyl) -ethane. The analysis of the above-mentioned patents clearly shows that the compound, which is the subject of the present patent application, is completely different, both in chemical and chemical formulas. For example, the organic precursor 2,5-dimethylbenzothiol differs from bis- (2-mercaptopyrimidyl) -ethane in that it does not contain nitrogen in its chemical composition and aromatic ring-linked methyl groups, in addition to the fact that bis- (2-mercaptopyrimidyl) -ethane present two Chfe groups between sulfur atoms. The organotin compound derived from the reaction with 2,5-dimethylbenzothiol will therefore have a structure and chemical formula distinct from the compound subject to the present patent application. The present compound, which is the subject of the patent application, is also totally different in its known and marketed chemical fungicidal structure and chemical composition, such as triphenyltin (IV) hydroxide and triphenyltin (IV) acetate, as well as in all those mentioned as empantic compounds. national and international databases. For example, as noted above, the compound derived from the reaction between triphenyltin chloride and 2,5-dimethylbenzothiol (UPSTO 4678804) will have no chemical bond between the tin atom and the nitrogen atom, which necessarily implies a completely distinct chemical compound. of the object compound of the present patent application.

Combating phytopathogenic fungi in plants is a worldwide problem that greatly determines human survival and social development. Several patents describe the preparation of organostannic derivatives for combating plant diseases as ingredients in fungicidal, insecticidal and bactericidal composition. However, various problems such as fungal resistance, high MIC (Minimum Inhibitory Concentration) value, high active ingredient concentrations stimulate the development of new fungicides for plant disease control. The present invention aims to develop a novel fungicidal compound effective in the control of plant diseases, and other toxicogenic and allergenic fungi, with low toxicity, low MIC value and low active ingredient concentration with broad spectrum of action.

The precursor organic material, bis- (2-mercaptopyrimidyl) -ethane or bis- (2-pyrimidylthio) -ethane, has no fungicidal or fungistatic activity. With the introduction of the metal precursor, triphenyltin (IV) chloride as part of the chemical composition of bis- (2-mercaptopyrimidyl) -ethane, the biological activity of the patented compound was verified for several fungi. The solubility of the compound in solvents of varying chemical classification enables its application as a powder, spray, solution or emulsion in the agricultural sector during the postharvest cultivation and storage of fruits and seeds.

The compound, subject of the present patent application, differs from patentsUSPTO 4581373, USPTO 4514225, USPTO 42221811, USPTO 6270810, USPTO 4115094, USPTO 5436267, USPTO 4654368 as it may be applied as the sole active ingredient and still has the advantage of use. doses, with higher efficiency and lower environmental risk. The compound under patent application has no phytotoxicity such as triphenyltin (IV) fungicide hydroxide and triphenyltin (IV) acetate with respect to its concentration in formulations. In addition, the compound and derivative, subject to patent application, decompose to non-toxic residues by light action and are effective even in acid medium and can be applied in soils of varying acidity for various crops of agricultural products. Therefore, the compound, which is the subject of a patent application, is new both from the point of view of chemistry and its biological efficacy in combating phytopathogenic fungi. The compound can be used for growing fruits such as bananas, papaya and grains such as wheat, as well as for storing them. The compound may also be used for the formulation of fungicide, insecticide, herbicide, acaricide, pesticide or bactericide as well as a single active ingredient or in admixture with existing principles to improve its effectiveness. The formulations may be solid, liquid or gaseous using inert vehicles such as talc or water to combat pathogenic and other organisms of animal origin. The present invention, object of the present patent application, is effective in the control of plant diseases and other toxicogenic and allergenic fungi presenting advantages over those mentioned above. For example, low toxicity, low MIC value, low concentration of active ingredient, broad spectrum of action, and less aggressive to the environment due to the composition of the active compound in the soil leading to the formation of non-toxic byproducts.

Description of the invention

The present invention, which is the subject of a patent application, deals with the fungicidal organotin compound against phytopathogenic fungi, toxicogens and allergens from plants, fruits and seeds for application in the cultivation of agricultural products and post harvest. The preparation of the organic precursor material of the present invention, bis (2-mercaptopyrimidyl) ethane or bis (2-pyrimidylthio) ethane, followed the procedure described in Technique 1. The preparation of the organotin material of the present invention involves two techniques: Technique 2e Technique 3.

