含氨基膦酸酯基团的丙烯腈-二乙烯基苯聚合物载体的化学修饰及其抗菌活性测试

Chemical Modification of Acrylonitrile-Divinylbenzene Polymer Supports with Aminophosphonate Groups and Their Antibacterial Activity Testing.

作者信息

Nichita Ileana, Lupa Lavinia, Visa Aurelia, Dragan Ecaterina-Stela, Dinu Maria Valentina, Popa Adriana

机构信息

Faculty of Veterinary Medicine, University of Life Science "King Mihai I", 119 Calea Aradului, 300465 Timisoara, Romania.

Faculty of Chemical Engineering, Biotechnology and Environmental Protection, Politehnica University Timișoara, 6 Vasile Parvan Blvd., 300223 Timisoara, Romania.

出版信息

Molecules. 2024 Dec 23;29(24):6054. doi: 10.3390/molecules29246054.

DOI:10.3390/molecules29246054

PMID:39770142

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11677517/

Abstract

Bacterial contamination is a major public health concern on a global scale. Treatment resistance in bacterial infections is becoming a significant problem that requires solutions. We were interested in obtaining new polymeric functionalized compounds with antibacterial properties. Three components (polymeric amine, aldehyde, and phosphite) were used in the paper in a modified "one-pot" Kabachnik-Fields reaction, in tetrahydrofuran at 60 °C, to create the N-C-P skeleton in aminophosphonate groups. Two copolymers were thus prepared starting from an acrylonitriledivinylbenzene (AN-15%DVB) copolymer containing pendant primary amine groups modified by grafting aminophosphonate groups, i.e., aminobenzylphosphonate (Bz-DVB-AN) and aminoethylphosphonate (Et-DVB-AN). The two copolymers were characterized by FT-IR spectroscopy, SEM-EDX, TGA, and antibacterial properties. It was shown that the novel products have antibacterial qualities against and bacteria. The sample with the strongest antibacterial activity was Et-DVB-AN. We assessed how well the Weibull model and the first-order kinetic model represent the inactivation of microbial cells in our samples. The main advantage of the new antibacterial agents developed in this work is their easy recovery, which helps to avoid environmental contamination.

摘要

细菌污染是全球范围内主要的公共卫生问题。细菌感染中的耐药性正成为一个需要解决的重大问题。我们对获得具有抗菌性能的新型聚合物功能化化合物感兴趣。本文中使用了三种组分（聚合物胺、醛和亚磷酸酯），在60℃的四氢呋喃中通过改良的“一锅法”卡巴奇尼克-菲尔德反应，在氨基膦酸酯基团中创建N-C-P骨架。由此从含有通过接枝氨基膦酸酯基团修饰的侧链伯胺基团的丙烯腈-二乙烯基苯（AN-15%DVB）共聚物出发制备了两种共聚物，即氨基苄基膦酸酯（Bz-DVB-AN）和氨基乙基膦酸酯（Et-DVB-AN）。通过傅里叶变换红外光谱（FT-IR）、扫描电子显微镜-能谱分析（SEM-EDX）、热重分析（TGA）和抗菌性能对这两种共聚物进行了表征。结果表明，这些新型产物对[具体细菌名称1]和[具体细菌名称2]具有抗菌特性。抗菌活性最强的样品是Et-DVB-AN。我们评估了威布尔模型和一级动力学模型对我们样品中微生物细胞失活的拟合程度。这项工作中开发的新型抗菌剂的主要优点是它们易于回收，这有助于避免环境污染。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e001/11677517/d9b5d4c55846/molecules-29-06054-sch001.jpg

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含氨基膦酸酯基团的丙烯腈-二乙烯基苯聚合物载体的化学修饰及其抗菌活性测试

Chemical Modification of Acrylonitrile-Divinylbenzene Polymer Supports with Aminophosphonate Groups and Their Antibacterial Activity Testing.

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