Toward a high-throughput screening platform for directed evolution of enzymes that activate genotoxic prodrugs

J.N.Copp; E.M.Williams; M.H.Rich; A.V.Patterson; J.B.Smaill D.F. Ackerley

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Toward a high-throughput screening platform for directed evolution of enzymes that activate genotoxic prodrugs

机译：朝向高通量筛选平台，用于激活遗传毒性前药的酶的定向演变

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Engineering of enzymes to more efficiently activate genotoxic prodrugs holds great potential for improving antican-cer gene or antibody therapies. We report the development of a new, GFP-based, high-throughput screening platform to enable engineering of prodrug-activating enzymes by directed evolution. By fusing an inducible SOS promoter to an engineered GFP reporter gene, we were able to measure levels of DNA damage in intact Escherichia coli and separate cell populations by fluorescence activating cell sorting (FACS). In two FACS iterations, we were able to achieve a 90 000-fold enrichment of a functional prodrug-activating nitroreductase from a null library background.

机译：更有效地激活遗传毒性前药的酶工程具有改善抗癌基因或抗体疗法的巨大潜力。我们报告了一种新的GFP基础，高吞吐量筛选平台的开发，以便通过定向演进来实现前药激活酶的工程。通过将诱导的SOS启动子融为于工程化的GFP报告基因，我们能够通过荧光激活细胞分选（FACS）测量完整的大肠杆菌和单独的细胞群中的DNA损伤水平。在两个FACS迭代中，我们能够从空写库背景中达到功能性前药激活硝化酶的90 000倍的富集。

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来源
《Protein engineering design & selection: PEDS》 |2014年第10期|共5页
作者
J.N.Copp; E.M.Williams; M.H.Rich; A.V.Patterson; J.B.Smaill D.F. Ackerley;
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作者单位

School of Biological Sciences Victoria University of Wellington Wellington 6012 New Zealand;

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原文格式 PDF
正文语种 eng
中图分类蛋白质（朊）化学加工工业;
关键词
ADEPT; GDEPT; SOS response; YcnD; YdjA;

机译：擅长;GDEPT;SOS反应;YCND;YDJA;

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专利

1. Toward a high-throughput screening platform for directed evolution of enzymes that activate genotoxic prodrugs [J] . J.N.Copp, E.M.Williams, M.H.Rich, Protein engineering design & selection: PEDS . 2014,第9a10期

机译：建立高通量筛选平台，以指导激活遗传毒性前药的酶的定向进化
2. Toward a high-throughput screening platform for directed evolution of enzymes that activate genotoxic prodrugs [J] . J.N.Copp, E.M.Williams, M.H.Rich, Protein engineering design & selection: PEDS . 2014,第9a10期

机译：建立高通量筛选平台，以指导激活遗传毒性前药的酶的定向进化
3. Toward a high-throughput screening platform for directed evolution of enzymes that activate genotoxic prodrugs [J] . J.N.Copp, E.M.Williams, M.H.Rich, Protein engineering design & selection: PEDS . 2014,第9a10期

机译：朝向高通量筛选平台，用于激活遗传毒性前药的酶的定向演变
4. High-throughput screening methods for directed enzyme evolution:Focus on Microbial display [C] . China-Japan-Korea Joint Symposium on Enzyme Engineering . 2004

机译：高通量筛选可指导酶进化的方法：微生物展示的重点
5. Electrochemical and electrochemiluminescent genotoxicity screening using DNA-enzyme based sensors. [D] . So, Minjeong. 2008

机译：使用基于DNA酶的传感器进行电化学和电化学发光遗传毒性筛选。
6. The Flavin Reductase MsuE Is a Novel Nitroreductase that Can Efficiently Activate Two Promising Next-Generation Prodrugs for Gene-Directed Enzyme Prodrug Therapy [O] . Laura K. Green, Mathew A. Storey, Elsie M. Williams, 2013

机译：黄素还原酶MsuE是一种新型的硝基还原酶可以有效激活两种有前途的下一代前药用于基因导向的酶前药治疗。
7. Toward a high-throughput screening platform for directed evolution of enzymes that activate genotoxic prodrugs [O] . J.N. Copp, E.M. Williams, M.H. Rich, 2014

机译：朝向激活遗传毒性前药的酶的定向演化的高通量筛选平台

Toward a high-throughput screening platform for directed evolution of enzymes that activate genotoxic prodrugs

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