Properties / Characteristics of Antimicrobial Peptides

Journal of medicine and healthcare Pub Date : 2022-02-28 DOI:10.47363/jmhc/2022(4)183

Cristina Gabriela Varga

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Abstract

Antimicrobial peptides (AMPs) are natural antibiotics, synthesized by ribosomes, with an effect on the natural immunity of animal organisms. AMPs differ in composition [sequence and type of amino acids (AAs)] and structure, which contribute to rapid lysis and have a varied spectrum of antimicrobial activity. AMPs are: peptides (Pps) with alpha-helix structure (i.e., cecropins, magainins, mellitin, etc.); cyclic Pps and ring with several cysteine residues (i.e., defensins, protegrins, etc.); Pps rich in one or another AA (i.e., proline arginine-rich PR39, histidine, glycine, etc.). Most AMPs are characterized by hydrophobic and cationic properties, adopt an amphipathic structure (alpha-helix, spiral beta or alpha-helix / spiral beta), which is essential for antimicrobial activity. AMPs have the potential for therapeutic use in medicine. One of the major concerns of life sciences research is finding new ways to enhance the body’s defense against pathogens. One way is to produce drugs based on AMPs. The AMPs are a class of small Pps that have the ability to destroy pathogens of microbial and viral origin. The mechanisms of action are known only partially and for a small number of AMPs, and the toxic action of AMPs is generally considered to be based on the induction by these molecules in the outer membrane of the pathogen of aqueous pores that facilitate nonspecific ion transfer, which ultimately leads to lysis of the target cell.

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抗菌肽的性质/特征

抗菌肽(Antimicrobial peptides, AMPs)是由核糖体合成的天然抗生素，对动物机体的天然免疫功能起作用。AMPs在组成[氨基酸序列和类型(AAs)]和结构上不同，这有助于快速裂解并具有不同的抗菌活性谱。amp是:具有α -螺旋结构的肽(Pps)(即cecropins, magainins, mellitin等);环状Pps和带有几个半胱氨酸残基的环(即防御素、蛋白蛋白等);富含一种或另一种AA的Pps(即富含脯氨酸精氨酸的PR39、组氨酸、甘氨酸等)。大多数抗菌肽具有疏水性和阳离子性质，采用两亲性结构(α -螺旋、螺旋β或α -螺旋/螺旋β)，这是抗菌活性所必需的。amp在医学上具有治疗用途的潜力。生命科学研究的主要关注点之一是寻找新的方法来增强人体对病原体的防御能力。一种方法是生产基于amp的药物。amp是一类具有破坏微生物和病毒病原体能力的小pp。目前对少量AMPs的作用机制仅知部分，一般认为AMPs的毒性作用是基于这些分子在病原体的水孔外膜诱导非特异性离子转移，最终导致靶细胞的裂解。

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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Journal of medicine and healthcare

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