| Polyamine Transport Assay Using Reconstituted Yeast Membranes
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Author:
Date:
2021-01-20
[Abstract] ATP13A2/PARK9 is a late endo-/lysosomal P5B transport ATPase that is associated with several neurodegenerative disorders. We recently characterized ATP13A2 as a lysosomal polyamine exporter, which sheds light on the molecular identity of the unknown mammalian polyamine transport system. Here, we describe step by step a protocol to measure radiolabeled polyamine transport in reconstituted vesicles from yeast cells overexpressing human ATP13A2. This protocol was developed as part of our recent publication (van Veen et al., 2020) and will be useful for characterizing the transport function of ...
[摘要] [摘要] ATP13A2 / PARK9是一种晚期内/溶酶体P5B转运ATPase,与多种神经退行性疾病有关。我们最近将ATP13A2表征为溶酶体多胺出口者,这为未知的哺乳动物多胺转运系统的分子身份提供了线索。在这里,我们逐步描述了从过量表达人ATP13A2的酵母细胞中测量重组囊泡中放射性标记的多胺转运的方案。该方案是我们最新出版物的一部分(van Veen等,2020),将有助于表征其他假定的多胺转运蛋白的转运功能,例如P5B转运ATPase的同工型。
[背景] ATP13A2 / PARK9编码一种普遍表达的晚期内-/溶酶体膜蛋白,与一系列神经退行性疾病有关,例如早发性帕金森氏病(Di Fonzo等,2007 ;Lin等,2008)和Kufor -Rakeb综合征(伴痴呆的早期帕金森病)(Ramirez等,2006 ;Park等,2011)。ATP13A2属于P型转运ATPase ,是一类活性转运蛋白,由于ATP水解而暂时形成磷酸中间产物(Kuhlbrandt ,2004年)。ATP13A2是P5亚家族的成员,该家族已在20多年前通过基因组测序鉴定出来(Axelsen和Palmgren ...
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| Protein Expression and Purification of the Hsp90-Cdc37-Cdk4 Kinase Complex from Saccharomyces cerevisiae
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Author:
Date:
2017-10-05
[Abstract] Interactions between Hsp90, its co-chaperone Cdc37 and kinases have been biochemically studied for over three decades and have been shown to be functionally important in organisms from yeast to humans. However, formation of a stable complex for structural studies has been elusive. In this protocol we describe expression and purification of Hsp90-Cdc37-Cdk4 kinase protein complex from Saccharomyces cerevisiae utilizing the viral 2A sequences to titrate the three proteins at similar levels.
[摘要] Hsp90,其伴侣伴侣Cdc37和激酶之间的相互作用已经在三十多年的生物化学研究中被证明在酵母与人类的生物体内在功能上是重要的。 然而,形成一个稳定的结构研究复合物是难以捉摸的。 在该方案中,我们描述了利用病毒2A序列以相似水平滴定三种蛋白质的来自酿酒酵母的Hsp90-Cdc37-Cdk4激酶蛋白复合物的表达和纯化。
【背景】Hsp90分子伴侣与其客体激酶之间的稳定形成复合物已经被证明在体外是难治性的。以前的工作表明,Hsp90的共伴伴Cdc37与昆虫Sf9细胞中的客体激酶的过表达导致Sf9 Hsp90,外源Cdc37和外源激酶(Vaughan等人,2006)之间的稳定复合物。然而,昆虫细胞培养需要特殊的设备,比其他研究较好的表达系统(如细菌和酵母)要难以进行遗传操作,并且显着较慢地生长和克隆。上述蛋白质在E中的共表达。大肠杆菌不产生可溶性激酶/稳定复合物。我们认为,酿酒酵母将具有必要的机制来帮助折叠和促进复合物的形成,并试图通过共同表达这些蛋白质来产生人Hsp90β,人Cdc37和人Cdk4激酶之间的复合物, S上。酵母。为了获得三种蛋白质的化学计量表达,我们利用病毒2A肽,其允许三个蛋白质在一个mRNA上转录,随后在翻译阶段切割。该系统已被用于人类细胞系和兔网状细胞(Kim等人,2011; ...
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