Synthesis and characterization of new compounds of amic acids derived from cephalosporins, the study of some physical applications and evaluation of their biological activity

An'am Khalif Athab Al-Azzawi; Nabil Jamal Ayed AlAsli

doi:10.53730/ijhs.v6nS4.8898

Authors

An'am Khalif Athab Al-Azzawi Chemistry Department - College of Education for Pure Sciences - Tikrit University. Salah Al-Din – Iraq
Nabil Jamal Ayed AlAsli Chemistry Department - College of Education for Pure Sciences - Tikrit University. Salah Al-Din – Iraq

Keywords:

cephalosporins, amino acids, enterococcus faecalis, staphylococcus aureus, klebsiella pneumonia, pseudomonas putida

Abstract

In this research, amino acids were prepared from the reaction of cephalosporins with anhydrous acids, and the accuracy of the prepared compositions was confirmed by measuring their physical properties, including melting point, molecular weight and colour, as well as through spectroscopic measurements, including Uv, FTIR, ¹H-NMR, ¹³C-NMR, mass spectrometry, (S.E.M.), (C.H.N.). A study of electrical conductivity and a survey of the biological activity of some prepared compounds and on four types of pathogenic bacteria, two of which are Gram-positive, and two are Gram-negative. They are each of (Staphylococcus aureus, Enterococcus faecalis, Klebsiella pneumonia, and Pseudomonas putida). The use of Acker-Hinton's type of culture medium (Molar Hunting Agar) and aqueous solutions of the two compounds [DM7] were also prepared. [DM3] and in concentrations (0.01,0.001,0. 0001,0.00001) mg/ml and by using a solvent dimethyl sulfoxide (DMSO), a sensitivity test was conducted for the bacteria isolates that were used in the study by diffusion method, and using the antibiotics Cefixime, Ceftriaxone, Ampicillin as a control sample.

Downloads

Download data is not yet available.

References

Tyan, H. L., Liu, Y. C., & Wei, K. H. (1999). Enhancement of imidization of poly (amic acid) through forming poly (amic acid)/organoclay nanocomposites. Polymer, 40(17), 4877-4886.‏

Ogata, T., Narita, H., & Tanaka, M. (2015). Adsorption behavior of rare earth elements on silica gel modified with diglycol amic acid. Hydrometallurgy, 152, 178-182.‏

Takahashi, N., Yoon, D. Y., & Parrish, W. (1984). Molecular order in condensed states of semiflexible poly (amic acid) and polyimide. Macromolecules, 17(12), 2583-2588.‏

Naganawa, H., Shimojo, K., Mitamura, H., Sugo, Y., Noro, J., & Goto, M. (2007). A new" green" extractant of the diglycol amic acid type for lanthanides. Solvent Extraction Research and Development, 14, 151-159.‏

Angelopoulos, M., Patel, N., & Saraf, R. (1993). Amic acid doping of polyaniline: characterization and resulting blends. Synthetic metals, 55(2-3), 1552-1557.‏

Yang, K. S., Edie, D. D., Lim, D. Y., Kim, Y. M., & Choi, Y. O. (2003). Preparation of carbon fiber web from electrostatic spinning of PMDA-ODA poly (amic acid) solution. Carbon, 41(11), 2039-2046.‏

Kim, C., Choi, Y. O., Lee, W. J., & Yang, K. S. (2004). Supercapacitor performances of activated carbon fiber webs prepared by electrospinning of PMDA-ODA poly (amic acid) solutions. Electrochimica Acta, 50(2-3), 883-887.‏

Shimojo, K., Naganawa, H., Noro, J., Kubota, F., & Goto, M. (2007). Extraction behavior and separation of lanthanides with a diglycol amic acid derivative and a nitrogen-donor ligand. Analytical Sciences, 23(12), 1427-1430.‏

