ANTIMICROBIAL ACTIVITY OF 6-AMINOPURINE DERIVATIVES ENCAPSULATED IN NANOSTRUCTURED HYDROGELS

Authors

  • Abdumajid Arabov Student Tashkent State Agrarian University
  • Foziljon Saitkulov Tashkent State Agrarian University
  • Akbar Abdinazarov Tashkent State Agrarian University

DOI:

https://doi.org/10.37547/

Keywords:

nanostructured hydrogel, 6-aminopurine derivatives, antimicrobial activity, controlled release, biomedical materials.

Abstract

Nanostructured hydrogels are widely investigated as advanced drug delivery systems due to their high biocompatibility, large water content, and controlled release properties. Incorporation of biologically active purine derivatives such as 6-aminopurine into hydrogel matrices may enhance antimicrobial activity while maintaining a moist environment suitable for tissue regeneration. The present study investigates the antimicrobial activity of 6-aminopurine derivatives encapsulated in nanostructured hydrogels against several pathogenic microorganisms. The results demonstrated that the hydrogel system provided sustained release of the active compound and significantly inhibited microbial growth compared with the control samples. These findings suggest that nanostructured hydrogel systems containing purine derivatives may serve as promising antimicrobial materials for biomedical and pharmaceutical applications.

Downloads

Download data is not yet available.

References

1. Orinbayevna, B. G., & Ergashevich, S. F. (2026). Study of the selective acylation and physicochemical properties of 6-benzylaminopurine. Universum: химия и биология, 4(1 (139)), 46-50.

2. GO, B., & Saitkulov, F. E. Study of the selective acylation and physicochemical properties of 6-benzylaminopurine.

3. Dilshod odil o’g’li, K., Ergashevich, S. F., & Shamshetovich, T. M. (2025, November). Improving the criteria for detection and certification of pesticide residues in fruits and vegetables in uzbekistan. In Conferences (Vol. 1, No. 4, pp. 640-643).

4. Fotima, Q., Foziljon, S., Jalgasbayevna, G. U., & Shamshetovich, T. M. (2025, November). Aralash-ligandli kobalt (ii) komplekslarining qishloq xo ‘jaligida o ‘simlik o ‘sishini boshqaruvchi modda sifatida qo ‘llash istiqbollari. In Conferences (Vol. 1, No. 4, pp. 583-586).

5. Ilmpazovna, H. D. (2025, October). Technology for enhancing the uptake of iron and zinc elements in medicinal plants using hydrogel capsules. In London International Monthly Conference on Multidisciplinary Research and Innovation (LIMCMRI) (Vol. 2, No. 1, pp. 826-829).

6. Usmanovich, E. T., Oxunov, I. I., & Shamshetovich, T. M. (2025, November). 6-Aminopurinning qahrobo kislotasi bilan ta’sir reaksiyasini o ‘rganish, sintez qilish texnologiyasi. In Conferences (Vol. 1, No. 4, pp. 649-653).

7. Maxmarajabovich, X. M., Ergashevch, S. F., & Suvanovich, X. T. Y. (2024). The use of information technologies in teaching biophysics and radiobiology. Science and innovation, 3(Special Issue 58), 522-526.

8. Shoyimovich, K. G., Ergashevich, S. F., & Kuchkar, G. (2024). Determination of certain heavy metals in food composition by voltammetric method. Austrian Journal of Technical & Natural Sciences.

9. Saitkulov, F., Begimqulov, I., Oʻralova, N., Gulimmatova, R., & Rahmonqulova, D. (2022). Biochemical effects of the coordination compound of cobalt-II nitrate quinazolin-4-one with 3-indolyl acetic acid in the “amber” plants grades phaseolus aureus. Академические исследования в современной науке, 1(17), 263-267.

10. Saitkulov, F., Farhodov, O., Olisheva, M., Saparboyeva, S., & Azimova, U. (2022). Chemical feeding method of lemon plant using leaf stomata. Академические исследования в современной науке, 1(17), 274-277.

11. Saitkulov, F., Sapaev, B., Nasimov, K., Kurbanova, D., & Tursunova, N. (2023). Structure, aromatic properties and preparation of the quinazolin-4-one molecule. In E3S Web of Conferences (Vol. 389, p. 03075). EDP Sciences.

12. Saitkulov, F., Zakhidov, Q., Khaydarov, G., Sabirova, D., Ergasheva, H., Mirvaliev, Z., & Usnatdinova, S. (2025, February). Methods for the synthesis of 2-phenylquinazolin-4-one and studying methylation reactions in different solvents. In AIP Conference Proceedings (Vol. 3268, No. 1, p. 030038). AIP Publishing LLC.

