Научная статья на тему 'REACTION OF 6-AMINOQUINAZOLIN-4-ONE WITH AROMATIC ALDEHYDES'

REACTION OF 6-AMINOQUINAZOLIN-4-ONE WITH AROMATIC ALDEHYDES Текст научной статьи по специальности «Химические науки»

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Ключевые слова
quinazolin-4-one / heterocyclic compound / aromatic aldehydes / electrondonor / electronacseptor / recrystallization / acti-vated carbon / chromatography / IR-spectroscopy / NMR-spectroscopy / хиназолин-4-он / гетероциклическое соединение / ароматические альдегиды / электронодонор / электроноакцептор / перекристаллизация / активированный уголь / хроматография / ИК-спектроскопия / ЯМР-спектроскопия

Аннотация научной статьи по химическим наукам, автор научной работы — Ziyadullaev Mirjalol, Adilboev Samariddin, Sobirova Fotima, Khaitova Shakhnoza

In this research work, the reactions of the bicyclic compound 6-aminoquinazolin-4-one with aromatic aldehydes containing the functional groups –NO2, –OH, –N(CH3)2, –OCH3 were studied. Factors influencing the reaction process and product yield are identified, and optimal conditions are presented. The structure of the synthesized compounds was proven using modern physical research methods.

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РЕАКЦИЯ 6-АМИНОХИНАЗОЛИН-4-ОНА С АРОМАТИЧЕСКИМ АЛЬДЕГИДАМИ

В данной исследователской работе изучены реакции бициклического соединения 6-аминохиназолин-4-она с ароматическими альдегидами, содержащими функциональные группы –NO2, –OH, –N(CH3)2, –OCH3. Выявлены факторы, влияющие на процесс реакции и выход продукта, и представлены оптимальные условия. Структура синтезированных соединений доказана с использованием современных физических методов исследования.

Текст научной работы на тему «REACTION OF 6-AMINOQUINAZOLIN-4-ONE WITH AROMATIC ALDEHYDES»

ЛД UNIVERSUM:

№2(116)_ДД химия и биология_февраль. 2024 г.

ORGANIC CHEMISTRY

DOI - 10.32 743/UniChem.2024.116.2.16676 REACTION OF 6-AMINOQUINAZOLIN-4-ONE WITH AROMATIC ALDEHYDES

Mirjalol Ziyadullaev

PhD in Chemistry., 1Chirchik State Pedagogical University, Republic of Uzbekistan, Chirchik "Alfraganus university", Republic of Uzbekistan, Tashkent E-mail: ziyadullayev.91@mail.ru

Samariddin Adilboev

Chirchik State Pedagogical University Graduate student of the Department of Chemistry Republic of Uzbekistan, Chirchik E-mail: ziyadullayev.91@mail.ru

Fotima Sobirova

PhD in Chemistry., "Alfraganus university" Republic of Uzbekistan, Tashkent E-mail: sobirova_89@bk. ru

Shakhnoza Khaitova

Student

of Chirchik State Pedagogical University Republic of Uzbekistan, Tashkent E-mail: ziyadullayev.91@mail.ru

РЕАКЦИЯ 6-АМИНОХИНАЗОЛИН-4-ОНА С АРОМАТИЧЕСКИМ АЛЬДЕГИДАМИ

Зиядуллаев Миржалол Эгамберди угли

канд. хим. наук,

Чирчиксий государственный педагогический университет, Республика Узбекистан, г. Чирчик "Alfraganus university" Республика Узбекистан, г. Ташкент

Адилбоев Самариддин Холмумин угли

магистрант кафедры химии Чирчикский государственный педагогический университет,

Республика Узбекистан, г. Чирчик

Собирова Фотима Азамжон цизи

канд. хим. наук, "Alfraganus university" Республика Узбекистан, г. Ташкент

Хаитова Шахноза Каримжaновна

студент,

Чирчикского государственного педагогического университета

Республика Узбекистан, г. Чирчик

Библиографическое описание: REACTION OF 6-AMINOQUINAZOLIN-4-ONE WITH AROMATIC ALDEHYDES // Universum: химия и биология : электрон. научн. журн. Ziyadullaev M. [и др.]. 2024. 2(116). URL:

https://7universum. com/ru/nature/archive/item/16676

Л • 7universum.com

ЛД UNIVERSUM:

№2(116)_химия и биология_февраль. 2024 г.

