Paper Titles

Study of Microstructural Evolutions in Thermally Processed High-Strength Pig-Iron
p.49

Thermodynamic Properties of GaAs Solid Materials Extended to Surface Adsorption under External Magnetic Fields, Pressure, and Temperature
p.57

Investigations on Varying Compositions of Nylon 6 Polymer Matrix Composites for Wear Reduction in Application to Gears
p.73

Steel Boiler Tube with HVOF Coating: Peculiarity and Interfacial
p.87

Strain Rate and Temperature Dependent Tensile Failure of a Short Glass Fiber Reinforced Polyamide Thermoplastic Composite
p.93

Impact of Assorted Temperature on Yield and Surface Morphology of Multiple Layers of Carbon Nanotubes by Spurt Pyrolysis Techniques
p.101

Catalytıc Pyrolysıs Systems of Lıght Hydrocarbons
p.111

Biological Properties of Cyclohex-3-Encarbonyl Acid Pyridin-2-Yl Amide Compound
p.119

Ultrasound-Assisted Anthocyanins Extraction from Purple Cabbage for Optical Biosensor of Wound Healing Monitoring
p.127

HomeMaterials Science ForumMaterials Science Forum Vol. 1119Biological Properties of Cyclohex-3-Encarbonyl...

Biological Properties of Cyclohex-3-Encarbonyl Acid Pyridin-2-Yl Amide Compound

Article Preview

Abstract:

The synthesized carboxyamide compound was obtained by the reaction of cyclohex-3-ene carbonic acid chloroanhydride with 2-aminopyridine. The biologically active property of this compound has been studied. Based on the experience in the pharmacology department, it was determined that the carboxyamide compound can be used as a drug. The experiment was conducted on animals in the laboratory and how those substances affect the cell was studied. Substances can cause certain changes in the body only when they react with the cells of the body and combine with them; for this, the structure of their molecules must be specific. Not only the composition of the molecules, but also all the structural details, including the distribution of their charges and the location of their functional groups, are of great importance. The general structure of molecules of physiologically active substances should correspond to the structure of specific molecules of cells. As a result of biological research, it was determined that this substance has a calming effect on the nervous system, eliminates muscle spasms. It has myorelaxation and antihypoxia properties. Myorelaxation in animals strengthens skeletal muscles. And the antihypoxia effect doubles the duration of life in animals.

You might also be interested in these eBooks

2nd International Scientific-Practical Conference Machine Building and Energy: New Concepts and Technologies (MBENCT)

Functional Materials and Physics of Materials

Info:

Periodical:

Materials Science Forum (Volume 1119)

Pages:

119-125

DOI:

https://doi.org/10.4028/p-Gn4MrH

Citation:

Cite this paper

Online since:

March 2024

Authors:

Nailya Veysova*, Vaqifa Huseynova, Aynura Yariyeva, Shukufa Eyvazova

Keywords:

Acylating Reagent, Carboxyamide, Chloroanhydride, Cyclohex-3-Ene Carboxylic Acid, Electrophile, Nucleophile

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2024 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Маlinovsky М.S., Оvsyanik V.D. Bicyclo oxidation [2.2.1]-5-heptene-2-carboxyamides. //JОrqCh, 1971. 7. № 10. 2139-2143.

[2] Ghosez L., Laroche P. Addition of dichloracarbene to norbornylene. "Proc.Chem.Sos", 1963 March, 90(Engl.) RJCh, 1963, № 24, 24J388.

[3] Маlinovsky М.S., Оvsyanik V.D., Avramenko V.İ. Study of oxirane adduct of cyclopentadiene and methylmethacrylate. //JОrqCh, 1970. 6, № 6. 1173-1181.

[4] Mamedov S.N., İsmailov N.M., Rustamov F.A. Reaction of acid chloride a - chlorocyclohexanecarboxylic acid with aromatic amines. //Scientific notes, ASU. 1979, № 3. 37-38.

[5] Yangyu li, Julia Wang, Zhunye Wang. Synthesis of amides and various amines and benzoyl chloride under microwave activation conditions: Fast and effective method for protecting the amino group. / JОrqCh /, 2008. 44. 3. 365-368.

[6] Ciulin P.A., Sosnina V.V., Krasovskaya Q.Q., Danilova A.S., Baykov S.V., Коfаnоv E.K. Formation and cyclization N1-(benzoyloxy) benzenecarboximimides. // JОrqCh, 2011. 47.12. 1838-1841.

[7] Rustamov M.A., Eyvazova Sh.M. On the synthesis of nitrogencontaining polyfunctional substituted polycyclic compounds. // AzTU. Scientific woks, Fundamental sciences, 2004, XIII , № 4. 71-73.

[8] Rustamov M.A., Veysova N.A., Abbasov M.F., Eyvazova Sh.M., İsmayilova S.Q. On the synthesis of carboxyamide and heterocyclic nitrogenous compounds. //Azerbaijani chemistry magazine., 2013, № 1. 94-97.

[9] Tarabara I.N., Zlenko Е.T., Mamchur V.I., Stereodimensional N-alkyl(aralkyl)-5-aminomethyl bicyclo[2.2.1]hept-2-ene. Synthesis, spectra NMR1N and reactions with electrophilic reagents. // JОrqCh, 1999. 35, 7, с. 1042-1055.

[10] Mashkovsky М.D. Medicines. Kharkiv. Torsing, 1997, 2, 353.

[11] Maqerramov A.M., Abdinbekova R.T., Kurbanova M.M., Zamanova A.V., Allakhverdiev M.A. Synthesis of alkoxy-and alkylthiosubstituted tiocarboamides.//J.Processes of Petrochemistry and Oil Refininq ISSN 1726-4685. 2003. 3(14).50.

[12] Maqerramov A.M., Abdinbekova R.T., Kurbanova M.M., Allakhverdiev M.A. Synthesis of N-substituted thiocarbamides on base of halohydrins. //10th IUPAC International Symposium on Macromolecule-Metal Complexes (MMC-10 Moskow). may 18-23 2003. p.25, p.84.

[13] Abdinbekova R.T., Zamanova А.V., Akhmedova H.А., Kurbanov А.V., Kurbanova М.М., Maqerramov A.M. Synthesis of some functionally substituted ureas. Abstracts of reports dedicated to the 90th anniversary of Z.G. Zulfugarov. Baku, 2004, p.203.

[14] Veysova N.A., Eyvazova Sh.M., Rustamov M.A. On the synthesis of various functionally substituted carboxyamide compounds. //Journal of Chemical Problems, 2011, № 1, pp.119-122.

[15] Nazarov I.N., Kuznetsova A.I., Kuznetsov N.V. Structural orientation of diene synthesis. // GChJ, 1955. 25, № 1, pp.88-108.

[16] Nazarov I.N., Titov Y.A., Kuznetsova A.I. Structural orientation of diene condensations of isoprene with unsymmetrical dienophiles. / SSSR, ОНN, 1959, № 8, pp.1412-1420.

DOI: 10.1007/bf00918576

[17] Petrov A.A., Sopov N.P. Condensation of divinyl, chlorprene and bromoprene with acrylonitrile. // GChJ, 1947. 17, № 12, pp.2228-2234.

[18] Petrov A.A., Sapozhnikova A.F. On the condensation of acrylonitrile with piperylene and isoprene. // GChJ, 1948. 18, № 3, pp.424-429.