Kubota, F., Shimobori, Y., Baba, Y., Koyanagi, Y., Shimojo, K., Kamiya, N., & Goto, M. (2011). Application of ionic liquids to extraction separation of rare earth metals with an effective diglycol amic acid extractant. Journal of chemical engineering of Japan, 1102280146-1102280146.‏

Facinelli, J. V., Gardner, S. L., Dong, L., Sensenich, C. L., Davis, R. M., & Riffle, J. S. (1996). Controlled molecular weight polyimides from poly (amic acid) salt precursors. Macromolecules, 29(23), 7342-7350.‏

Lee, T., Park, S. S., Jung, Y., Han, S., Han, D., Kim, I., & Ha, C. S. (2009). Preparation and characterization of polyimide/mesoporous silica hybrid nanocomposites based on water-soluble poly (amic acid) ammonium salt. European Polymer Journal, 45(1), 19-29.‏

Chang, J. H., Park, K. M., Lee, S. M., & Oh, J. B. (2000). Two‐step thermal conversion from poly (amic acid) to polybenzoxazole via polyimide: Their thermal and mechanical properties. Journal of Polymer Science Part B: Polymer Physics, 38(19), 2537-2545.‏

Lee, H. J., Won, J., Park, H. C., Lee, H., & Kang, Y. S. (2000). Effect of poly (amic acid) imidization on solution characteristics and membrane morphology. Journal of Membrane Science, 178(1-2), 35-41.‏

Dai, Z., Bao, Z., Ding, S., Liu, C., Sun, H., Wang, H., ... & Li, X. (2022). Scalable Polyimide‐Poly (Amic Acid) Copolymer Based Nanocomposites for High‐Temperature Capacitive Energy Storage. Advanced Materials, 34(5), 2101976.‏

Seo, Y., Lee, S. M., Kim, D. Y., & Kim, K. U. (1997). Kinetic study of the imidization of a poly (ester amic acid) by FT-Raman spectroscopy. Macromolecules, 30(13), 3747-3753.‏

Sun, H., & Du, J. (2020). Intramolecular cyclization-induced crystallization-driven self-assembly of an amorphous poly (amic acid). Macromolecules, 53(24), 11033-11039.‏

Yoshida, W., Baba, Y., Kubota, F., Kolev, S. D., & Goto, M. (2019). Selective transport of scandium (III) across polymer inclusion membranes with improved stability which contain an amic acid carrier. Journal of Membrane Science, 572, 291-299.

Jabar, S. A., Hussein, A. L., Dalaf, A. H., & Aboud, H. S. (2020). Synthesis and Characterization of Azetidine and Oxazepine Compounds Using Ethyl-4-((4-Bromo Benzylidene) Amino) Benzoate as Precursor and Evalution of Their Biological Activity. Journal of Education and Scientific Studies, 5(16).‏

Dalaf, A. H. (2018). Synthesis and Characterization of Some Quartet and Quinary Hetero cyclic Rings Compounds by Traditional Method and Microwave Routes Method and Evaluation of Their Biological Activity. M.Sc. Thesis, Tikrit University, Tikrit, Iraq: 1-94 pp.

Dalaf, A. H., & Jumaa, F. H. (2018). Synthesis, Characterization of some 1,3-Oxazepane -4,7-Dione by Traditional and Microwave routes method and evaluation of their biological activity. Al-utroha for Pure Science. (8): 93-108.

Dalaf, A. H., Jumaa, F. H., & Jabbar, S. A. S. (2018). Synthesis and Characterization of some 2, 3-dihydroquinozoline and evaluation of their biological activity. Tikrit Journal of Pure Science, 23(8): 66-67.‏

Salwa, A. J., Ali, L. H., Adil, H. D., Hossam, S. A. (2020). Synthesis and Characterization of Azetidine and Oxazepine Compounds Using Ethyl-4-((4-Bromo Benzylidene) Amino) Benzoate as Precursor and Evalution of Their Biological Activity. Journal of Education and Scientific Studies, ISSN: 24134732. 16(5): 39-52.

