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Chemical Stabilization of Unnatural Nucleotide Triphosphates for the in Vivo Expansion of the Genetic Alphabet.非天然核苷酸三磷酸的化学稳定化用于体内遗传密码子的扩展。
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Functional interplay between NTP leaving group and base pair recognition during RNA polymerase II nucleotide incorporation revealed by methylene substitution.通过亚甲基取代揭示RNA聚合酶II核苷酸掺入过程中NTP离去基团与碱基对识别之间的功能相互作用。
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An overview of heavy-atom derivatization of protein crystals.蛋白质晶体的重原子衍生化概述。
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Comprehensive characterization of the Published Kinase Inhibitor Set.全面表征已发表的激酶抑制剂集。
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Two Scaffolds from Two Flips: (α,β)/(β,γ) CH2/NH "Met-Im" Analogues of dTTP.两次翻转产生的两种支架结构:dTTP的(α,β)/(β,γ) CH2/NH “甲硫氨酸-异亮氨酸”类似物
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5'-β,γ-CHF-ATP diastereomers: synthesis and fluorine-mediated selective binding by c-Src protein kinase.5'-β,γ-环已基氟代-ATP非对映异构体:合成及通过c-Src蛋白激酶的氟介导选择性结合
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Effect of β,γ-CHF- and β,γ-CHCl-dGTP halogen atom stereochemistry on the transition state of DNA polymerase β.β,γ-CHF-和β,γ-CHCl-dGTP 卤原子立体化学对 DNA 聚合酶 β 过渡态的影响。
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10
β,γ-CHF- and β,γ-CHCl-dGTP diastereomers: synthesis, discrete 31P NMR signatures, and absolute configurations of new stereochemical probes for DNA polymerases.β,γ-CHF- 和 β,γ-CHCl-dGTP 非对映异构体:新型 DNA 聚合酶立体化学探针的合成、离散 31P NMR 特征和绝对构型。
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令人瞩目的蛋白激酶对 ATP α,β-卤代亚甲基类似物的立体特异性利用。

Remarkably Stereospecific Utilization of ATP α,β-Halomethylene Analogues by Protein Kinases.

机构信息

Department of Chemistry, University of Southern California , Los Angeles, California 90089, United States.

Loker Hydrocarbon Research Institute, University of Southern California , Los Angeles, California 90089, United States.

出版信息

J Am Chem Soc. 2017 Jun 14;139(23):7701-7704. doi: 10.1021/jacs.7b03266. Epub 2017 Jun 2.

DOI:10.1021/jacs.7b03266
PMID:28535041
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5541949/
Abstract

ATP analogues containing a CXY group in place of the α,β-bridging oxygen atom are powerful chemical probes for studying ATP-dependent enzymes. A limitation of such probes has been that conventional synthetic methods generate a mixture of diastereomers when the bridging carbon substitution is nonequivalent (X ≠ Y). We report here a novel method based on derivatization of a bisphosphonate precursor with a d-phenylglycine chiral auxiliary that enables preparation of the individual diastereomers of α,β-CHF-ATP and α,β-CHCl-ATP, which differ only in the configuration at the CHX carbon. When tested on a dozen divergent protein kinases, these individual diastereomers exhibit remarkable diastereospecificity (up to over 1000-fold) in utilization by the enzymes. This high selectivity can be exploited in an enzymatic approach to obtain the otherwise inaccessible diastereomers of α,β-CHBr-ATP. The crystal structure of a tyrosine kinase Src bound to α,β-CHX-ADP establishes the absolute configuration of the CHX carbon and helps clarify the origin of the remarkable diastereospecificity observed. We further synthesized the individual diastereomers of α,β-CHF-γ-thiol-ATP and demonstrated their utility in labeling a wide spectrum of kinase substrates. The novel ATP substrate analogues afforded by these two complementary strategies should have broad application in the study of the structure and function of ATP-dependent enzymes.

摘要

含有 CXY 基团取代α,β-桥氧原子的 ATP 类似物是研究 ATP 依赖性酶的有力化学探针。这类探针的一个局限性是,当桥接碳原子取代不等效时(X ≠ Y),常规合成方法会生成非对映异构体混合物。我们在这里报告了一种基于膦酸酯前体与 d-苯甘氨酸手性辅基衍生化的新方法,该方法可制备α,β-CHF-ATP 和 α,β-CHCl-ATP 的单个非对映异构体,它们仅在 CHX 碳原子的构型上有所不同。当在十几个不同的蛋白激酶上进行测试时,这些单个非对映异构体在被酶利用时表现出显著的对映体选择性(高达 1000 倍以上)。这种高选择性可用于酶法获得 otherwise inaccessible 的 α,β-CHBr-ATP 的非对映异构体。与酪氨酸激酶Src 结合的α,β-CHX-ADP 的晶体结构确定了 CHX 碳原子的绝对构型,并有助于阐明观察到的显著对映体选择性的起源。我们进一步合成了α,β-CHF-γ-硫醇-ATP 的单个非对映异构体,并证明了它们在标记广泛的激酶底物中的用途。这两种互补策略提供的新型 ATP 底物类似物应该在研究 ATP 依赖性酶的结构和功能方面有广泛的应用。