| Expression and Purification of Recombinant Skd3 (Human ClpB) Protein and Tobacco Etch Virus (TEV) Protease from Escherichia coli
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Author:
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2020-12-05
[Abstract] Skd3 (encoded by human CLPB) is a mitochondrial AAA+ protein comprised of an N-terminal ankyrin-repeat domain and a C-terminal HCLR-clade nucleotide-binding domain. The function of Skd3 has long remained unknown due to challenges in purifying the protein to high quality and near homogeneity. Recently we described Skd3 as a human mitochondrial protein disaggregase that solubilizes proteins in the mitochondrial intermembrane space. This protocol overcomes the challenges associated with purifying Skd3 and allows for in depth in vitro study of Skd3 activity. Tobacco etch virus (TEV) protease is required in the purification of Skd3. Thus, we also describe how to purify high quality TEV protease for use in the purification of Skd3, other purification protocols, and in vitro assays requiring TEV ...
[摘要] [摘要] Skd3(由人类CLPB编码)是一种线粒体AAA +蛋白,由N末端锚蛋白重复域和C末端HCLR分支核苷酸结合域组成。由于在纯化蛋白质达到高质量和接近均质性方面的挑战,Skd3的功能长期未知。最近,我们描述Skd3作为人类线粒体蛋白disaggregase ,在线粒体膜间间隙增溶蛋白。该协议克服了与纯化Skd3相关的挑战,并允许对Skd3活性进行深入的体外研究。Skd3的纯化需要烟草蚀刻病毒(TEV)蛋白酶。因此,我们还描述了如何净化高质量TEV蛋白酶可用于纯化Skd3,其他纯化方案以及需要TEV蛋白酶的体外测定。
[背景] Skd3是一种线粒体AAA +蛋白,与多系统线粒体疾病VII型3-甲基谷氨酸酸尿症(MGCA7)有关(Capo-Chichi等人,2015; Kanabus等人,2015; Saunders等人,, 2015; Wortmann等人,2015 ; Kiykim等人,2016 )。由于在体外研究Skd3的能力有限,因此对生物学功能和这些突变对Skd3活性的影响的研究仍难以捉摸(Cupo和Shorter,2020; ...
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| CRISPR/Cas9-mediated ssDNA Recombineering in Corynebacterium glutamicum
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Author:
Date:
2018-10-05
[Abstract] Corynebacterium glutamicum is a versatile workhorse for industrial bioproduction of many kinds of chemicals and fuels, notably amino acids. Development of advanced genetic engineering tools is urgently demanded for systems metabolic engineering of C. glutamicum. Recently unveiled clustered regularly interspaced short palindromic repeats (CRISPR) and their CRISPR-associated proteins (Cas) are now revolutionizing genome editing. The CRISPR/Cas9 system from Streptococcus pyogenes that utilizes NGG as protospacer adjacent motif (PAM) and has good targeting specificity can be developed into a powerful tool for efficient and precise genome editing of C. glutamicum. In this protocol, we described the general procedure for CRISPR/Cas9-mediated ssDNA ...
[摘要] 谷氨酸棒杆菌是多种化学品和燃料,特别是氨基酸的工业生物生产的多功能工具。 迫切需要开发先进的基因工程工具用于 C的系统代谢工程。谷氨酸。 最近推出的聚集的有规律的间隔短回文重复序列(CRISPR)和它们的CRISPR相关蛋白(Cas)现在正在彻底改变基因组编辑。 来自 Streptococcus pyogenes 的CRISPR / Cas9系统利用NGG作为原型间隔区相邻基序(PAM)并具有良好的靶向特异性,可以开发成为 C的高效和精确基因组编辑的有力工具。谷氨酸。 在该方案中,我们描述了 C中CRISPR / Cas9介导的ssDNA重组工程的一般程序。谷氨酸。 可以在 C中引入小的修改。 谷氨酸染色体,编辑效率高达90%。
【背景】革兰氏阳性土壤细菌 Corynebacterium glutamicum 是用于氨基酸,生物燃料和聚合物构建模块的工业生物生产的多功能工具(Becker et al。,2016)。在 C工程的早期阶段。谷氨酸,随机诱变结合对氨基酸类似物的表型抗性的阳性选择是最常用的策略(Vertes et al。,2005)。 C中的遗传操作。谷氨酸(glutamicum)于1984年启动,并成为菌株改良的关键促成策略(Ozaki et al。,1984)。常规使用的基因破坏和插入 ...
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| Heterologous Expression and Purification of the CRISPR-Cas12a/Cpf1 Protein
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Author:
Date:
2018-05-05
[Abstract] This protocol provides step by step instructions (Figure 1) for heterologous expression of Francisella novicida Cas12a (previously known as Cpf1) in Escherichia coli. It additionally includes a protocol for high-purity purification and briefly describes how activity assays can be performed. These protocols can also be used for purification of other Cas12a homologs and the purified proteins can be used for subsequent genome editing experiments.
Figure 1. Timeline of activities for the heterologous expression and purification of Francisella novicida Cas12a (FnCas12a) from Escherichia coli
[摘要] 该协议提供了分步说明(图1),用于在大肠杆菌中异源表达新西兰弗朗西斯菌弗朗西丝菌Cas12a(以前称为Cpf1)。 它还包括一个高纯度纯化方案,并简要介绍如何进行活性测定。 这些方案也可以用于其他Cas12a同系物的纯化,并且纯化的蛋白质可以用于随后的基因组编辑实验。
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图1.从大肠杆菌 异源表达和纯化<弗朗西斯弗朗西丝菌 Cas12a(FnCas12a)的活动时间表
【背景】原核CRISPR-Cas免疫系统通过使用CRISPR RNA(crRNA)作为外源DNA或RNA的序列特异性靶向的指导来提供针对病毒和质粒的保护(van der Oost等人,2014; Marraffini ,2015)。 1类CRISPR-Cas系统(包含I型,III型和IV型)通常形成多亚基蛋白-cRNA效应复合物,而2类系统(包含II型,V型和VI型)依赖于单个crRNA-引导的效应物核酸酶用于目标干扰(Mohanraju et al。 2016年)。
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