Detailed Description of the Invention

Technique 1:

In a suitable container, preferably a round bottom flask, 10 to 100 ml of ethanol was placed, and then 1.9 to 100 mmol of 2-mercaptopyrimidine and 1.6 to 251.5 mmol of KOH were added. After dissolution of the solids, 1.2 to 100.3 mmol of dibromoethane was added. The mixture was kept under stirring and reflux for 0.5 to 5.5 hours. Then the resulting orange-colored solution was poured into a crushed ice-containing Becker which was kept in a refrigerator for 4 to 24 hours. After this time a dark yellow precipitate separated in the aqueous medium, bis- (2-mercaptopyrimidyl) -ethane. The precipitate was filtered and washed with 100 to 1000 ml of ice water and then 50 to 150 ml of n-hexane. The resulting compound is soluble in usual organic solvents such as dichloromethane, methanol, ethanol, acetonitrile and acetone.

Technique 2:

In a suitable container, preferably a previously prepared Schlenck tube maintained under an inert atmosphere of nitrogen or argon, 1.04 to 50.3 mmol triphenyltin (IV) chloride, dissolved in a sufficient amount of dichloromethane, was added and may be used. any other chlorinated solvent. To this solution was added 0.3 to 11.6 mmol of bis- (2-mercaptopyrimidyl) -ethane, object synthesized in Technique 1. The mixture may be left under stirring in an inert atmosphere for 1.5 to 3.5 hours. . Then the volume was reduced under vacuum to give a light yellow material. The resulting material is air washed with n-hexane and stored in a dry environment under vacuum. The compound can also be obtained by leaving the mixture to slowly evaporate the solvent in air, so that with the reduction of solvent metadata on the first precipitation, the yellowish material is The clear salt is filtered, air washed with n-hexane and stored under vacuum. The patented chemical compound is partially soluble in hydrocarbons but soluble in chlorinated solvents such as chloroform, ethers, sulfoxides, amides, nitriles, alcohols, ketones and in a water / alcohol mixture.

Technique 3:

The compound under patent application can also be prepared in the solid state under the same conditions as described in Art 2. In a Schlenck tube, 1.01 to 51.3 mmol triphenyltin (IV) chloride and 0.3 to 11 were placed. 0.6 mmol of bis- (2-mercaptopyrimidyl) -ethane. The mixture is heated to 40 to 100 degrees Celsius, keeping the system in an inert atmosphere of nitrogen or argon for a period of 1.5 to 3.5 hours. After this period, the tube was cooled and the solid material was removed and stored in a dry vacuum environment. The same solubility properties were observed for the compound prepared via Technique 2, ie partially soluble in hydrocarbons but soluble in chlorinated solvents such as chloroform, ethers, sulfoxides, amides, nitriles, alcohols, ketones and water / alcohol mixture.

The characterization of the present invention involved several spectroscopic analytical methods, which confirmed the chemical binding of tin to solid state carbon, nitrogen and chlorine atoms, establishing tin atom apentavalence. In solution, a single 119Sn NMR signal was observed within a range commonly assigned to both the tidal and tetravalent tin. In this context, the present invention in solution may have all pentavalent tin atoms, all tinravalent atoms or in the pentavalent / tetravalent ratio of 1: 1, 1: 2, 1: 3 and 2: 2 or even the tetravalent / pentavalent ratio of 1: 2 and 1: 3.

Demonstration Experiment:

The compound synthesized by Technique 2 and / or 3 was tested to determine its fungicidal activity through in vitro spore germination and mycelial growth testing experiments using 12 different physiologically different types of fungi, representing phytopathogenic, allergic ethoxycogenic fungi. Compound stock solution was prepared in methanol. Experiment 1

For plant disease caused by a fungus to occur, it is necessary that the conidia / spores of this phytopathogenic fungus germinate. If these spores do not germinate for any cause, no disease will occur, and thus no harm to the farmer. This experiment was designed to demonstrate the fungicidal effect on fungal spores / conidia using even the "poisonous food" standard. The stock solution of the compound, object of patent application, was added in the agzesterized czepeck-Dox culture medium to obtain final concentrations of 0.1 to 6 ppm. The half culture without the compost served as a witness. The test uses conidia / spores were spread on the surface of the culture medium on each plate. After 48h of incubation the number of conidia / spores germinated in each concentration of the new compound was counted and compared to the germination in the culture medium without the compost. The fungicidal effect was determined by calculating the percentage of dead conidia / spores relative to the control.

