小麦胚芽无细胞平台蛋白结构生物学研究

Irina V. Novikova, Noopur Sharma, Trevor Moser, Ryan Sontag, Yan Liu, Michael J. Collazo, Duilio Cascio, Tolou Shokuhfar, Hanjo Hellmann, Michael Knoblauch, James E. Evans
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引用次数: 16

摘要

蛋白质结构分析的最大瓶颈之一仍然是目标蛋白质的高产量和高纯度样品的创建。无细胞蛋白合成技术是一种强大的、可定制的平台,可在短时间内获得感兴趣的功能蛋白,同时避免潜在的毒性问题,并允许高通量筛选。这些方法使基因组学和蛋白质组学研究、治疗学、疫苗开发和蛋白质芯片构建等许多领域受益。在这项工作中,我们展示了一个多功能和多尺度的真核小麦无生殖细胞蛋白表达管道,从多种宿主生物和DNA来源来源中产生不同大小的功能蛋白。我们还报告了一种强大的纯化程序,该程序可以产生高纯度(98%)的蛋白质,不需要专门的设备和最少的时间投入。该管道成功地生产和分析了用于结构生物学的所有三种主要几何格式的蛋白质,包括用电子显微镜进行单颗粒分析,以及二维和三维蛋白质晶体学。小麦胚芽系统的灵活性与这里描述的多尺度管道相结合,为样品的快速生产和纯化提供了一个新的工作流程,这可能不适合其他重组方法进行结构表征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Protein structural biology using cell-free platform from wheat germ

One of the biggest bottlenecks for structural analysis of proteins remains the creation of high-yield and high-purity samples of the target protein. Cell-free protein synthesis technologies are powerful and customizable platforms for obtaining functional proteins of interest in short timeframes, while avoiding potential toxicity issues and permitting high-throughput screening. These methods have benefited many areas of genomic and proteomics research, therapeutics, vaccine development and protein chip constructions. In this work, we demonstrate a versatile and multiscale eukaryotic wheat germ cell-free protein expression pipeline to generate functional proteins of different sizes from multiple host organism and DNA source origins. We also report on a robust purification procedure, which can produce highly pure (>?98%) proteins with no specialized equipment required and minimal time invested. This pipeline successfully produced and analyzed proteins in all three major geometry formats used for structural biology including single particle analysis with electron microscopy, and both two-dimensional and three-dimensional protein crystallography. The flexibility of the wheat germ system in combination with the multiscale pipeline described here provides a new workflow for rapid production and purification of samples that may not be amenable to other recombinant approaches for structural characterization.

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Advanced Structural and Chemical Imaging
Advanced Structural and Chemical Imaging Medicine-Radiology, Nuclear Medicine and Imaging
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