抗体催化碳-碳键形成。

D. Hilvert
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引用次数: 2

摘要

我们使用合理设计的过渡态类似物生成了催化两个重要碳-碳键形成反应的抗体:双分子Diels-Alder环加成反应和单分子Claisen重排反应。我们量身定制的免疫球蛋白催化剂(抗体酶)具有天然酶的所有特性,包括显著的速率加速、底物特异性以及高区域和立体选择性。由于第一代酶通常不如天然存在的酶,我们也采用经典的遗传选择策略来提高它们的化学效率。我们已经表达了一种抗体,在缺乏天然choris酸突变酶活性的酵母细胞中催化choris酸clisen重排。改进版本的抗酶将被识别,在随机突变之后,通过他们的能力来修复这种代谢缺陷。高效催化抗体的开发和研究有望推进我们对酶如何工作和进化,蛋白质功能如何与结构相关,以及如何创造全新的酶活性用于研究,工业和医学的理解。
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Antibody catalysis of carbon-carbon bond formation.
We have used rationally designed transition state analogues to generate antibodies that catalyse two important carbon-carbon bond forming reactions: a bimolecular Diels-Alder cycloaddition and a unimolecular Claisen rearrangement. Our tailored immunoglobulin catalysts (abzymes) exhibit all the properties of naturally occurring enzymes, including substantial rate accelerations, substrate specificity, and high regio- and stereoselectivity. As first generation abzymes are generally inferior to naturally occurring enzymes, we are also employing classical genetic selection strategies to augment their chemical efficiency. We have expressed the antibody that catalyses the Claisen rearrangement of chorismate in yeast cells that lack natural chorismate mutase activity. Improved versions of the abzyme will be identified, following random mutagenesis, by their ability to repair this metabolic defect. The development and study of highly efficient catalytic antibodies promises to advance our understanding of how enzymes work and evolve, how protein function correlates with structure, and how entirely new enzymic activities can be created for use in research, industry and medicine.
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