Results: The results of deadly effect on spores / conidia of this fungicidal compound subject to patent application are presented in TABLE 1. It is evident that the compound was spore / conidial fungotoxic of all species tested at dosages ranging from 0.1 to 6 ppm, depending on the fungus. The compound had different deadly effect in different fungi, and the compound was more toxic to P. grisea causing rice and wheat blast, causing 100% conidial mortality at 0.2 ppm, and at 0.1 dose. ppm, there was a 97% conidial mortality. The compound had an effect on the 100% mortality of Al fungal conidia / spores. solani, cause of tomato and potato black spot, Al. Brassicicola, cause of late blight of cabbage, cauliflower, broccoli and related plants, C. gloeosporioides, cause of anthracnose of various economically important plant and fruit and vegetable rot species. postharvest, C. musae, cause of banana anthracnose and rot Postharvest of banana, B.sorokiniana, cause of wheat spike, barley, rice blight, in the dose 2 to 3ppm. For toxicogenic and allergenic fungi such as A. ochraceUs, A.glaucus and A. flavus, the compound caused 100% deconide / spore mortality up to 1 ppm. For root and fruit rot fungi, F semitectum and F. graminearum, compost caused 100% mortality at a concentration of 6 ppm. These results show that the new compound, the subject of patent application, is a compound with broad spectrum fungicidal property.

TABLE 1: Mortality of phytopathogenic, toxicogenic and allergenic fungi conidia / spores caused by the patented compound of different doses / concentrations.

<table> table see original document page 14 </column> </row> <table>

* Not tested. Average of three repetitions.

Experiment 2

For plant disease caused by a fungus to occur, it is necessary that the conidia / spores of this phytopathogenic fungus germinate and there is mycelium growth that will invade plant tissues. This experiment was done to demonstrate fungitoxic effect that prevents fungal growth. The standard technique of "poisonous food" was used. The compounded stock solution under patent application was added to the sterile culturaczepeck-Dox agar medium to obtain final concentrations of 0.1 to 6'ppm.

The culture medium without the compound served as a control. The medium was seeded in the center of each plate, with a 5 mm disc of culture of the respective fungus.

Cultures were incubated until test fungus growth reached the edges of the plates. The diameter of the fungal colony in placacontaining the compound was then measured. The fungicidal effect was determined by calculating the fungal growth inhibition percentage relative to the control.

Results: The results of the effect of this new fungicidal compound, object of patent application, are presented in TABLE 2. It is evident that the compound was fungitoxic for all species tested in the variable dosage from 0.1 to 6 ppm, depending on the fungus. The new compound at a dose of 0.2 pp completely inhibited the growth of P. grisea, which causes rice rus blast, and at the 0.1 ppm dose there was 97% inhibition. Al. Solani, causer of tomato and potato black spot, Al. Brassicicola, cause of late blight, cauliflower, broccoli and related plants, C. gloeosporioides, cause of various economically important plant species and fruit and vegetable rot in postharvest, C. musae, causing deantracnosis and rotting postharvest of banana, B. sorokiniana, causing spikelet of wheat, barley and rice were completely inhibited from 2 to 3ppm. The growth of toxicogenic fungi such as A. ochraceuse A. glaucus was completely inhibited at a dose of up to 1 ppm. For root rot fungi, fruits and vegetables, F semitectum and F.graminearum, the compound caused 100% inhibition at a dose of 6 ppm. These results show that the new compound, subject to patent application, is a compound with broad spectrum fungicidal property.

TABLE 2: Inhibition of mycelial growth of phytopathogenic, toxicogenic and allergenic fungi caused by the compound subject to patent application, at different doses / concentrations.

<table> table see original document page 15 </column> </row> <table> <table> table see original document page 16 </column> </row> <table>

The experimental results clearly demonstrate the fungicidal effect of the present invention, which may be used to formulate novel fungicide by mixing it with solid inert carrier, for example, but not limited to talc, kaolin, bentonite, or other clays; mixing it with a liquid inert carrier, for example, but not limited to organic solvents, oils of vegetable, animal or mineral origin. Depending on the end use of the new compound, which is the subject of a patent application, a spreader may be added according to the availability of inert material and the condition available for disease control of plants and their products.

