Органическая химия
RESEARCH OF 2-THIOURACIL DERIVATIVES BY X-RAY METHOD
T. V. Frolova, South Ural State University, Chelyabinsk, Russian Federation, chemitash@gmail. com
D.G. Kim, South Ural State University, Chelyabinsk, Russian Federation, [email protected] V. V. Sharutin, South Ural State University, Chelyabinsk, Russian Federation, vvsharutin@rambler. ru
K. Yu. Osheko, South Ural State University, Chelyabinsk, Russian Federation, osheko_kseniya@mail. ru
2-Propargylthio-6-methyl-5-ethyl-4(3H)-pyrimidinone has been synthesized by alkylation of S-sodium salt of 6-methyl-5-ethyl-2-thiouracil with propargyl bromide. It has been found by X-ray method that S-derivatives of 2-thiouracil are in the tautomeric form with the proton at the nitrogen atom N3. The substitute at the sulfur atom is within the plane of pyrimidine ring at the angle 59-84°. The 2-alkylthio-4(3H)-pyrimidinones molecules are combined in dimers with formation of two intermolecular hydrogen bonds.
Keywords: 2-prenylthio-6-trifluoromethyl-4(3H)-pyrimidinone, cis-2-(3-chloroallyl)thio-6-trifluoromethyl-4(3H)-pyrimidinone, 2-allylthio-6-methyl-4(3H)-pyrimidinone, 2-propargylthio-6-methyl-5-ethyl-4(3H)-pyrimidinone, alkylation, propargyl bromide, tauto-merism, molecular structure, X-ray analysis.
Introduction
It is known that alkylation of 6-methyl-2-thiouracil and 6-trifluoromethyl-2-thiouracil occurs at the sulfur atom [1]. At the same time information about alkylation of 6-methyl-5-ethyl-2-thiouracil by propargyl bromide has not been discussed in literature. The aim of the present study is the synthesis of 2-propargylthio-6-methyl-5-ethyl-4(3H)-pyrimidinone and the investigation of its structure and other 2-thiouracil S-derivatives by X-ray analysis.
Experimental
Synthesis of 2-propargylthio-6-methyl-5-ethyl-4(3#)-pyrimidinone (1)
Propargyl bromide (0.9 mL, 0.001 mol) and NaOH (0.04 g, 0.001 mol) were added to the S-sodium salt of 6-methyl-5-ethyl-2-thiouracil solution (0.912 g, 0.001 mol) in 20 mL of water. The reaction mixture was stirred with a magnetic stirrer for 2 h. Mixture was neutralized by the addition of acetic acid, the obtained precipitate was filtered off, washed with water, dried and recrystallized from hexane. The product yield: 0.154 g (55%), Tm=162°C, Rf=0.55(ethyl acetate:hexane 1:3). Crystals for X-ray analysis were obtained from the isooctane-acetone (3:1) solution.
Compounds 2-4 were obtained by the interaction between S-sodium salt of 6-methyl- and 6-trifluoromethyl-2-thiouracil with allyl bromide, prenyl chloride and 1,3-dichloropropene by the method [2].
The X-ray analysis of the crystals of compounds 1-4 was performed on the automatic four-circle Bruker D8 Quest diffractometer (Mo Ka-radiation, X = 0.71073 A, graphite monochromator).
The data collection and editing, as well as the refinement of unit cell parameters and the absorption accounting were carried out using SMART and SAINT Plus program packages [3]. All calculations for the structure determination and refinement were carried out using the SHELXTL/PC [4] program packages. The structures of compounds 1-4 were determined by the direct method and refined by least-squares method calculations in anisotropic approximation for non-hydrogen atoms. Selected crystallographic data and structure refinement results are given in Table 1.
The full tables of atomic coordinates, bond lengths, and bond angles were deposited with the Cambridge Crystallographic Data Centre (№ 998573, 1061098, 1061104, 1028131; [email protected]; http://www.ccdc.cam.ac.uk).
