Synthesis and characterization heterocyclic of compounds derived fromamino pyridine substituted

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Published: Feb 4, 2023
DOI: https://doi.org/10.25130/tjps.v21i2.974
Keywords:
characterization heterocyclic, fromamino pyridine substituted, FTIR

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Shaima Ibrahim Chyad Al-khazraji
Khalid M. Mohammed Al-janabi

Abstract

In this study, heterocyclic derivatives of imidazole, pyrimidine, benzodiazepine, indole and benzimidazole were synthesized. These new compounds were formed through the condensation reaction between 2-aminopyridinederivative with4-phenylphenacyl bromide, chloroacetic acid, malonic acid, phthalic acid, isatin and o-phenylenediamine respectively. All of these compounds synthesized produced of good yield percentage, The synthesized compounds structures were characterized by FTIR, 1H- and 13C-NMR spectroscopy

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How to Cite
Shaima Ibrahim Chyad Al-khazraji, & Khalid M. Mohammed Al-janabi. (2023). Synthesis and characterization heterocyclic of compounds derived fromamino pyridine substituted. Tikrit Journal of Pure Science, 21(2), 63–79. https://doi.org/10.25130/tjps.v21i2.974
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Vol. 21 No. 2 (2016)
Section
Articles
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References

1. M., Baltork, M. Moghadam, S. Tangestaninejad, V., Mirkhani, M. Zolfigol and. S. Hojati, 2008. ″Silica Sulfuric Acid Catalyzed Synthesis of Benzoxazole, Benzimidazoles and Oxazolo [4,5- b]

pyridines Under Heterogeneous and Solvent-Free Conditions″, J. Iran. Chem. Soc.” 5, pp.S65- S70.

2.F., Hadizadeh, H., Hosseinzadeh, V., Shariaty, M., Seifi and S., Kazemi, 2008. ″Synthesis and Antidepressant Activity of N-Substituted Imidazole-5-Carboxyamides in Forced Swimming Test Model″, Iranian Journal of Pharmaceutical Research 7(1), pp. 29-33.

3. A. Ashnagar, N., Naseri, and M., Amini, 2009. "Synthesis of 5,5-diphenyl-2,4- imidazolidinedione (Phenytoin)″, International Journal of ChemTech Research 1(1), pp. 47-52.

4. L. Thomas, "Heterocyclic Chemistry", 3rd Ed., 3, (2008).

5.F., Itoh, Y., Yoshioka, K., Yukishige, S., Yoshida, K., Ootsu and H., Akimoto, 2000. ″Nonglutamate Type Pyrrolo[2,3-d]pyrimidine Antifolate. III. Synthesis and Biological Properties of Nω-Masked Ornithine Analogs″, Chem. Pharm. Bull 48(9), pp. 1270-1280.

6.S., George, 2008. ″Synthesis and evaluation of the biological activities of some 3-{[5-(6- methyl-4-aryl-2- oxo - 1,2,3,4 – tetrahydropyrimidin – 5 - yl) -1,3,4 - oxadiazol-2-yl]imino} - 1,3 – dihydro - 2H-indol – 2 - one″, Acta Pharm. 58, pp. 119-129.

7. A., Dondoni; P., Merino, "Diastereoselective Homologation of D-(R)-Glyceraldehyde Acetonide using 2- (Trimethylsilyl)thiazole", Org. Synth. 72: 21; Coll. Vol. 9: 952, (1995).

8.D., Tan, R., Reiter, L., Manchester, M., Yan, M., El-Sawi, R., Sainz, J., Mayo, R., Kohen, M., Allerga and R., Hardeland, ″Chemical and physical properties and potential mechanisms: melatonin as a broad

spectrum antioxidant and free radical scavenger″, Curr. Top. Med. Chem. 2, pp. 181-197(2002).

9. A. R. Trivedi, A. B. Siddiqui and V. H. Shah, ARKOVIC, ii, 210-217, (2008).

10. D. Silva, S. Garden, and A. Pinto, J. Braz. Chem. Soc., 12(3), 237, 121(2001).

11. A. Varela –Fernandez, J.A. Varela, C. Saa, Synthesis of indoles, 44, 3285-3295 , (2012).

12. Y. Wei , I .Deb, N .Yoshikai , J. Am . Chem. Soc., 134 , 9098-9101, (2012).

13. B.V.S. Reddy, M .R. Reddy, Y. G. Rao, J.S. yadav , B .Srighar , Org. Lett., 15 , 464-467 , (2013).

14. S. Sridhar, N., Pandeya, S., Bajpal and H., Manjula, 1999. ″Synthesis and antibacterial and antiviral activities of isatin derivatives″, Indian Drugs 36, pp. 412-414.

15. N. Raman, J. D. Raja and A. Sakthivel, J. Chem. Sci., 19(4), 303-310, (2007).

16. M. M. Ismail, M. Abdel-Magid and M. M. Hassan, Chem. Pap., 58(2), 117-125, (2004).

17. K. Sztanke, K. Pasternak, M. Sztanke, B. Rajtar and A. M. Dacewicz, Bull. Vet. Inc. Pulawy, 51, 481-484, (2007).

18. G. Y. Kilcigil and N. Altanlar, Turk. J. Chem, 30, 223-228, (2006).

19. T. Rosu, A. Gulea, A. Nicolae and R. Georgescu, Molecules, 12, 782-796, (2007).

20. H. F. Hussien, M.sc., “Synthesis, Characterization and Biological Activity study of New Five, Six and Seven Heterocyclic Compounds Derived from 2- Aminopyridine”, College of Science Al-Nahrain University, (2008).

21. Ş. Bahceci, B. Bahceci, N. İnce and A. İkizler, Turk. J. Chem., 22, 237-241, (1998).

22. C. C. Lindsy, B. M. Bolye, S. J. Mercede and T.

R. Pettus, Tetrahedron Lett., 45, 867-872, (2004).

23. I. O. Zhuravel, S. M. Kovalenko, S. V. Vlasov and V. P. Chernykh, Molecules, 10, 444–456, (2005).

24. S. Bahceci, B. Bahceci, N. İnce and A. İkizler, Turk. J. Chem., 22, 237-241, (1998).