| Live Cell FRET Analysis of the Conformational Changes of Human P-glycoprotein
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Author:
Date:
2021-02-20
[Abstract] The molecular mechanisms of P-glycoprotein (P-gp; also known as MDR1 or ABCB1) have been mainly investigated using artificial membranes such as lipid-detergent mixed micelles, artificial lipid bilayers, and membrane vesicles derived from cultured cells. Although these in vitro experiments help illustrate details about the molecular mechanisms of P-gp, they do not reflect physiological membrane environments in terms of lateral pressure, curvature, constituent lipid species, etc. The protocol presented here includes a detailed guide for analyzing the conformational change of human P-gp in ...
[摘要] [摘要] P-糖蛋白(P-gp;也称为MDR1或ABCB1)的分子机制已主要使用人造膜进行研究,例如脂质去污剂混合胶束,人造脂质双层和源自培养细胞的膜囊泡。尽管这些体外实验有助于阐明有关P-gp分子机制的细节,但它们在侧向压力,曲率,脂质成分等方面并未反映出生理膜环境。 此处提供的协议包括一个详细的指南,该指南用于通过使用分子内荧光共振能量转移(FRET)分析活HEK293细胞中人P-gp的构象变化,其中供体荧光团的激发被转移到受体上而不发射光子当两个荧光蛋白非常接近时。将FRET分析与膜通透性相结合,可以在活细胞中评估小分子(如核苷酸)对构象变化的贡献。
[背景] P-糖蛋白(P-gp)的是ATP驱动药转运该压出各种疏水有毒化合物到细胞外空间。P-gp由形成底物转运途径的两个跨膜结构域(TMD)和结合并水解ATP的两个核苷酸结合结构域(NBD)组成。传输至少需要两个P-gp状态。在向内(药物转运前)构型中,两个NBD分开,两个TMD向细胞内侧开放;在向外(药物转运)构象中,NBD是二聚体的,而TMD在细胞外侧略微开放(Kodan et al。,2020 )。自从发现P-gp (Juliano和Ling,1976; Chen等,1986; Ueda等,1986 ...
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| Measurement of Ascorbic Acid and Glutathione Content in Cyanobacterium Synechocystis sp. PCC 6803
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Author:
Date:
2020-10-20
[Abstract] Ascorbic acid (AsA) and gluthathione (GSH) are two key components of the antioxidant machinery of eukaryotic and prokaryotic cells. The cyanobacterium Synechocystis sp. PCC 6803 presents both compounds in different concentrations (AsA, 20-100 μM and GSH, 2-5 mM). Therefore, it is important to have precise and sensitive methods to determine the redox status in the cell and to detect variations in this antioxidants. In this protocol, we describe an improved method to estimate the content of both antioxidants (in their reduced and oxidized forms) from the same sample obtained from ...
[摘要] [摘要] 抗坏血酸(AsA)和明胶硫(GSH)是真核细胞和原核细胞抗氧化机制的两个重要组成部分。蓝藻Synechocystis sp.pcc6803以不同浓度(AsA,20-100μM和GSH,2-5mm)呈现这两种化合物。因此,有精确和敏感的方法来确定细胞中的氧化还原状态和检测这种抗氧化剂的变化是很重要的。在该方案中,我们描述了一种改进的方法,用以从Synechocystis sp.pcc6803的液体培养中获得的同一样品中估算两种抗氧化剂(以还原形式和氧化形式)的含量。
[背景] 细胞中的氧化还原状态可以被多种因素改变,产生氧化应激。我们使用该方案来量化暴露于50℃高温下的Synechocystis sp. PCC 6803中的GSH和AsA含量。如拟南芥所述,热胁迫导致抗氧化剂含量下降,并通过铁作用引起细胞死亡(Distefano et al., 2017;Aguilera等人,2019年预印本)。虽然本方案是针对Synechocystis sp. PCC 6803制定的,但也可用于测定其他蓝藻中GSH和AsA的含量。蓝藻中AsA含量很低,正常条件下uM含量在一定范围内,某些处理下pM含量在一定范围内。因此,我们提出了这个敏感的方法与一个改进的细胞裂解程序。
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| Expression and Purification of Arabidopsis Transmembrane Protein BCM1 in Saccharomyces cerevisiae
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Author:
Date:
2020-09-20
[Abstract] Heterologous expression and purification of transmembrane proteins have remained a challenge for decades hampering detailed biochemical and structural characterization of key enzymes and their interacting regulators in multiple metabolic pathways. An in-depth study on the newly identified Arabidopsis thaliana integral membrane protein BALANCE OF CHLOROPHYLL METABOLISM 1 (BCM1) showed a stimulatory effect of the BCM1 on magnesium chelatase, the first enzyme of chlorophyll biosynthesis, through interaction with the GENOMES UNCOUPLED 4 (Wang et al., 2020). Here, we report a ...
[摘要] [摘要 ] 异源表达和公顷跨膜蛋白的纯化VE 仍然几十年来阻碍了关键酶详述生物化学和结构表征一个挑战小号和它们的相互作用调节在多个代谢途径。上新鉴定进行了深入的研究拟南芥拟南芥叶绿素代谢1(BCM1)的整合膜蛋白BALANCE显示一个通过与相互作用对镁螯合,叶绿素生物合成的第一个酶,所述BCM1的刺激效应基因组中脱开4 (王等等人,2020)。这里 ,我们报告了酿酒酵母中His-tagged BCM1异源表达和纯化的详细和优化方法。˚F ollowing这种方法,我们获得用于本机BCM1 体外酶测定的镁螯合(王等人,2020) 。目前,BCM1的结晶研究正在进行中。这个协议可以适于纯化BCM 1一样从用于酶和结构研究真核生物的跨膜蛋白。
[背景 ] 鉴定翻译后单组的lators其指导LY 调制enzym 一个叶绿素合成的酶的抽动活动可以大大提高我们理解的分子机制,通过该植物保持高效叶绿素叶期间LL合成绿化(Brzezowski 等人,2015年)。然而,叶绿素合成酶及其相互作用蛋白的详细生化分析受到体外重组蛋白可用性的限制。我们最近发现一个叶绿素代谢1(BCM1)的翻译后调节平衡,同时刺激小号叶绿素合成和延迟叶绿素分解,日ERE 被授予叶发育过程中的叶绿素稳态(王等人,2020年)。为了检查BCM1对镁螯合酶(MgCh ...
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