Introduction. In last decades considerable interest to the search of biologically active compounds in series of azole derivatives is indicated. This is mainly connected with the successful use of several drugs with heterocyclic system in the structure. Analysis of the pharmacological properties of heterocyclic nitrogen–containing compounds of the known groups let us to suggest, that the triazole substituent is an important pharmacophore fragment, responsible for the availability of diverse physiological activity. In addition, it causes a little toxicity. Considerable attention belongs to synthesis and research of the biological activity of 1,2,4-triazoles derivatives. The great importance also has research of the influence of heterocyclic fragments of different nature in combination in one molecule on the activity of the synthesized compounds. Like different synthons in the structure of 1,2,4-triazoles in various kinds of biological activity of the reaction products with an aim of new and highly efficient low-toxicity compounds reception. The aim of work was to study synthesis and properties of substances among salts of 2-(5-((theophylline-7'-yl)methyle)-4-phenyle-4 Н -1,2,4-triazole-3-ylthio)acetate acid. Materials and methods of the research . In the process as a starting material for reception of new series of compounds theophylline has been chosen. It is important to note, that by the diversity and strength of pharmacological effects, which appears, this structure takes its rightful place among heterocyclic compounds. Through the series of the successive stages 4-phenyle-5-(1',3'-dimethylxantine-7'-yl)methyle-1,2,4-triazole-3-thiol was obtained from the theophylline. Research of the physico-chemical properties of the received compounds conducted according to methods, described in the State Pharmacopoeia of Ukraine. open capillary method, elemental analysis (Elementar Vario L cube (CHNS)). 1 H NMR spectra of compounds were recorded with a spectrometer “Mercury 400” (solvent - DMSO-d 6 or DMSO-d 6 + CCl 4 , the internal standard - tetramethylsilane). Chromatography-mass spectral researches were performed on the instrument Agilent 1100 Series LC/MSD System, method of ionization - chemical ionization at the atmospheric pressure (APCI). Propyl ester of the theophylline-7-acetic acid. To the 0,055 mol of sodium hydrogencarbonate in 150 ml of DMF adds 0,05 mole of the theophylline and heated with stirring 5 - 10 minutes. To the reaction compound adds 0,055 mole of the monochloracetate acid propyl ester and boil with constant stirring 5 - 6 hours. After cooling to the reaction mixture with stirring, adds an equal volume of water. The precipitate dissolves, then falles again. Ester precipitate is filtered, washed with water, then with a small amount of methanol and dried. White crystalline solid, insoluble in water, soluble in organic solvents (alcohols, dioxane, DMF, DMSO). For the analysis is purified from 1-propanol. Yield 82%. Hydrazide of the theophylline -7-acetic acid. To the heated 0,03 mole solution of the propyl ester theophylline -7- acetic acid in 200 ml of ethanol adds 0.3 mole of hydrazine hydrate. Reactionary compound leave at room temperature for 12 hours. Hydrazide precipitate is filtered, washed with water, acetone and dried. Output 79%. White, amorphous substance, insoluble in water, acetone, soluble in alcohols, dioxane, soluble in DMF, DMSO. Crystallized from a mixture DMF-water (1:1). T m. = 210-211 oC. 2-(2-(theophylline-7'-yl)acetyl)-N-phenylhydrazinecarbothioamide . 0,05 mol of phenylisothiocyanate, 130 ml of dioxane and 90 ml of water heated up to boiling for 1 hour, cooled, add 100 ml of water, the precipitate is filtered, washed with water, 2-propanol and crystallized from a mixture water- dioxane, dimethylformamide. Output - 71 %. Tm . = 262-265 oC. 7-((5-mercapto-4-phenyl-4 H -1,2,4-triazoles-3-yl)methyl)theophylline . 