An approach has been proposed for in-depth study of the process of complex formation of polypeptides obtained by hydrolysis of the silkworm with metal ions, in particular, calcium, magnesium and zinc ions, with the aim of creating new drugs for correcting the balance of microelements in a living organism and treating specific diseases (micro elementoses). For a comprehensive study of the complex formation of the obtained systems, such methods of studying polymers as potentiometric titration, IR spectroscopy, and plasma mass spectrometry are involved
An approach has been proposed for in-depth study of the process of complex formation of polypeptides obtained by hydrolysis of the silkworm with metal ions, in particular, calcium, magnesium and zinc ions, with the aim of creating new drugs for correcting the balance of microelements in a living organism and treating specific diseases (micro elementoses). For a comprehensive study of the complex formation of the obtained systems, such methods of studying polymers as potentiometric titration, IR spectroscopy, and plasma mass spectrometry are involved
| № | Имя автора | Должность | Наименование организации |
|---|---|---|---|
| 1 | Namozov O.. | teacher | TSTU |
| 2 | Usmanova G.. | teacher | TSTU |
| 3 | Karimov M.. | teacher | TSTU |
| 4 | Smirnova M.. | teacher | Federal state budgetary institution os science institute of macromolecular |
| № | Название ссылки |
|---|---|
| 1 | C.Vepari., D.L. Kaplan. “Silk as a biomaterial”, 2007. 991 |
| 2 | F. Lucas., J.T. Shaw., S.G. Smith. The amino acid sequence in a fraction of the fibroin of Bombyxmori. “Biochem”, 1957. 468. |
| 3 | M.B. Applegate., B.P. Partlow., J. Coburn., B. Marelli., C. Pirie., R. Pineda., D.L. Kaplan., F.G. Omenetto. “Photocrosslinking of silk fibroin using riboflavin for ocular prostheses”, 2016. 2417. |
| 4 | H. Ali., J.E. Van Lier. “Metal complexes as photo and radiosensitizers”, 1999. 2379. |
| 5 | N.V. Loginova. “Metal complexes in medicine: from design to chemotherapy and diagnostics”, 2006. 203. |
| 6 | E.M. Gielen., E.R.T. Tiekink. Metallotherapeutic drugs and metal-based diagnostic agents. “The use of metals in medicine, weinheim”, 2005. 598. |
| 7 | C.J. Anderson., M.J. Welch. “Radiometal-labeled agents (non-technetium) for diagnostic imaging”, 1999. 2219. |
| 8 | R.M. Roat-Malone. “Bioinorganic Chemistry: A Short Course. New Jersey”, 2002. 348. |
| 9 | J.T. Rhule., C.L. Hill., D.A. Judd. “Polyoxometalates in Medicine”, 1998. 327. |
| 10 | E.M. Gielen., E.R.T. Tiekink. Metallotherapeutic drugs and metal-based diagnostic agents. “The Use of Metals in Medicine. Weinheim”, 2005. 598 |
| 11 | E. Behazin., E. Ogunsona., A. Rodriguez., A. Mohanty., M. Misra., A. Anyia. Peer-reviewed article mechanical, chemical, and physical properties of wood and perennial grass biochars for possible composite application. “Bioresources”, 2016. 134. |
| 12 | S.S. Jurisson., J.D. Lydon. “Potential technetium small molecule radiopharmaceuticals”, 1999. 2205 |
| 13 | A.V. Skalniy., I.A. Rudakov. Bioelements in medicine. “ONYX 21st century World”, 2004. 272 |
| 14 | K.M. Ismailova., F.A. Umarov., M.M. Karimov., T.M. Babaev. Obtaining polypeptides by the method of hydrolysis of the silkworm cocoon. “Uzbek chem. Magazine”, 2019. 55. |
| 15 | M.M. Karimov., F.A. Umarov., U.K. Inogamov., N.L. Vipova., T.M. Babaev. Polypeptides from the “Bombyx mori kokan and their biological activity”, 2022. 41. |
| 16 | O.M. Namozov., G.A. Usmanova., M.A. Aripdzhanova., M.B. Ayupova., M.M. Karimov. Properties, synthesis, application of metal chelate complexes. “Bulletin of the National University of Uzbekistan”, 2022. 392. |