ABSTRACT

In this research work, the reactions of the bicyclic compound 6-aminoquinazolin-4-one with aromatic aldehydes containing the functional groups -NO2, -OH, -N(CH3)2, -OCH3 were studied. Factors influencing the reaction process and product yield are identified, and optimal conditions are presented. The structure of the synthesized compounds was proven using modern physical research methods.

АННОТАЦИЯ

В данной исследователской работе изучены реакции бициклического соединения 6-аминохиназолин-4-она с ароматическими альдегидами, содержащими функциональные группы -NO2, -OH, -N(CH3)2, -OCH3. Выявлены факторы, влияющие на процесс реакции и выход продукта, и представлены оптимальные условия. Структура синтезированных соединений доказана с использованием современных физических методов исследования.

Keywords: quinazolin-4-one, heterocyclic compound, aromatic aldehydes, electrondonor, electronacseptor, recrystallization, activated carbon, chromatography, IR-spectroscopy, NMR-spectroscopy.

Ключевые слова: хиназолин-4-он, гетероциклическое соединение, ароматические альдегиды, электроно-донор, электроноакцептор, перекристаллизация, активированный уголь, хроматография, ИК-спектроскопия, ЯМР-спектроскопия.

Introduction. Natural and synthetic heterocyclic compounds containing the benzopyrimidine family are widespread in the world and are part of many drugs used in agriculture, animal husbandry and medicine [1; 29-38 pp., 2; 64-67 pp., 3; 380-384., 4; 989-994 pp., 5; 24402445 pp., 6; 51-55 pp.]. These compounds include synthetic quinazolin-4-ones, their analogs and derivatives. For example, one can see that synthetic quinazoline derivatives used in medicine have high psychotropic (methaqualone), diuretic (kinetasone), cardiovascular (prazosin) and antiviral (quinazoline analogues of efavirenz) activity [7; 18-27 pp., 8; 1-15 pp., 9; 60426054 pp., 10; 411-422 pp.]. In addition, the authors note that the compound 2-methoxycarbonylaminoquinazolin-4-one, synthesized on the basis of quinazolin-4-one, is a highly effective agent in the complex fight against cotton gommosis and root rot diseases in agriculture [11; 5671 pp.]. Therefore, as a result of scientific research carried out in the field of organic chemistry, among heterocyclic compounds containing nitrogenous and benzene groups in their molecules, the number of various biologically active drugs is increasing.

In this article, the quinazolin-4-one compound selected as the starting material was synthesized using the Nimentovsky method, then the quinazolin-4-one compound was treated with a nitration mixture (concentrated H2SO4 acid (p=1.835 g/cm3), HNO3 (p =1.65 g/cm3 )) was nitrated and the 6 -nitroquinazolin-4-one compound synthesized accordingly was returned in the presence of SnCl2^H2O, and the synthesis of 6-aminoquinazolin-4-one is detailed in the literature sources [2; 64-67 pp., 3; 380-384 pp.]. In this research, the reactions of the bicyclic 6-aminoquinazolin-4-one compound with aromatic aldehydes were studied.

Methods and materials

IR-spectra of the synthesized compounds were recorded on Perkin-Elmer IQ-Fure Cistema 2000 spectrometer on KBr tablets, NMR 1H, 13C spectra on Unity-400+ with an operating frequency of 400 MHz and Jeol-600 with an operating frequency of 600 MHz (internal standard GMDS, 5-scale) were obtained in deuterylated DMSO-fi« + CCl4, CD3COOD solns. The purity of the product was determined by the method of thin-layer

chromatography 'Sorbfil' (Russia), the melting point of the synthesized compounds was determined by the equipment 'BOETIUS' (Germany) and 'MEL-TEMP' (USA).