Dalaf, A. H., & Jumaa, F. H. (2020). Synthesis, Identification and Assess the Biological and Laser Efficacy of New Compounds of Azetidine Derived from Benzidine. Muthanna Journal of Pure Science (MJPS), 7(2):12-25.

Saleh, R. H., Rashid, W. M., Dalaf, A. H., Al-Badrany, K. A., & Mohammed, O. A. (2020). Synthesis of Some New Thiazolidinone Compounds Derived from Schiff Bases Compounds and Evaluation of Their Laser and Biological Efficacy. Ann Trop & Public Health, 23(7): 1012-1031.‏

Yass, I. A., Aftan, M. M., Dalaf, A. H., & Jumaa, F. H. (Nov. 2020). Synthesis and Identification of New Derivatives of Bis-1,3-Oxazepene and 1,3-Diazepine and Assess the Biological and Laser Efficacy for Them. The Second International & The Fourth Scientific Conference of College of Science – Tikrit University. (P4): 77-87.

Salih, B. D., Dalaf, A. H., Alheety, M. A., Rashed, W. M., & Abdullah, I. Q. (2021). Biological activity and laser efficacy of new Co (II), Ni (II), Cu (II), Mn (II) and Zn (II) complexes with phthalic anhydride. Materials Today: Proceedings, 43, 869-874.

Aftan, M. M., Jabbar, M. Q., Dalaf, A. H., & Salih, H. K. (2021). Application of biological activity of oxazepine and 2-azetidinone compounds and study of their liquid crystalline behavior. Materials Today: Proceedings, 43, 2040-2050.‏

Aftan, M. M., Talloh, A. A., Dalaf, A. H., & Salih, H. K. (2021). Impact para position on rho value and rate constant and study of liquid crystalline behavior of azo compounds. Materials Today: Proceedings.‏

Aftan, M. M., Toma, M. A., Dalaf, A. H., Abdullah, E. Q., & Salih, H. K. (2021). Synthesis and Characterization of New Azo Dyes Based on Thiazole and Assess the Biological and Laser Efficacy for Them and Study their Dyeing Application. Egyptian Journal of Chemistry, 64(6), 2903-2911.‏

Khalaf, S. D., Ahmed, N. A. A. S., & Dalaf, A. H. (2021). Synthesis, characterization and biological evaluation (antifungal and antibacterial) of new derivatives of indole, benzotriazole and thioacetyl chloride. Materials Today: Proceedings.‏ 47(17), 6201-6210.

Dalaf, A. H., Jumaa, F. H., & Salih, H. K. (2021). Preparation, Characterization, Biological Evaluation and Assess Laser Efficacy for New Derivatives of Imidazolidin-4-one. International Research Journal of Multidisciplinary Technovation, 3(4), 41-51.‏

Dalaf, A. H., Jumaa, F. H., & Salih, H. K. (2021). MULTIDISCIPLINARY TECHNOVATION. Red, 15(A2), C44H36N10O8.‏

Dalaf, A. H., Jumaa, F. H., Aftana, M. M., Salih, H. K., & Abd, I. Q. (2022). Synthesis, Characterization, Biological Evaluation, and Assessment Laser Efficacy for New Derivatives of Tetrazole. In Key Engineering Materials (Vol. 911, pp. 33-39). Trans Tech Publications Ltd.‏

Ramli, R. M., Sinrang, A. W., & Aminuddin. (2021). Levels of alpha-1 acid glycoprotein (AGP) in stunting and non stunting tolls age 36-60 months . International Journal of Health & Medical Sciences, 4(1), 145-149. https://doi.org/10.31295/ijhms.v4n1.1666

Suryasa, I. W., Rodríguez-Gámez, M., & Koldoris, T. (2021). Get vaccinated when it is your turn and follow the local guidelines. International Journal of Health Sciences, 5(3), x-xv. https://doi.org/10.53730/ijhs.v5n3.2938