Synthesis of substituted pyrrolo[2,3-d]pyrimidines and pyrido[2,3-d]pyrimidines in the one-pot condensation of 2-thio-6-aminouracil, arylglyoxals and CH-acids

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Abstract

We have developed some available and effective methods for the synthesis of substituted pyrrolo[2,3-d]pyrimidines and 5,8-dihydropyrido[2,3-d]pyrimidines based on the three-component condensation of 6-amino-2-thiouracil with arylglyoxal hydrates and N,N-dimethylbarbituric acid or acyclic β-dicarbonyl compounds: acetylacetone (acetoacetic ester). It was shown that the optimal product yields were obtained by boiling the reagents in acetic acid. Thus, the synthesis of pyrrolo[2,3-d]pyrimidines took 15-20 minutes, while the precipitation of 5,8‑dihydropyrido[2,3-d]pyrimidines formed only after 2 hours. We proposed possible mechanisms for the formation of anelated pyrrole and pyridine rings. In both cases, the reaction includes the formation of an intermediate of α,β-unsaturated ketone with the participation of arylglyoxal and CH-acid (N,N-dimethylbarbituric or acetylacetone (acetoacetic ester)), nucleophilic addition of 6-aminothiouracil via an activated double bond, condensation of carbonyl and amino groups. The formation of the cycle takes place exclusively with the participation of the acetyl moiety, while the pyrrol one forms during the condensation of the aroyl moiety and the 6-amino group of thiouracil. A series of synthesized pyrrolo[2,3-d]pyrimidines was modified by alkylation. As it was expected, alkylation proceeds at the sulfur atom, that allowed a significant increase in the solubility of the obtained products. The reaction was carried out in DMF by stirring the initial reagents at 60ºC (reaction with methyl iodide) or boiling them (alkylation with phenacyl bromide), whereby S-methyl and S-phenacyl derivatives of pyrrolo[2,3-d]pyrimidines were obtained. The spectral data of 1H NMR showed that S-methylation products form solvates with DMF as 1:1. The synthesized compounds can become the basis to create small libraries of anelated pyrimidines with improved antiviral activity profile.
取代吡咯[2,3-d]嘧啶和吡啶[2,3-d]嘧啶在2-硫-6-氨基嘧啶、芳基乙二醛和ch -酸一锅缩合反应中的合成
我们在6-氨基-2-硫脲嘧啶与芳基乙二醛水合物和N,N-二甲基巴比妥酸或无环β-二羰基化合物乙酰丙酮(乙酰乙酸酯)的三组分缩合反应的基础上,开发了一些可行而有效的取代吡咯[2,3-d]嘧啶和5,8-二氢吡啶[2,3-d]嘧啶的合成方法。结果表明,在乙酸中煮沸可获得最佳产率。因此,吡咯[2,3-d]嘧啶的合成需要15-20分钟,而5,8 -二氢吡啶[2,3-d]嘧啶的沉淀只需要2小时。我们提出了相互关联的吡咯环和吡啶环形成的可能机制。在这两种情况下,反应包括在芳基乙二醛和ch -酸(N,N-二甲基巴比妥或乙酰丙酮(乙酰乙酸酯))的参与下形成α,β-不饱和酮的中间体,通过激活双键对6-氨基硫脲嘧啶的亲核加成,羰基和氨基的缩合。循环的形成完全是在乙酰基部分的参与下进行的,而吡rol则是在芳基部分和硫脲嘧啶的6-氨基的缩合过程中形成的。采用烷基化法对一系列合成的吡咯[2,3-d]嘧啶进行了改性。正如预期的那样,烷基化在硫原子处进行,这使得所得产物的溶解度显著增加。反应在DMF中进行,初始试剂在60℃下搅拌(与碘化甲酯反应)或煮沸(与苯那基溴烷基化),得到吡咯[2,3-d]嘧啶的s -甲基和s -苯那基衍生物。1H NMR光谱数据表明,s -甲基化产物与DMF形成1:1的溶剂化物。所合成的化合物可作为建立具有较好抗病毒活性的解离嘧啶小文库的基础。
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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