Experimental part

Synthesis of 6-[(4-Nitrobenzylidene)amino]N-3(H)-quinazolin-4-one.

The reaction was carried out in a single-mouth, round-bottomed, temperature-resistant flask equipped with a reflux condenser. First, 0.161 g (1 mmol) of 6-aminoquinazolin-4-one and 0.151 g (1 mmol) of p-nitrobenzaldehyde were dissolved in 5 ml of ethyl alcohol (p=0.7893 g/cm3), and both solutions were was placed in a pre-prepared one-necked flask and heated at 40-45 oC for 2 hours. The reaction mixture was left at a temperature of 25-27 oC for 10 hours. The precipitate was filtered and washed with water, dried in a drying oven. The obtained technical product was recrystallized in dimethylformamide. Product formation during the reaction was monitored by thin-layer chromatography. System - chloroform:methanol:benzene 5:3:1.

Synthesis of 6-((4-hydroxybenzyli-dene)amino)quinazolin-4(3H)-one, 6-((4-(dimethyl amino)-benzylidene)amino)quinazolin-4(3H)-one, 6-((4-(methoxy benzylidene)amino)-quinazolin-4-(3H)-ones.

The reaction was carried out in the above-mentioned analogous method in the presence of ethanol for 2 hours in the ratio of substances 1:1, the synthesized compounds were synthesized in yields of 37-42-46%, respectively, and the reaction mixture was processed in the laboratory. The system is acetone: benzene 3:2.

Results and discussion

The reaction of 6-aminoquinazolin-4-one with p-nitrobenzaldehyde is due to the breaking of the carbon-oxygen bond in p-nitrobenzaldehyde. In this case, the electron cloud (density) in the carbonyl group of p-nitrobenzaldehyde is shifted towards the oxygen atom, that is, the density of positive charges on the carbon atom increases, and the density of negative charges on oxygen increases, and it remains electronegatively charged with respect to carbon, and the carbonyl group

№ 2 (116)

is polarized. As a result, the carbon atom of the carbonyl group has an electrophilic property and combines with nucleophilic reagents. Therefore, during p-nitrobenzaldehyde joining reaction, nucleophilic

N02

When the structure of the synthesized 6-[(4-nitrobenzylidene)amino]N-3(H)-quinazolin-4-one was analyzed by the IR spectrum, the C=O group in the fourth position has a valence vibration of 1697 cm-1, the third it was observed that valence vibrations of the NH group in the 3438 cm-1 region, the C=N group in the

февраль, 2024 г.

addition of positively charged carbon atom to negatively charged nitrogen atom of 6-aminoquinazolin-4-one occurs. The proposed reaction equation mechanism is as follows:

О

VNH

1618 cm-1 region, the C-C group in the 1519 cm-1 region, the C-N group in the 1279 cm-1 region, and the C-H group in the 2918 cm-1 region. During the research, 1H, 13C NMR spectra of 6-[(4-nitrobenzylidene)-amino] N-3(H)-quinazolin-4-one were obtained.

N

-H,0

H H I

—N.

> no2

Figure 1. Synthesis reaction of 6-[(4-nitrobenzylidene)amino]N-3(H)-quinazolin-4-one

Figure 2. 6-[(4-Nitrobenzylidene)amino]N-3(H)-quinazolin-4-one 1H NMR spectrum

In the weak field of the 1H NMR spectrum, the value of the H-2 proton of aromatic protons is 7.96 ppm in the field, chemical shift appears in the form of a one-proton doublet (J=2.42 Hz), the value of the H-5 proton is 8.92 ppm is observed in the field as a one-proton singlet, and the value of the H-7 proton is 7.75 ppm in the field in the form of one-proton doublet-doublet (JM=2.45, Jo=8.6 Hz), and H-8 is 7.69 ppm in the form of a one-proton doublet (J=8.55 Hz), the H-10 proton value is 7.96 ppm appears in the form of a singlet, according to which the proton of the olefin (CH=N) of the azomethine bond is shifted to a weaker area at 12.18 ppm was observed in the form of a one-proton singlet, aromatic protons belonging to

