Microbial toxicity mechanism of copper-8-quinolinolate

Dickson L. S. Liu, R. Maguire, G. J. Pacepavlcius, J. Carey
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引用次数: 3

Abstract

Sapstain, an abnormal discoloration in wood caused by microbial growth, can significantly lower the price of a lumber and thus fresh sawn softwood lumber of a susceptible species is often treated with a biocide such as pentachlorophenol (PCP) to prevent the development of sapstain during shipping and prolonged storage. Very recently, chlorophenol-based antisapstain agents have been banned in Canada, because of environmental toxicity. The purpose of this study was to elucidate the microbial toxicity mechanism of the copper salts of 8-quinolinolate (Cu-8-HQ), one of the replacement chemicals for PCP in sapstain control. The results revealed that the biocidal activity of Cu-8-HQ originates from a stable metal (copper) chelate and that the molecular integrity of the chelate is most critical in the expression of its toxicity potential. The chelating power of 8-hydroxyquinoline for trace metals was not found to be directly responsible for the biocidal activity of Cu-8-HQ as suggested in the literature. The anion groups were found to have no significant impact on the biocidal activity of Cu-8-HQ, which has been observed with other organometallic compounds. © 1994 by John Wiley & Sons, Inc..
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8-喹啉酸铜的微生物毒性机制
Sapstain是一种由微生物生长引起的木材异常变色,可以显著降低木材的价格,因此新鲜的易受细菌感染的针叶木材通常用杀菌剂处理,如五氯酚(PCP),以防止在运输和长期储存过程中产生Sapstain。最近,以氯酚为基础的抗变色剂在加拿大被禁止使用,因为它对环境有毒性。本研究的目的是阐明8-喹啉酸铜盐(Cu-8-HQ)的微生物毒性机制,8-喹啉酸铜盐是一种用于皂化控制的替代化学品。结果表明,Cu-8-HQ的杀灭活性来源于一种稳定的金属(铜)螯合物,螯合物的分子完整性是其毒性潜能表达的关键。8-羟基喹啉对微量金属的螯合能力与Cu-8-HQ的杀灭活性并不是文献所认为的直接关系。阴离子基团对Cu-8-HQ的杀生活性没有显著影响,这与其他有机金属化合物的杀生活性相同。©1994 by John Wiley & Sons, Inc.。
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