Similarly the same can be done for the elimination of toxicogenic and allergenic fungi at very low dosages. The compound and its derivatives, subject to patent application, can be mixed with existing active ingredients to improve their effectiveness.

The new compound, which is the subject of a patent application, has the advantage of being less aggressive to the environment, because of its decomposition in sololevar formation of non-toxic by-products.

Claims (9)

1. "DEMERCAPTOPYRIMIDILETANE DERIVED ORGANESTATIC COMPOUND FOR FUNGICIDE FORMULATION" characterized by the general formula [SnxClxPh3x (R1R2CH2CH2R2R1)] {R1 = 2-pyrimidyl, R2 = S (sulfur), x = 1, 2 from reaction derivative detriphenyl tin (IV) chloride and bis (2-mercaptopyrimidyl) ethane or bis (2-pyrimidylthio) ethane; 2. "ORGANESTAIN COMPOSITE DERIVATED DEMERCAPTOPYRIMIDILETAN FOR FUNGICIDE FORMULATION" according to claim 1, characterized in that it comprises two pentacoordinated or pentavalent tin atoms where each tin atom is bonded to three chlorine atom is well with a chlorine atom to a nitrogen atom of the bis- (2-mercaptopyrimidyl) -ethane or bis- (2-pyrimidylthio) -ethane 2-pyrimidyl fragment, "DEMERCAPTOPYRIMIDILETANE-ORGANESTATIC COMPOUND FOR FUNGI FORMULATION" according to claim 1, characterized in that it comprises two pentacoordinated or pentavalent tin atoms which, in solution, may exhibit partial absence of the tin (IV) -chlorine bond and tetracoordinate centrometallic; 4. "DEMERCAPTOPYRIMIDILETANE-ORGANESTATIC COMPOUND FOR FUNGICIDE FORMULATION" according to claim 1, characterized in that it comprises four pentacoordinated or pentavalent tin atoms where each tin atom is bonded to three phenyl radicals and one fine chlorine atom. a nitrogen atom of the bis- (2-mercaptopyrimidyl) -ethane or bis- (2-pyrimidylthio) -ethane 2-pyrimidyl fragment; "DEMERCAPTOPYRIMIDILETANE DERIVED ORGANESTATIC COMPOUND FOR FUNGICIDE FORMULATION" according to claim 1, characterized in that it comprises four pentacoordinated or pentavalent tin atoms which, in solution, may exhibit partial absence of the tin (IV) -chloride bond. tetracoordinate centrometallic; 6. "DECERTOPYRIMIDILETANE ORGANESTAIN COMPOSITE FOR FUNGICIDE FORMULATION" according to Claim 1, characterized in that it comprises three pentacoordinated or pentavalent tin atoms where each tin atom is bonded to three phenyl radicals and one well atom of chlorine. a nitrogen atom of the bis- (2-mercaptopyrimidyl) -ethane or bis- (2-pyrimidylthio) -ethane 2-pyrimidyl fragment; 7. "DEMERCAPTOPYRIMIDILETANE DERIVED ORGANESTATIC COMPOUND FOR FUNGICIDE FORMULATION" according to claim 1, characterized in that it comprises three pentacoordinated or pentavalent tin atoms which in solution may exhibit partial absence of the tin (IV) -chlorine bond and tetracoordinate centrometallic; 8. "DEMERCAPTOPYRIMIDILETANE-ORGANESTATIC COMPOSITE FOR FUNGICIDE FORMULATION" according to Claim 1, characterized in that it comprises a pentacoordinated or pentavalent tin atom (3) which is attached to three phenyl radicals and a chlorine atom as well as a chlorine atom. denitrogen atom of the 2-pyrimidyl bis (2-mercaptopyrimidyl) ethane or bis (2-pyrimidylthio) ethane fragment; 9. "DEMERCAPTOPYRIMIDILETANE-ORGANESTATIC COMPOUND FOR FUNGICIDE FORMULATION" according to Claim 1, characterized in that it comprises a pentacoordinated or pentavalent tin atom in solid which in solution may exhibit partial absence of the tin (IV) -chlorine bond and tetracoordinate centrometallic.