| In vitro Analysis of Ubiquitin-like Protein Modification in Archaea
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Author:
Date:
2018-05-20
[Abstract] The ubiquitin-like (Ubl) protein is widely distributed in Archaea and involved in many cellular pathways. A well-established method to reconstitute archaeal Ubl protein conjugation in vitro is important to better understand the process of archaeal Ubl protein modification. This protocol describes the in vitro reconstitution of Ubl protein modification and following analysis of this modification in Haloferax volcanii, a halophilic archaeon serving as the model organism.
[摘要] 泛素样(Ubl)蛋白广泛分布于古细菌中并参与许多细胞途径。 为了更好地理解古细菌Ub1蛋白质修饰的过程,重建体外古细菌Ubl蛋白质缀合物的完善方法是很重要的。 该协议描述了Ubl蛋白质修饰的体外重建以及在作为模型生物的嗜盐古细菌Haloferax volcanii 中对这种修饰进行分析。
【背景】泛素(Ub)与靶蛋白共价连接的过程被称为泛素化,其控制真核细胞中大量的细胞过程(Glickman和Ciechanover,2002; Komander和Rape,2012)。遍在蛋白化由一系列酶(包括Ub激活酶(E1),Ub结合酶(E2s)和Ub连接酶(E3s))催化。泛素化的体外重建是确定酶之间或E3与蛋白质底物之间特异性的有用测定法(Zhao等人,2012)。在古细菌中,Ubl蛋白SAMP采用Ub折叠,并且与E1样酶UbaA催化的蛋白靶标异肽连接[Maupin-Furlow,(2014)综述]。尽管E1同系物在古细菌中广泛存在,但基于一级序列比较,在大多数古细菌中未预测经典E2或E3酶。我们最近对Haloferax volcanii的研究表明甲硫氨酸亚砜还原酶A(MsrA)是Ubl蛋白质修饰(sampylation)与UbaA一起在体内温和的氧化条件下和< (体外)(fu="">
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| Guanine Nucleotide Exchange Assay Using Fluorescent MANT-GDP
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Author:
Date:
2018-04-05
[Abstract] GTPases are molecular switches that cycle between the inactive GDP-bound state and the active GTP-bound state. GTPases exchange nucleotides either by its intrinsic nucleotide exchange or by interaction with guanine nucleotide exchange factors (GEFs). Monitoring the nucleotide exchange in vitro, together with reconstitution of direct interactions with regulatory proteins, provides key insights into how a GTPase is activated. In this protocol, we describe core methods to monitor nucleotide exchange using fluorescent N-Methylanthraniloyl (MANT)-guanine nucleotide.
[摘要] GTP酶是分子开关,在无效GDP结合状态和活性GTP结合状态之间循环。 GTP酶通过其内在的核苷酸交换或通过与鸟嘌呤核苷酸交换因子(GEF)的相互作用来交换核苷酸。 监测体外核苷酸交换,以及与调节蛋白直接相互作用的重构,为GTP酶如何被激活提供了重要见解。 在该协议中,我们描述了使用荧光N-甲基呋喃酰基(MANT) - 鸟嘌呤核苷酸来监测核苷酸交换的核心方法。
【背景】GTPase是鸟嘌呤核苷酸结合蛋白,调节细胞过程的广度,从蛋白质生物合成到细胞周期进展,从细胞骨架重组到膜运输。 GTPases可以被认为是分子开关,它在GDP结合“关闭”状态和GTP结合“开启”状态之间循环;在通过GTP的GDP核苷酸交换结合GTP时,GTP酶变得活跃并且将结合下游效应蛋白以招募和激活这些效应子的生物学功能。 GTP酶通过与开关I环(G2结构域)的高度保守苏氨酸和开关II环(G3结构域)的DxxG基序内的甘氨酸的相互作用结合GTP的γ-磷酸。 GTP水解后,与γ-磷酸相互作用的丧失导致动态构象变化,从而使GTPase变为关闭状态(Vetter and ...
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| RNA Cap Methyltransferase Activity Assay
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Author:
Date:
2018-03-20
[Abstract] Methyltransferases that methylate the guanine-N7 position of the mRNA 5’ cap structure are ubiquitous among eukaryotes and commonly encoded by viruses. Here we provide a detailed protocol for the biochemical analysis of RNA cap methyltransferase activity of biological samples. This assay involves incubation of cap-methyltransferase-containing samples with a [32P]G-capped RNA substrate and S-adenosylmethionine (SAM) to produce RNAs with N7-methylated caps. The extent of cap methylation is then determined by P1 nuclease digestion, thin-layer chromatography (TLC), and phosphorimaging. ...
[摘要] 甲基化mRNA 5'帽结构的鸟嘌呤-N7位置的甲基转移酶在真核生物中普遍存在并且通常由病毒编码。这里我们提供生物样品的RNA帽甲基转移酶活性的生化分析的详细方案。该测定包括将含有帽 - 甲基转移酶的样品与[32 P] G-加帽的RNA底物和S-腺苷甲硫氨酸(SAM)温育以产生具有N7-甲基化帽的RNA。然后通过P1核酸酶消化,薄层色谱(TLC)和磷成像确定帽甲基化的程度。此处描述的方案包括用于产生[32 P] G-加帽的RNA底物和用于从哺乳动物细胞制备核和细胞质提取物的附加步骤。该分析也适用于分析其他生物样品(包括重组蛋白制剂和来自分析分离和免疫沉淀/下拉实验的级分)的帽甲基转移酶活性。
【背景】mRNA的5'端的N7-甲基鸟苷帽是适当的真核mRNA加工,定位和翻译所必需的修饰。 ...
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