Table 1
Crystallographic data and the experimental and structure refinement parameters for compounds 1-4
Parameter Value
1 2 3 4
Empirical formula C10H12N2OS C8 H^OSH^ C10H11N2SF3O C8H6N2OSOT3
Formula weight 208.28 182.24 264.27 270.66
T, K 273.15 273.15 295.0(2) 295.0(2)
Crystal system Monoclinic Triclinic Monoclinic Monoclinic
Space group P2i/c P-1 P2j/n P2j/n
a, A 9.8551(18) 4.6742(2) 12.675(17) 12.080(11)
b, A 21.875(3) 9.5013(4) 7.156(9) 7.43(2)
c, A 4.8936(8) 11.4968(5) 13.644(17) 12.650(16)
a, deg 90.00 113.905(2) 90.00 90.00
P, deg 93.569(4) 99.243(2) 95.10(6) 91.56(9)
Y, deg 90.00 92.850(2) 90.00 90.00
V, A3 1052.9(3) 456.98(3) 1233(3) 1134(4)
Z 4 2 4 4
p(calcd.), g/cm3 1.314 1.324 1.424 1.585
|i, mm1 0.276 0.307 0.286 0.540
F(000) 440.0 192.0 544.0 544.0
Crystal size, mm 0.24 x 0.09 x 0.025 0.53 x 0.25 x 0.13 0.61 x 0.2 x 0.12 0.6 x 0.27 x 0.25
8 Range of data collection, deg 6.96 to 52.78° 7.32 to 52.84° 4.6 to 57.04° 4.6 to 42.9°
Range of refraction indices -12 < h < 12, -27 < k < 27, -6 < l < 6 -5 < h < 5, -11 < k < 11, -14 < l < 14 -8 < h < 16, -9 < k < 9, -18 < l < 18 -12 < h < 12, -7 < k < 7, -9 < l < 13
Measured reflections 14398 10518 11916 3767
Independent reflections 2138 1868 3107 1248
Rint 0.1804 0.0233 0.0362 0.0328
GOOF 0.996 0.984 1.017 1.088
R factors for F2 > 2ct(F2) Rj = 0.0613, wR2 = 0.1025 Rj = 0.0347, wR2 = 0.1123 Rj = 0.0764, wR2 = 0.2049 Rj = 0.0726, wR2 = 0.2012
R factors for all reflections Rj = 0.1481, wR2 = 0.1283 Rj = 0.0458, wR2 = 0.1233 Rj = 0.1189, wR2 = 0.2376 Rj = 0.0987, wR2 = 0.2425
Residual electron density (min/max), e/A3 0.22/-0.21 0.21/-0.20 0.93/-0.24 0.72/-0.25
Results and Discussion
We are the first to find that alkylation of S-sodium salt of 6-methyl-5-ethyl-2-thiouracil by
propargyl bromide is carried out with the synthesis of 2-propargylthio-6-methyl-5-ethyl-4(3#)-pyrimidinone (1).
l
2-Allylthio-6-methyl-4(3#)-pyrimidinone (2), 2-prenylthio-6-trifluoromethyl-4(3#)-pyrimidinone (3) and cis-2-(3-chloroallyl)thio-6-trifluoromethyl-4(3^)-pyrimidinone (4) are synthesized by the method [2]. Note that alkylation of 6-trifluoromethyl-2-thiouracil by 1,3-dichloropropene is carried out
with the formation of mixture of cis- and trans--isomers. The monocrystal of cis--isomer has been isolated mechanically after recrystallization from hexane.
Fo,C
Fo,C
It has been found by X-ray method that derivatives at the sulfur atom in sulfides 1-4 (Fig. 1-4) are almost in the perpendicular plane to pyrimidine ring at the angle 72-84°. Exception is chloroallylsulfide 4, in which the chloroallyl fragment is at the angle that equals 59° for pyrimidine ring.
Fig. 1. The structure of compound 1
Fig. 2. The structure of compound 2
Fig. 3. The structure of compound 3
Fig. 4. The structure of compound 4
Sulfides 1-4 have standard geometry. Particularly there is noticeable asymmetry of the C-S bond lengths, which is the result of heterocycle effect (C(2)-S(1)= 1.727-1.759 A, C(7)-S(1)= 1.802-1.822 A). The bond lengths of heterocycles in all analyzed compounds are in the range 1.299-1.384 A. Exception is the bond length C(5)-C(4) 1.420-1.442 A. It is the result of the influence of the electron acceptor oxygen atom at C(4).