p-NO2-benzylidene due to spin-spin interaction, H-2',6' protons in the form of a two-proton triplet-triplet (J=8.86 Hz) at 8.25 ppm., H-3' and the fact that, 5' protons appeared as a two-proton triplet-triplet (J=8.79 Hz) at 8.35 ppm under the influence of the NO2-group is 6-[(4-nitrobenzylidene)amino]N-3(H)-quinazolin-4-one fully confirms that. The signals belonging to the 13C NMR spectrum of this substance are the following ppm appeared in the fields.

13C NMR: (DMSO-d6 + CCI4): 5, ppm J/Hz) 600. In this case, C-1' in the composition is 128.1 ppm in the field, 116.6 ppm in area C-2, 144.3 ppm in area C-3', 5', 141.2 ppm in the field C-2', 6', 148.3 ppm in area C-4a,

№ 2 (116)

февраль, 2024 г.

158.9 ppm in area C-4, 160.4 ppm in the area C-4', 128.2 ppm in area C-5, 129.5 ppm in the field C-6, 123.4 ppm in the field C-7, 123.3 ppm C-8 in the field, and C-8a 147.6 ppm it was determined to be manifested in the fields.

During the research, the synthesis of 6-((4-hy-droxybenzylidene) amino) quinazolin-4(3H)-one, 6-((4-(dimethyl amino) benzylidene) amino) quinazolin-4(3H)-one, 6-((4-(methoxy benzylidene) amino) quinazolin-4-(3H)-ones was carried out similarly to the synthesis of 6-[(4-nitrobenzylidene) amino] N-3(H)-quinazolin-4-one. In this case, 6-aminoquinazolin-4-one

reacts with aromatic aldehydes containing an electron-donating group (-OH, -N(CH3)2, -OCH3) in two different solvents, ethyl alcohol and pyridine, which have different polarities, the amount of substances is also in different proportions, and the temperature was in the range from 40°C to 110°C. The result is 6-((4-hydroxybenzylidene) amino) quinazolin-4(3H)-one, 6-((4-(dimethyl amino)-benzylidene) amino) quinazolin-4(3H)-one, similar to 6-((4-(methoxy benzylidene) amino)-quinazolin-4-(3H)-one compounds were synthesized in yields of 3742-46 %, respectively. The reaction equation was proposed as follows:

H,N

l)C2H5OH 3NH 2)C5H5N

N

40-110°C

18-20

R=(OH, N(CH3)2; OCH3)

Figure 3. Reaction of 6-aminoquinazolin-4-one with aromatic aldehydes

It can be seen from the given reaction that aromatic, heterocyclic compounds containing an amino group react with various aldehydes to form the corresponding

benzylidene compounds. Some physicochemical properties of the synthesized compounds are listed in table 1.

Table 1.

Physicochemical quantities of synthesized compounds

№ Gross formula Rf value Liquefaction temperature (oC) Yield %

C2H5OH C5H5N

1 C15H11N4O3 0.48 235-236 78.2 63.2

2 C14H11N3O2 0.37 192-193 37 29

3 C17H17N4O 0.44 201-202 42 35

4 C16H13N3O2 0.41 229-230 46 33.4

Conclusion. In conclusion, it can be said that when the reaction of 6-aminoquinazolin-4-one with aromatic aldehydes was carried out in ethanol and pyridine solvents of different polarity at a temperature of 40-45 oC, it was found that the product yield was higher in ethanol

than in pyridine. The physicochemical constants of these newly synthesized compounds and their structure have been proven using modern physicochemical research methods.

