| Preparation of Yeast tRNA Sample for NMR Spectroscopy
|
|
Author:
Date:
2020-06-20
[Abstract] Transfer RNAs (tRNAs) are heavily decorated with post-transcriptional modifications during their biosynthesis. To fulfil their functions within cells, tRNAs undergo a tightly controlled biogenesis process leading to the formation of mature tRNAs. In addition, functions of tRNAs are often modulated by their modifications. Although the biological importance of post-transcriptional RNA modifications is widely appreciated, methods to directly detect their introduction during RNA biosynthesis are rare and do not easily provide information on the temporal nature of events. To obtain information on the tRNA maturation process, we have developed a methodology, using NMR as a tool to monitor tRNA maturation in a non-disruptive and continuous fashion in cellular extracts. By following the ...
[摘要] [摘要 ] 转移RNA(tRNA )在其生物合成过程中大量修饰有转录后修饰。为了在细胞内履行其功能,tRNA 经历了严格控制的生物生成过程,导致了成熟的tRNA 的形成。此外,tRNA的功能通常是虽然转录后修饰RNA的生物学重要性被广泛理解,方法直接检测它们的RNA生物合成过程中引入是罕见的,并且不容易提供上events.To的时间特性信息获取的信息的tRNA 成熟 在此过程中,我们开发了一种方法,使用NMR作为监测细胞提取物中tRNA 成熟的无中断和连续方式。通过模型酵母tRNA 的时间分辨NMR 成熟,我们发现修饰是该方法的实施需要对具有不同修饰状态的tRNA 样品进行NMR光谱学分析,以鉴定各个修饰的NMR特征。此处将介绍用于NMR光谱分析修饰途径的tRNA 样品的生产,并在酵母tRNA Phe 上进行例证,但可以通过更改构建体的序列扩展到其他tRNA 。该方案描述了未修饰的生产通过体外转录获得tRNA 样品,并通过在大肠杆菌中重组表达tRNA 产生修饰的tRNA 样品。大肠杆菌。
[背景 ] 在生活的各个领域,合成和RNA的成熟包括在特定地点的核苷酸的转录后的化学修饰。在不同的RNA家族,tRNA基因不仅显示最高多种化学修饰,而且密度最高每转录修饰(〜中经修饰的核苷酸8-25%的tRNA 各种生物体的)(Boccaletto ...
|
|
|
| Visualization of RNA 3’ ends in Escherichia coli Using 3’ RACE Combined with Primer Extension
|
|
Author:
Date:
2018-03-05
[Abstract] In this assay, 3’ RACE (Rapid Amplification of cDNA 3’ Ends) followed by PE (primer extension), abbreviated as 3’ RACE-PE is used to identify the mRNA 3’ ends. The following protocol describes the amplification of the mRNA 3’ ends at the galactose operon in E. coli and the corresponding visualization of the PCR products through PE. In PE, the definite primer is 5’ end-labeled using [γ-(32) P] ATP and T4 polynucleotide kinase, which anneals to the specific DNA molecules within the PCR product of the 3’ RACE. The conventional PE can only be used to locate the 5’ end of an mRNA transcript since reverse transcriptase (RTase) polymerizes only in the 5’ → 3’ direction. Thus, Taq polymerase is used instead of RTase, PCR is performed. Therefore, we are able to locate the 3’ end of the ...
[摘要] 在该测定中,使用缩写为3'RACE-PE的3'RACE(cDNA3'末端快速扩增),随后是PE(引物延伸),以鉴定mRNA3'末端。以下方案描述E中半乳糖操纵子的mRNA 3'末端的扩增。并通过PE对相应的PCR产物进行可视化。在PE中,使用[γ-(32)P] ATP和T4多核苷酸激酶对确定的引物进行5'末端标记,其退火至3'RACE的PCR产物内的特定DNA分子。由于逆转录酶(RTase)仅在5'→3'方向聚合,常规PE只能用于定位mRNA转录物的5'末端。因此,使用Taq聚合酶代替RTase,进行PCR。因此,我们能够使用此测定法定位mRNA的3'末端。通过在变性8%尿素-PAGE(聚丙烯酰胺凝胶电泳)凝胶中分离DNA产物,可以直接显示和定量3'末端的相对量。 3'末端的确切位置可以通过比较这些最终的DNA产物与相应的DNA测序阶梯进行测序。
【背景】mRNA 3'末端的合成是E中的重要步骤。产生稳定的信使RNA(mRNA)的大肠杆菌。在真核细胞中,mRNA 3'末端形成是通过从内部磷酸二酯键切割,然后加入聚(A)尾;而在原核细胞中,通过终止转录或通过加工初级转录产生mRNA的3'末端(Altman和Robertson,1973; Nudler和Gottesman,2002; Zhao等人,1999年)。因此,分析mRNA ...
|
|
|
| Measuring Nucleosome Assembly Activity in vitro with the Nucleosome Assembly and Quantification (NAQ) Assay
|
|
Author:
Date:
2018-02-05
[Abstract] Nucleosomes organize the eukaryotic genome into chromatin. In cells, nucleosome assembly relies on the activity of histone chaperones, proteins with high binding affinity to histones. At least a subset of histone chaperones promotes histone deposition in vivo. However, it has been challenging to characterize this activity, due to the lack of quantitative assays.
Here we developed a quantitative nucleosome assembly (NAQ) assay to measure the amount of nucleosome formation in vitro. This assay relies on a Micrococcal nuclease (MNase) digestion step that yields DNA fragments protected by the deposited histone proteins. A subsequent run on the Bioanalyzer machine allows the accurate quantification of the fragments (length and amount), relative to a loading ...
[摘要] 核小体将真核生物基因组组装成染色质。在细胞中,核小体装配依赖于组蛋白分子伴侣的活性,对组蛋白具有高结合亲和力的蛋白。至少有一部分组蛋白伴侣促进组蛋白在体内的沉积。然而,由于缺乏定量分析,鉴定这种活性一直是一个挑战。
在这里,我们开发了一种定量核小体装配(NAQ)测定来测量体外核小体形成的量。该测定依赖于微球菌核酸酶(MNase)。随后在生物分析仪上运行,可以准确量化相对于加样对照的片段(长度和数量)。这使我们能够测量约150bp的DNA长度。该测定最终实现了不同组蛋白分子伴侣的核小体装配活性的表征,这是理解这些蛋白体内功能作用的一个步骤。
【背景】真核生物基因组被组织成核小体。核小体是由组蛋白八聚体核心组成的模块化和动态结构,由147bp的DNA包裹(Luger等人,1997)。核小体组装始于一个(H3-H4)2四聚体沉积到DNA上以形成四体体。随后的H2A-H2B二聚体结合形成六聚体,最后形成核小体。组蛋白高度带电,因为它们以生理盐浓度存在于组蛋白二聚体中。由于它们的作用,组蛋白需要分子伴侣将它们从细胞质穿梭到细胞核,然后辅助它们沉积到DNA上或从DNA上去除(Gurard-Levin等人,2014)。
组蛋白分子伴侣分组在结构上不相关的蛋白质家族中,所有这些蛋白质的特征在于对组蛋白的高度结合亲和力(Laskey等,1978)。通过这种方式,他们屏蔽了组蛋白的电荷,阻止了与DNA和其他细胞因子的非特异性相互作用(Elsässerand ...
|
|
|