Three tautomeric forms for sulfides 1-4 can be presented:
О
"NH
Rl
R2 N' "S'
A
Rl
,R3 J\ /R3'
R N S H
В
R2'
он
.R3
Table 2
Selected bond lengths in the structures of compounds 1-4
Bond length, Â Compound
1 2 3 4
С4-О1 1.242(3) 1.238(2) 1.224(4) 1.229(8)
C2-S1 1.750(3) 1.759(2) 1.741(4) 1.759(7)
C7-S1 1.811(3) 1.807(2) 1.822(5) 1.818(9)
C2-N3 1.353(4) 1.353(2) 1.353(4) 1.347(9)
C6-N1 1.380(4) 1.379(2) 1.364(4) 1.379(9)
C4-N3 1.377(4) 1.381(2) 1.384(4) 1.397(8)
C2-N1 1.292(4) 1.300(2) 1.295(4) 1.313(9)
С5-С6 1.357(4) 1.358(2) 1.347(5) 1.356(10)
С4-С5 1.441(4) 1.421(2) 1.420(5) 1.442(10)
The C-0 bond length of sulfides 1-4 corresponds to the carbonyl group (1.224-1.242 A) which is absent in tautomeric form C. The C(2)-N(1) bond length in compounds 1-4 is 1.299-1.313 A. It is the result of double bond C=N formation in sulfides, which opposes structure B. Thus, compounds 1-4 are in tautomeric form A. It corresponds to the various quantum-chemical calculations and analysis of vibrational spectra in the works [5, 6].
The molecules of sulfides 1-4 are combined in dimers due to formation of hydrogen bonds, these dimers are oriented in the following way: the oxygen atom of the first molecule is bonded with the NH group of the second molecule, and the NH group of the first molecule is bonded with the oxygen atom of the second molecule (Fig. 5). The length of hydrogen bonds in compounds 2 and 4 is 1.889 and 1.896 A. This length in compounds 1 and 3 is equal to 1.921 and 1.923 A. The dimers are almost in the same plane, and the deviation is not more than 1-2°. The dimers of sulfides 1-4 are packed in parallel planes due to short contacts (Fig. 6).
Fig. 5. The structure of compound 2 dimer
Fig. 6. The packing of molecules in crystal 4
The oxygen of one molecule and the proton of the prenyl fragment methyl group of another molecule form this contact in prenyl sulfide 3 (Fig. 7). The oxygen of one molecule and the proton at the P-carbon atom in the allyl fragment of another molecule form this contact in chloroallyl sulfide 4 (Fig. 8).
Fig. 7. The packing of molecules in crystal 3 Fig. 8. The packing of molecules in crystal 4
Dimers in propargyl sulfide 1 and allyl sulfide 2 are packed through short contacts between carbonyl carbon atoms 0=C ... C=0. These lengths are 3.309 and 3.398 A, respectively (Fig. 9, 10).
Fig. 9. The short contact in compound 1 Fig. 10. The short contact in compound 2
In contrast to sulfides 3 and 4, compounds 1 and 2 have short contacts between sulfur atoms, 3.321 and 3.409 A, respectively (Fig. 11). It makes the packing of dimers by stacks possible (Fig. 12).
Fig. 11. The short contact in compound 1
Fig. 12. The packing of molecules in crystal compound 2
In spite of the differences, the packing of compounds 2-4 is similar; it is presented on figures 13 and 14. Only in the case of allyl sulfide 1 the packing has two perpendicular directions (Fig. 13), while there is only one direction in compounds 3 and 4 (Fig. 14).
Fig. 13. The packing of molecules in crystal 2 Fig. 14. The packing of molecules in crystal 3
In contrast with crystals 2-4, the stack packing of dimers in the crystal of propargyl sulfide 1 is in perpendicular plane (Fig. 15).
Fig. 15. The packing of molecules in crystal 1
Conclusion
We have found that S-sodium salt of 6-methyl-5-ethyl-2-thiouracil reacts with propargyl bromide to produce 2-propargylthio-6-methyl-5-ethyl-4(3#)-pyrimidinone. By X-ray method it has been found that S-derivatives of 2-thiouracil are in the tautomeric form with the proton at the nitrogen atom N3. The substitute group at the sulfur atom is placed at the angle 59-84° with the plane of pyrimidine ring. The 2-alkylthio-4(3#)-pyrimidinone molecules are combined in dimers with formation of two intermolecular hydrogen bonds.
References
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2. Frolova T.V., Kim D.G., Slepukhin P.A. [The Synthesis and Analysis of S-allyl-2-thiouracile Derivatives]. Bulletin of South Ural State University. Ser. Chemistry, 2010, no. 11, iss. 3, pp. 9-15. (in Russ.)
