抗真菌双（苯并氧杂硼杂环戊烷）的机械化学合成

Mechanochemical synthesis of antifungal bis(benzoxaboroles).

作者信息

Borys Krzysztof M, Wieczorek Dorota, Tarkowska Magdalena, Jankowska Agnieszka, Lipok Jacek, Adamczyk-Woźniak Agnieszka

机构信息

Faculty of Chemistry, Warsaw University of Technology Noakowskiego 3 00-664 Warsaw Poland

Faculty of Chemistry, University of Opole Oleska 48 45-052 Opole Poland.

出版信息

RSC Adv. 2020 Oct 7;10(61):37187-37193. doi: 10.1039/d0ra07767d.

DOI:10.1039/d0ra07767d

PMID:35521242

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9057134/

Abstract

Several piperazine bis(benzoxaboroles) have been obtained both in solution as well as in the solid state. The environmentally friendly mechanochemical approach - hitherto not applied for the preparation of benzoxaboroles - was particularly beneficial in the case of two products afforded in low yields in solution. The studies showed high potential of the studied bis(fluorobenzoxaboroles) as antifungal agents, highlighting also the influence of the fluorine substituent position on their microbiological activity. The highest activity against , , , and was displayed by the analogue of the known benzoxaborole antifungal drug Kerydin® (Tavaborole).

摘要

已经在溶液中和固态下获得了几种哌嗪双（苯并氧杂硼唑）。环境友好的机械化学方法——迄今为止尚未应用于苯并氧杂硼唑的制备——对于溶液中低产率得到的两种产物而言特别有益。研究表明，所研究的双（氟苯并氧杂硼唑）作为抗真菌剂具有很高的潜力，同时也突出了氟取代基位置对其微生物活性的影响。已知的苯并氧杂硼唑抗真菌药物Kerydin®（他氟硼酸盐）的类似物对须发癣菌、红色毛癣菌、石膏样小孢子菌、絮状表皮癣菌和犬小孢子菌表现出最高活性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e93e/9057134/39a0015e8de8/d0ra07767d-f1.jpg

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抗真菌双（苯并氧杂硼杂环戊烷）的机械化学合成

Mechanochemical synthesis of antifungal bis(benzoxaboroles).

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