Failure to over-express expansin in multiple heterologous systems

New Negatives in Plant Science Pub Date : 2016-08-01 DOI:10.1016/j.neps.2016.03.002

Jessica P. Yactayo-Chang , Sangwoong Yoon , Keat Thomas Teoh , Nathan C. Hood , Argelia Lorence , Elizabeth E. Hood

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引用次数: 2

Abstract

Background

Expansin has been proposed to be an enhancer of cellulase activity in the deconstruction of biomass for sugars for industrial applications. However, the expansin protein is present in plant tissue only in minute quantities for promoting growth. Thus, producing adequate amounts of expansin for applications in industry will require a heterologous system that will over-express an expansin gene to produce large quantities of expansin protein. Development of a production system requires a facile, rapid assay. However, because no straightforward assay for expansin protein exists, we attempted to make milligram quantities of the protein in a fast or transient system for anti-expansin antibody preparation for use on Western blots or in ELISA assays.

Results

We tested the expression of the cucumber expansin gene in several heterologous systems including Escherichia coli and transient Nicotiana benthamiana leaves with limited success. We also had limited success in transiently expressing an alternative expansin gene from bamboo in N. benthamiana leaves. In order to determine if expansin over-expression is limited to a seed system, Arabidopsis thaliana seeds were tested. Although all positive and negative controls behaved as expected, none of these common systems expressed the expansin gene well.

Conclusions

Over-expression of cucumber expansin in three heterologous systems, E. coli, transient tobacco leaves, and Arabidopsis seeds was unsuccessful. The cause of this failure is not known. These results confirm the necessity of experimentally exploring several heterologous systems for protein production in order to find one with utility.

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在多个异源系统中过表达扩增蛋白失败

在工业应用中，dexpansin被认为是纤维素酶活性的增强剂。然而，扩张蛋白在植物组织中仅以微量存在以促进生长。因此，为工业应用生产足够数量的扩增蛋白将需要一种异源系统，该系统将过度表达扩增蛋白基因以产生大量的扩增蛋白。生产系统的开发需要简便、快速的分析。然而，由于没有直接检测膨胀蛋白的方法，我们尝试在快速或瞬态系统中制备毫克量的蛋白质，用于抗膨胀蛋白抗体制备，用于Western blots或ELISA检测。结果黄瓜膨胀素基因在大肠杆菌和瞬时烟叶等多种外源系统中的表达均有一定的成功。此外，我们还成功地从竹子中瞬时表达了一种替代扩增基因。为了确定扩增蛋白过表达是否仅限于种子系统，我们对拟南芥种子进行了测试。虽然所有的阳性和阴性对照都表现出预期的效果，但这些常见系统都没有很好地表达扩增基因。结论黄瓜膨胀素在大肠杆菌、瞬时烟叶和拟南芥种子3种异种体系中均未成功过表达。失败的原因尚不清楚。这些结果证实了通过实验探索多种用于蛋白质生产的异种系统的必要性，以便找到一种实用的异种系统。

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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New Negatives in Plant Science

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