| Purifying Properly Folded Cysteine-rich, Zinc Finger Containing Recombinant Proteins for Structural Drug Targeting Studies: the CH1 Domain of p300 as a Case Example
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Author:
Date:
2017-09-05
[Abstract] The transcription factor Hypoxia-Inducible Factor (HIF) complexes with the coactivator p300, activating the hypoxia response pathway and allowing tumors to grow. The CH1 and CAD domains of each respective protein form the interface between p300 and HIF. Small molecule compounds are in development that target and inhibit HIF/p300 complex formation, with the goal of reducing tumor growth. High resolution NMR spectroscopy is necessary to study ligand interaction with p300-CH1, and purifying high quantities of properly folded p300-CH1 is needed for pursuing structural and biophysical studies. p300-CH1 has 3 zinc fingers and 9 cysteine residues, posing challenges associated with reagent compatibility and protein oxidation. A protocol has been developed to overcome such issues by incorporating ...
[摘要] 与共激活因子p300的转录因子缺氧诱导因子(HIF)复合物,激活缺氧反应途径并允许肿瘤生长。每个相应蛋白质的CH1和CAD结构域形成p300和HIF之间的界面。正在开发靶向和抑制HIF / p300复合物形成的小分子化合物,目的是减少肿瘤生长。研究配体与p300-CH1相互作用的高分辨NMR光谱是必要的,为了进行结构和生物物理学研究,需要净化大量正确折叠的p300-CH1。 p300-CH1具有3个锌指和9个半胱氨酸残基,构成与试剂相容性和蛋白氧化相关的挑战。已经开发了一种通过在表达过程中并入锌并简化纯化时间来克服这些问题的方案,导致适合于结构NMR研究的最佳折叠蛋白质(120mg / 4L表达介质)的高产率。已证实最终重组p300-CH1的结构完整性是使用一维1 H NMR光谱和圆二色性最优的。该方案适用于纯化其他含锌指蛋白质。
【背景】由于不适当的血管灌注,实体瘤的发展与缺氧区的发展有关。对于缺氧微环境,肿瘤细胞过表达低氧诱导因子(HIF),一种异二聚体转录因子家族(Semenza,2002; Brat和Van Meir,2004; Kaur等,2005)。 HIFs结合p300(一种转录共激活因子),形成诱导HIF靶基因的复合物,从而激活缺氧反应途径并促进肿瘤生长(Kasper and Brindle,2006; Liu,2008)。涉及HIF / p300蛋白 ...
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| Selection of Genetically Modified Bacteriophages Using the CRISPR-Cas System
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Author:
Date:
2017-08-05
[Abstract] We present a CRISPR-Cas based technique for deleting genes from the T7 bacteriophage genome. A DNA fragment encoding homologous arms to the target gene to be deleted is first cloned into a plasmid. The T7 phage is then propagated in Escherichia coli harboring this plasmid. During this propagation, some phage genomes undergo homologous recombination with the plasmid, thus deleting the targeted gene. To select for these genomes, the CRISPR-Cas system is used to cleave non-edited genomes, enabling isolation of the desired recombinant phages. This protocol allows seamless deletion of desired genes in a T7 phage, and can be expanded to other phages and other types of genetic manipulations as well.
[摘要] 我们提出了一种用于从T7噬菌体基因组中删除基因的基于CRISPR-Cas的技术。 首先将编码与待缺失的靶基因的同源臂的DNA片段克隆到质粒中。 然后将T7噬菌体在携带该质粒的大肠杆菌中繁殖。 在这种繁殖期间,一些噬菌体基因组与质粒进行同源重组,从而缺失靶基因。 为了选择这些基因组,CRISPR-Cas系统用于切割未编辑的基因组,从而能够分离所需的重组噬菌体。 该协议允许在T7噬菌体中无缝地删除所需的基因,并且可以扩展到其它噬菌体和其他类型的遗传操作。
【背景】噬菌体(噬菌体)是生物圈中最普遍和广泛分布的生物实体,突出了它们的生态重要性(Suttle,2007)。许多研究还提出将噬菌体用于医疗目的(Weber-Dabrowska等人,2001; Merril等人,2003; Harper和Enright,2011; Edgar ,2012; Bikard等人,2014; Citorik等人,2014; Yosef等人, 2014年和2015年)。不幸的是,仅有少数公开的方法详细描述了噬菌体基因组学的基因工程(Selick等人,1988; Marinelli等人,2008; ...
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| Isolation of Highly Pure Primary Mouse Alveolar Epithelial Type II Cells by Flow Cytometric Cell Sorting
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Author:
Date:
2016-11-20
[Abstract] In this protocol, we describe the method for isolating highly pure primary alveolar epithelial type II (ATII) cells from lungs of naïve mice. The method combines negative selection for a variety of lineage markers along with positive selection for EpCAM, a pan-epithelial cell marker. This method yields 2-3 x 106 ATII cells per mouse lung. The cell preps are highly pure and viable and can be used for genomic or proteomic analyses or cultured ex vivo to understand their roles in various biological processes.
[摘要] 在这个协议,我们描述从初始小鼠的肺分离高纯度原发性肺泡上皮细胞类型(ATII)细胞的方法。该方法结合对多种谱系标志物的阴性选择以及对于Ep上皮细胞标记物EpCAM的阳性选择。该方法每小鼠肺产生2-3×10 6个ATII细胞。细胞制品是高度纯的和可行的,并且可以用于基因组或蛋白质组分析或培养离体以了解他们在各种生物过程中的作用。
[背景] 肺的内表面由上皮细胞排列,上皮细胞的类型在形态上和功能上随着肺内的位置而变化。 ATII细胞是两种类型的上皮细胞中的一种,其排列在肺泡壁上并且已经被描述为在表面活性剂合成和分泌中起关键作用。它们也是肺内第一道防线的一部分,并且涉及在肺部感染或过敏期间引发和调节免疫应答。它们还被认为在远端肺中充当具有增殖能力和损伤后修复上皮的能力的祖细胞。 ATII分离的可用方法不产生超过80-85%纯度的细胞制品,使得它们不适合于mRNA和蛋白质表达的可靠分析。本文所述的方法是对现有方法的改进,并产生具有最高纯度的小鼠原代ATII细胞制备物,因此可以可靠地用于表达分析。对于该方法的进一步讨论,我们将读者指向该协议起源的原始出版物(Sinha等人,2016)。
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