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Chemical Specificity of the PDR5 Multidrug Resistance Gene Product of Saccharomyces cerevisiae Based on Studies with Tri-n-Alkyltin Chlorides

机译：基于氯化三正烷基锡的研究啤酒酵母PDR5多药耐药基因产物的化学特异性

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To understand the chemical basis of action for the PDR5-encoded multidrug resistance transporter of Saccharomyces cerevisiae, we compared the relative hypersensitivities of the wild-type (RW2802) and null mutant strains toward a series of tri-n-alkyltin compounds. These compounds differ from each other in a systematic fashion—either by hydrocarbon chain length or by anion composition. Using zone-of-inhibition and fixed-concentration assays, we found that the ethyl, propyl, and butyl compounds are strong PDR5 substrates, whereas the methyl and pentyl compounds are weak. We conclude that hydrophobicity and anion makeup are relatively unimportant factors in determining whether a tri-n-alkyltin compound is a good PDR5 substrate but that the dissociation of the compound and the molecular size are significant.

机译：为了了解啤酒酵母的PDR5编码的多药耐药转运蛋白的化学作用基础，我们比较了野生型（RW2802）和无效突变株对一系列三正烷基锡化合物的相对超敏性。这些化合物以系统的方式彼此不同-烃链长度或阴离子组成不同。使用抑制区和固定浓度分析，我们发现乙基，丙基和丁基化合物是强PDR5底物，而甲基和戊基化合物则弱。我们得出结论，在确定三正烷基锡化合物是否是良好的PDR5底物时，疏水性和阴离子组成是相对不重要的因素，但是该化合物的解离和分子大小非常重要。

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期刊名称 Antimicrobial Agents and Chemotherapy
作者
John Golin; Alisa Barkatt; Susan Cronin; George Eng; Leopold May;
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年(卷),期 2000(44),1
年度 2000
页码 134–138
总页数 5
原文格式 PDF
正文语种
中图分类药学;微生物学;
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1. Chemical specificity of the PDR5 multidrug resistance gene product of Saccharomyces cerevisiae based on studies with tri-n-alkyltin chlorides. [J] . Golin J, Barkatt A, Cronin S, Antimicrobial agents and chemotherapy. . 2000,第1期

机译：基于三正烷基锡氯化物的研究，酿酒酵母的PDR5多药耐药基因产物的化学特异性。
2. Robust, pleiotropic drug resistance 5 (Pdr5)-mediated multidrug resistance is vigorously maintained in Saccharomyces cerevisiae cells during glucose and nitrogen limitation [J] . Rahman Hadiar, Carneglia Joshua, Lausten Molly, FEMS Yeast Research . 2018,第4期

机译：在葡萄糖和氮气限制期间剧烈地维持在葡萄糖和氮气限制期间剧烈地维持在酿酒酵母细胞中的鲁棒耐药5（PDR5）介导的多药耐药性
3. Robust, pleiotropic drug resistance 5 (Pdr5)-mediated multidrug resistance is vigorously maintained in Saccharomyces cerevisiae cells during glucose and nitrogen limitation [J] . Rahman Hadiar, Carneglia Joshua, Lausten Molly, FEMS Yeast Research . 2018,第4期

机译：在葡萄糖和氮气限制期间剧烈地维持在葡萄糖和氮气限制期间剧烈地维持在酿酒酵母细胞中的鲁棒耐药5（PDR5）介导的多药耐药性
4. Correlation between transcription levels of mitochondria! hsp genes and resistance to stuck fermentation in wine strains of Saccharomyces cerevisiae [C] . ZARA Giacomo, ZARA Severino, MANNAZZU Ilaria, Microbial diversity 2011 : environmental stress and adaptation . 2011

机译：线粒体转录水平之间的相关性！酿酒酵母葡萄酒菌株中的热休克蛋白基因和对卡滞发酵的抗性
5. Biochemical and genetic studies of mitochondrial protein synthesis in Saccharomyces cerevisiae: Characterization of the AEP3 and TRM5 gene products [D] . Lee, Changkeun 2008

机译：酿酒酵母中线粒体蛋白质合成的生化和遗传研究：AEP3和TRM5基因产物的表征。
6. Robust pleiotropic drug resistance 5 (Pdr5)-mediated multidrug resistance is vigorously maintained in Saccharomyces cerevisiae cells during glucose and nitrogen limitation [O] . Hadiar Rahman, Joshua Carneglia, Molly Lausten, -1

机译：在葡萄糖和氮限制期间酿酒酵母细胞中强烈维持了多效耐药5（Pdr5）介导的多药耐药性
7. Chemical Specificity of the PDR5 Multidrug Resistance Gene Product of Saccharomyces cerevisiae Based on Studies with Tri-n-Alkyltin Chlorides [O] . Golin, John, Barkatt, Alisa, Cronin, Susan, 2000

机译：基于三正烷基锡氯化物研究的啤酒酵母PDR5多药耐药基因产物的化学特异性

Chemical Specificity of the PDR5 Multidrug Resistance Gene Product of Saccharomyces cerevisiae Based on Studies with Tri-n-Alkyltin Chlorides

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