3. Bruker (2000) SMART. Bruker Molecular Analysis Research Tool, Versions 5.625 Bruker AXS, Madison, Wisconsin, USA.
4. Bruker (2000) SAINTPlus Data Reduction and Correction Program Versions 6.02a, Bruker AXS, Madison, Wisconsin, USA.
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Received 10 May 2015
УДК 547.854.83+548.312.5
ИССЛЕДОВАНИЕ МЕТОДОМ РЕНТГЕНОСТРУКТУРНОГО АНАЛИЗА ПРОИЗВОДНЫХ 2-ТИОУРАЦИЛА
Т.В. Фролова, Д.Г. Ким, В.В. Шарутин, К.Ю. Ошеко
Южно-Уральский государственный университет, г. Челябинск
Алкилированием S-натриевой соли 6-метил-5-этил-2-тиоурацила бромистым пропаргилом синтезирован 2-пропаргилтио-6-метил-5 -этил-4(3Н)-пиримидинон. Методом рентгеноструктурного анализа установлено, что S-производные 2-тиоурацилов находятся в таутомерной форме с протоном у атома азота а заместитель при атоме серы находится под углом 59-84° к плоскости пиримидинового кольца. Молекулы 2-алкилтио-4(3Н)-пиримидинонов объединены в димеры, в которых образуются две межмолекулярные водородные связи.
Ключевые слова: 2-пренилтио-6-трифторметил-4(3Н)-пиримидинон, цис-2-(3-хлораллил)тио-6-трифторметил-4(3Н)-пиримидинон, 2-аллилтио-6-метил-4(3Н)-пиримидинон, 2-пропаргилтио-6-метил-5-этил-4(3Н)-пиримидинон. алкилирование, пропаргилбромид, таутомерия, молекулярные структуры, рентгеноструктурный анализ.
Литература
1. Сливка, Н.Ю. Галогенциклизация замещенных 2-(алкенилтио)-пиримидин-6-онов / Н.Ю. Сливка, Ю.И. Геваза, В.И. Станинец // Химия гетероциклических соединений. - 2004. -№ 5.- С. 776-783.
2. Фролова, Т.В. Синтез и исследование S-аллильных производных 2-тиоурацилов / Т.В. Фролова, Д.Г. Ким, П.А. Слепухин // Вестник ЮУрГУ. Серия «Химия». - 2010. - Вып. 3. -№. 11. - С. 9-15.
3. Bruker (2000) SMART. Bruker Molecular Analysis Research Tool, Versions 5.625 Bruker AXS, Madison, Wisconsin, USA.
4. Bruker (2000) SAINTPlus Data Reduction and Correction Program Versions 6.02a, Bruker AXS, Madison, Wisconsin, USA.
5. Тен, Г.Н. Определение таутомерных структур тиозамещенных урацила методом ИК и РКР спектроскопии / Г.Н. Тен, Т.Г. Бурова, В.И. Баранов // Журнал структурной химии. - 2007. -Т. 48. - № 3. - С. 492-500.
6. Расчет и анализ структуры и колебательных спектров таутомера урацила / Г.Н. Тен,
B.В. Нечаев, Р.С. Щербаков, В.И. Баранов // Журнал структурной химии. - 2010. - Т. 51. - № 1. -
C. 38-45.
Фролова Татьяна Владимировна - старший преподаватель, кафедра органической химии, Южно-Уральский государственный университет. 454080, г. Челябинск, пр. им. В.И. Ленина, 76. E-mail: [email protected]
Ким Дмитрий Гымнанович - доктор химических наук, профессор, кафедра органической химии, Южно-Уральский государственный университет. 454080, г. Челябинск, пр. им. В.И. Ленина, 76. E-mail: [email protected]
Шарутин Владимир Викторович - доктор химических наук, профессор, химическмй факультет, Южно-Уральский государственный университет. 454080, г. Челябинск, пр. им. В.И. Ленина, 76. E-mail: [email protected]
Ошеко Ксения Юрьевна - студентка химического факультета, Южно-Уральский государственный университет. 454080, г. Челябинск, пр. им. В.И. Ленина, 76. E-mail: [email protected]
Поступила в редакцию 10 мая 2015 г
ОБРАЗЕЦ ЦИТИРОВАНИЯ
Study on reaction of 2-allylthiobenzimidazole with bromine / T.V. Frolova, D.G. Kim, V.V. Sharutin, K.Yu. Osheko // Вестник ЮУрГУ. Серия «Химия». - 2015. -Т. 7, № 3. - С. 11-18.
FOR CITATION
Frolova T.V., Kim D.G., Sharutin V.V., Osheko K.Yu. Study on Reaction of 2-allylthiobenzimidazole with Bromine. Bulletin of the South Ural State University. Ser. Chemistry. 2015, vol. 7, no. 3, pp. 11-18.