| 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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| Primary Culture System for Germ Cells from Caenorhabditis elegans Tumorous Germline Mutants
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Author:
Date:
2017-08-05
[Abstract] The Caenorhabditis elegans germ line is an important model system for the study of germ stem cells. Wild-type C. elegans germ cells are syncytial and therefore cannot be isolated in in vitro cultures. In contrast, the germ cells from tumorous mutants can be fully cellularized and isolated intact from the mutant animals. Here we describe a detailed protocol for the isolation of germ cells from tumorous mutants that allows the germ cells to be maintained for extended periods in an in vitro primary culture. This protocol has been adapted from Chaudhari et al., 2016.
[摘要] 秀丽隐杆线虫种系是胚芽干细胞研究的重要模型系统。 野生型C。 线虫生殖细胞是合胞体,因此不能在体外培养中分离。 相比之下,来自肿瘤突变体的生殖细胞可以完全被细胞化并从突变动物中完整分离。 在这里,我们描述了从肿瘤突变体中分离生殖细胞的详细方案,其允许生殖细胞在体外原代培养中长时间维持。 该协议已从2016年Chaudhari等人改编。
【背景】秀丽生殖细胞在位于两个性腺臂的远端区域的两个成体干细胞龛中产生(Hansen和Schedl,2013; Kimble和Seidel,2013)。在野生型雌雄同体中,有丝分裂生殖细胞仅限于性腺臂的远端,干细胞生态位。野生型生殖细胞是合胞体,并且包含延伸通过性腺臂中心区域的共同细胞质的开口。 ℃。线虫肿瘤种系突变体在整个性腺中增加了生殖细胞的有丝分裂增殖。我们发现肿瘤种系突变体通常具有完整的细胞生殖细胞,其含有完整的质膜(Chaudhari等人,2016)。这种细胞化允许生殖细胞的分离及其在培养中的维持。该方案描述了分离和维持培养物中肿瘤突变体的生殖细胞的方法学和组织培养基。虽然已经描述了用于C的主要培养物的培养基。 elegans 胚胎和幼虫细胞(Strange等人,2007; Zhang和Kuhn,2013),生殖细胞在这种培养基中不能存活(Chaudhari等人。 ...
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| Immunoprecipitation of Proteins in Caenorhabditis elegans
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Author:
Date:
2015-04-05
[Abstract] Immunoprecipitation (IP) is a biochemical technique to precipitate a protein out of solution using an antigen that can specifically bind to that protein. IP can be performed to isolate and concentrate one particular protein from a sample of thousands of different proteins. IP is also readily performed to pull down interacting proteins of complexes out of solution. This protocol outlines the methods used to IP proteins in whole worm lysates and their preparation for detection on Western blots using denaturing conditions.
[摘要] 免疫沉淀(IP)是使用可以特异性结合该蛋白质的抗原将蛋白质从溶液中沉淀出来的生物化学技术。 IP可以从数千种不同蛋白质的样品中分离和浓缩一种特定蛋白质。 IP也容易进行以从溶液中取出复合物的相互作用蛋白。 该协议概述了用于IP蛋白在整个蠕虫裂解物中的方法及其用于使用变性条件在蛋白质印迹上检测的方法。
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