Microwave-Induced Synthesis of Bioactive Nitrogen Heterocycles.

IF 2.9 4区 医学 Q3 CHEMISTRY, MEDICINAL
Aparna Das, Devalina Ray, Muhammad Waqar Ashraf, Bimal Krishna Banik
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引用次数: 0

Abstract

There are many different applications of heterocyclic molecules in the pharmaceutical and materials science fields, which make them an important family of compounds. Among these heterocyclic compounds, nitrogen-containing heterocyclic (N-heterocyclic) compounds have attracted a lot of interest among researchers due to their various applications across a wide variety of fields. Many studies have been performed over the past few years to study the synthesis of N-heterocycles under different reaction conditions, such as solvent-free, catalytic, reactants immobilized on a solid support, one-pot synthesis, and microwave irradiation. It has been demonstrated by our research group that microwaves can be utilized for rapid and efficient synthesis of biologically active compounds. In this review, we provide an overview of the microwave-assisted non-catalytic and catalytic preparation of nitrogen-containing heterocycles, mostly polycyclic N-heterocycles, five-membered N-heterocycles, six-membered N-heterocycles, and fused N-heterocycles. Mostly in this article, we explore the microwave-assisted preparation of biologically important compounds, such as pyrimidines, thiazoles, imines, tetrazoles, steroidal derivatives, quinolines, indolizine, triazoles, beta-lactams, pyrroles and quinoxalines.

微波诱导合成具有生物活性的氮杂环。
杂环分子在制药和材料科学领域有许多不同的应用,因此是一个重要的化合物家族。在这些杂环化合物中,含氮杂环(N-杂环)化合物因其在各个领域的广泛应用而引起了研究人员的浓厚兴趣。在过去的几年中,许多研究人员对不同反应条件下合成 N-杂环化合物进行了研究,如无溶剂、催化、反应物固定在固体支持物上、一锅合成和微波辐照等。我们的研究小组已经证明,微波可用于快速高效地合成具有生物活性的化合物。在这篇综述中,我们概述了微波辅助非催化和催化制备含氮杂环的方法,主要包括多环 N-杂环、五元 N-杂环、六元 N-杂环和融合 N-杂环。本文主要探讨了微波辅助制备具有重要生物学意义的化合物,如嘧啶类、噻唑类、亚胺类、四唑类、甾体衍生物类、喹啉类、吲哚利嗪类、三唑类、β-内酰胺类、吡咯类和喹喔啉类。
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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来源期刊
CiteScore
6.40
自引率
2.90%
发文量
186
审稿时长
3-8 weeks
期刊介绍: Current Topics in Medicinal Chemistry is a forum for the review of areas of keen and topical interest to medicinal chemists and others in the allied disciplines. Each issue is solely devoted to a specific topic, containing six to nine reviews, which provide the reader a comprehensive survey of that area. A Guest Editor who is an expert in the topic under review, will assemble each issue. The scope of Current Topics in Medicinal Chemistry will cover all areas of medicinal chemistry, including current developments in rational drug design, synthetic chemistry, bioorganic chemistry, high-throughput screening, combinatorial chemistry, compound diversity measurements, drug absorption, drug distribution, metabolism, new and emerging drug targets, natural products, pharmacogenomics, and structure-activity relationships. Medicinal chemistry is a rapidly maturing discipline. The study of how structure and function are related is absolutely essential to understanding the molecular basis of life. Current Topics in Medicinal Chemistry aims to contribute to the growth of scientific knowledge and insight, and facilitate the discovery and development of new therapeutic agents to treat debilitating human disorders. The journal is essential for every medicinal chemist who wishes to be kept informed and up-to-date with the latest and most important advances.
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