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

Materials Science Forum Pub Date : 2024-03-29 DOI:10.4028/p-gn4mrh

Nailya Veysova, Vaqifa Huseynova, Aynura Yariyeva, Shukufa Eyvazova

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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.

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环己-3-羰基酸吡啶-2-基酰胺化合物的生物特性

合成的羧酰胺化合物是由环己-3-烯碳酸氯酐与 2-氨基吡啶反应得到的。对这种化合物的生物活性特性进行了研究。根据药理学部门的经验，确定羧酰胺化合物可用作药物。在实验室里对动物进行了实验，研究了这些物质如何影响细胞。只有当物质与人体细胞发生反应并结合在一起时，它们才能在体内引起某些变化；为此，它们的分子结构必须是特定的。不仅分子的组成，而且所有结构细节，包括电荷的分布和官能团的位置，都非常重要。生理活性物质分子的一般结构应与细胞特定分子的结构相对应。生物学研究结果表明，这种物质对神经系统有镇静作用，能消除肌肉痉挛。它具有舒缓肌肉和抗缺氧的特性。动物的肌松弛作用能增强骨骼肌。抗缺氧作用可使动物的寿命延长一倍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Materials Science Forum

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