13. Kulmirzayeva, S., Isaqulova, M., Nasimov, H., Saitkulov, F., & Islomova, D. (2025, July). Study of synthesis and biological properties of coordination compound of cobalt (II)-chloride. In American Institute of Physics Conference Series (Vol. 3304, No. 1, p. 040099).

14. Saitkulov, F., Abdullayev, F., Xudayrov, M., Eshboboev, T., & Haydarov, G. (2024). Technology for detecting heavy metals in the soil using an ionometer. In BIO Web of Conferences (Vol. 105, p. 05004). EDP Sciences.

15. Gulbaxar, B. (2025). OPTIMAL SYNTHESIS OF QUINAZOLIN-4-ONE. Universum: химия и биология, 2(2 (128)), 31-33.

16. Saitkulov, F. E. (2024). STUDYING THE REACTION OF BAP WITH SUCCINIC ACID AND ITS EFFECT ON THE ROOTING OF THE SEEDLING OF THE VARIETY “BUKHARA-102”. Austrian Journal of Technical and Natural Sciences, (1-2), 13-18.

17. Bekboyevich, O. O., Ergashevich, S. F., & Zoxidovich, M. Z. (2024). SYNTHESIS REACTIONS OF QUINAZOLIN-4-ONE IN THE PRESENCE OF IRON (III)-CHLORIDE CATALYSTS. Austrian Journal of Technical and Natural Sciences, (9-10), 49-53.

18. Bekboyevich, O. O., Ergashevich, S. F., Zoxidovich, M. Z., & Orinaevna, B. G. (2024). INVESTIGATION OF AROMATIC PROPERTIES OF XINAZOLIN 4-ONE. Austrian Journal of Technical and Natural Sciences, (9-10), 54-57.

19. Saitkulov, F. E., & Elmuradov, B. (2024). Zh., Sapaev B. Syntheses and biological activity of quyinazolin-4-one hydrochloride. Austrian Journal of Technical and Natural Sciences, (1-2), 28-35.

20. Sapayev, B., Saitkulov, F. E., Normurodov, O. U., Haydarov, G., & Ergashyev, B. (2023). Studying Complex Compounds of Cobalt (II)-Chlooride Gecsacrystolohydrate with Acetamide and Making Refractory Fabrics from Them.

21. Saitkulov, F. E., Giyasov, K., & Elmuradov, B. J. (2022). Methylation of 2-methylchiazoline-4-one by" soft" and" hard" methylating agents. Universum: Chemistry and Biology,(11–2 (101)),–49 c.

22. Saitkulov, F. E., Giyasov, K., & Elmuradov, B. J. (2022). Methylation of 2-methylchiazoline-4-one by" soft" and" hard" methylating agents. Universum: Chemistry and Biology,(11–2 (101)),–49 c.

23. Saitkulov, F., Azimov, I., Ergasheva, M., & Jo‘raqulov, H. (2022). Carbohydrates are the main source of energy in the body. Solution of social problems in management and economy, 1(7), 68-71.

24. Khatamov, K., Saitqulov, F., Ashurov, J., & Shakhidoyatov, K. (2012). 3, 5, 6-Trimethylthieno [2, 3-d] pyrimidin-4 (3H)-one. Structure Reports, 68(9), o2740-o2740.

Downloads

Published

2026-05-20

Issue

Vol. 6 No. 5 (2026): International Bulletin of Medical Sciences and Clinical Research

Section

Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Articles published in this journal are licensed under the Creative Commons Attribution 4.0 International License (CC-BY 4.0). Under this license:

  • Share: Copy and redistribute the material in any medium or format
  • Adapt: Remix, transform, and build upon the material for any purpose, including commercially

Attribution required: You must give appropriate credit, provide a link to the license, and indicate if changes were made.

License URL: https://creativecommons.org/licenses/by/4.0/

Authors retain copyright of their work while granting the journal first publication rights.

How to Cite

ANTIMICROBIAL ACTIVITY OF 6-AMINOPURINE DERIVATIVES ENCAPSULATED IN NANOSTRUCTURED HYDROGELS. (2026). International Bulletin of Medical Sciences and Clinical Research, 6(5), 59-62. https://doi.org/10.37547/

Similar Articles

71-80 of 111

You may also start an advanced similarity search for this article.