References:

1. И.С. Ортиков, Ж.Э. Турдибаев, Ж.И. Исламова, Б.Ж. Элмурадов, А.Ш. Абдуразаков, А.М. Бектемиров, С.О. Осипова, З.А. Хушбактова, В.Н. Сыров, Х.М. Шахидоятов. Поиск бактерицидов в ряду производных дезоксивазицинона, макиназолинона и тиенопиримидинонов. Химико-фармацевтический журнал, 2017, том 71, № 6 С. 29-38.

2. М.Э. Зиядуллаев., Р.К. Каримов., С.С. Саидов., Г.В. Зухурова., А.Ш. Абдуразаков. Оптимизация процесса получения субстанции 3,4-дигидрохиназолин-4-она. Фармацевтика журнали, №4, 2018. 64-67 б.

3. M.E. Ziyadullaev, R.K. Karimov, A.Sh. Abdurazakhov, A.B. Parmanov, S. Sasmakov, J.M. Abdurakhmanov, F. Eshboev, Sh.S. Azimova. Synthesis of 6-substituted 3(H)-quinazolin-4-ones and their antimicrobial activity. Pharmaceutical Chemistry Journal, Vol. 57, No. 3, June, 2023. pp. 380-384. https://doi.org/10.1007/s11094-023-02892-3

4. K. Turgunov, M. Ziyadullaev, F. Khoshimov, R. Karimov and B. Elmuradov. Crystal structures of 6-nitroquinazolin-4(3H)-one, 6-aminoquinazolin-4(3H)-one and 4-aminoquinazoline hemihydrochloride dihydrate. Acta Cryst. (2021). E77, pp.989-993. https://doi.org/10.1107/S2056989021008823

5. Aisha Youssif Hassan Helali, Marwa Taha Mostafa Sarg, Makarem Mohamed Said Koraa, Mona Said Fathy El-Zoghbi. Utility of 2-Methyl-quinazolin-4(3H)-one in the Synthesis of Heterocyclic Compounds with Anticancer Activity. Open Journal of Medicinal Chemistry, 2014, Vol. 4. pp. 12-37. Published Online March 2014 in SciRes. http://www.scirp.org/journal/ojmc. doi.org/10.4236/ojmc.2014.41002.

№ 2 (116)

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6. М.Э. Зиядуллаев., Р.К. Каримов., Р.П. Закирова., А.Ш. Абдуразаков. Синтез 3Н-хиназолин-4-она и его биологическая активность // Евразийский Союз Ученых (ЕСУ), 2019. №11(68), 2 часть. -С. 51-55.

7. Abdel-Monem. M. F. Eissa, Kouser. A. Hebash, Mohamed Abo Riya and Sherif. I. M. Ramadan. Synthesis and Reactivity of 6-Iodo-4H-3,1-Benzoxazin-4-one Towards Nitrogen Nucleophiles and Their Antimicrobial Activities. Chemical and Process Engineering Research www.iiste.org. ISSN 2224-7467 (Paper) ISSN 2225-0913 (Online). Vol. 15. 2013. pp. 18-27.

8. Dan Wang., Feng Gao. Quinazoline derivatives: synthesis and bioactivities. Chemistry Central Journal 2013, 7:95. pp. 1-15. http://journal.chemistrycentral.com/content/7/1/95.

9. Lawaniya, Y.K., & Goyal, P.K. (2022). Synthesis of Novel Quinazolin-4-one hybrids as potential antimicrobial agents. International Journal of Health Sciences, 6(S2), pp. 6042-6054. https://doi.org/10.53730/ijhs.v6nS2.6573.

10. M.A. El-Hashash and S.A. Rizk. Sythesis of Some New Quinazolin-4-one Derivatives. Egypt. J. Chem. 54, No. 4, pp. 411-422 (2011).

11. Балтабаева М.Ж., Таджибаева М.Р., Каримов Р.К., Рахматов Э.О., Зиядуллаев М.Э. Изучение процесса нитрование 2-метоксикарбониламинохиназалин-4-он // Universum: Технические науки, 2020, 10(79). - С. 45-51. https ://7universum. com/ru/tech/archive/item/10764

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