0,01 mol of compound 2 -(2-(theophylline)acetyl)-N-phenylhydrazyncarbothio-amide, 0,01 mol of sodium hydroxide and 50 ml of water heated up to boiling during 2 hours, cooled and added to the filtrate 2 ml of concentrated hydrochloric acid. Output - 84%. Tm. > 270 o C. 2-((5-((theophylline-7'-yl)methyle)-4-phenyle-4 Н -1,2,4-triazole-3-il)thio)acetate acid . In a round, heat-resistant flack heated 0,01 mol of 7-((5-mercapto-4-phenyl-4 H -1 ,2,4-triazoles-3-yl) methyl)theophylline, 0,02 mol NaOH and 0,01 mol monochloracetate acid. Heated up to boiling for 1 h. Cooled. Neutralized by acetic acid. Output - 71%. Tm. = 227-230 o C. Salts of 2-(5-((theophylline-7'-il)methyle)-4-phenyle-4 Н -1,2,4-triazole-3-il-ti о )acetate acid . A compound: 0.01 mole of acetic acid, 35 ml of ethanol and 0.01 mol of corresponding base (monoethanolammonium, dyethylammonium, dyetanolammonium, monoetanolammonium, threebutylammonium, morpholine, piperidine, piperazine) heated for 1 hour in a water bath, the solvent is evaporated. Getting white crystalline substances soluble in water, soluble in diethyl ether and chloroform. For analysis compounds recrystallized from ethanol. Potassium, sodium salts of 2-(5-((theophylline-7'-il)methyle)-4-phenyle -4 Н -1,2,4-triazole -3-iltio)acetate acid. A compound - 0.01 mole of acetic acid and 0.01 mole of potassium or sodium hydroxide in 30 ml of water evaporated in a water bath. The dry residuum crystallized from ethanol. Getting white crystalline substances, difficulty soluble in organic solvents. For analysis compounds recrystallized from water. Magnesium , calcium, zinc , copper (II) and iron (II ) salts of 2-(5-((teophylline-7'-yl)methyle)-4-phenyle-4 Н -1,2,4-triazole-3-iltio)acetate acid . A compound of 0.02 mole acetic acid, 25 ml of water and accordingly 0.01 mol of magnesium oxide , calcium carbonate , zinc sulfate, copper ( II) sulfate or iron ( II) chloride is heated till the dissolution of precipitate , filtered , the filtrate evaporated. Received white, light blue , brown crystals with sharp melting points, little soluble in water, hardly soluble in organic solvents. For the analysis, compounds recrystallized from water. Ammonium salt of 2-(5-((teophylline-7'-yl)methyle)-4-phenyle-4 Н -1,2,4-triazole-3-iltio)acetate acid. A solution of 0.01 mole acetic acid in 30 ml of 25% ammonia solution evaporated. Received a white crystalline solid, easily soluble in water, difficult soluble in ethanol. For the analysis compound recrystallized from the compound - dioxane: water (3:1). Results and their discussion. As starting material we used 7 - ((5-mercapto-4-phenyl-4H-1 ,2,4-triazoles-3-yl) methyl) theophylline, received from 2 - (2 - (theophylline) acetyl)-N phenylhydrazyncarbotioamide, which was obtained from the previously described hydrazide theophylline-7-acetic acid as a result of interaction with phenylizotiocyanate. By interaction of the resulting thiol with monochloracetate acid in an aqueous solution of double lye number received the corresponding carboxylic acid. Research has shown, that the reaction proceeds quantitatively In the 1 Н NMR - spectra of the resulting acid was observed number of signals. In a strong part of magnetic field available the protons of -СН 2 -groups, which resonate as singlets at 3.90 m.p and 5.75 m.p The signals of СН 3 groups protons also appears as intense singlet in the 3.30 - 3.36 m.p region. Proton of the methyne group is characterized by a signal at 8.36 m.p. Signals of the phenyl radical protons in 1 Н NMR- spectra form two one - proton doublets (at 7.70 m.p. and at 7.48 m.p. ) and three one – proton triplets (at 6.83 - 7.17 m.p. ) . Broadening proton signal of aromatic COOH groups fixed at 12.0 m.p. IR- spectra of the received acid characterized by deformation and valence fluctuations of synthesized compounds basic fragments: plane deformation of C-H fluctuations in 1225 - 950 cm -1 area ( weak intensity band 1175-1125 сm -1 , 1110-1070 сm -1 , 1070-1000 1 сm -1 ), out – plane deformation of C-H fluctuations in the 1000-650 сm -1 area ( strong intensity band 770 - 730 сm -1 , , 710 - 690 сm -1 ). Available bands of the carboxyl group valence fluctuations - 1760 сm -1 . C = N in a 1660-1480 сm -1 cycle . Theophylline fragment: 3060 - 3010(ν с - н ), 1000 - 960 сm -1 (C- H deformation fluctuations), 875 - 775 сm -1 (C- H deformation fluctuations) , 1580 - 1520 сm -1 ( ring fluctation) . Also, available bands of NH- groups fluctuations within 1650 - 1620 сm -1 (ν as ) and 1345 - 1310 сm -1 (ν s ). Conclusions Installed the optimal conditions of salts reception