在人类环境中大量生产新鲜表达的蛋白质的稳健微阵列。

Robust microarray production of freshly expressed proteins in a human milieu.

机构信息

Virginia G. Piper Center for Personalized Diagnostics, Biodesign Institute, Arizona State University, Tempe, AZ 85287-6401, USA.

出版信息

Proteomics Clin Appl. 2013 Jun;7(5-6):372-7. doi: 10.1002/prca.201200063. Epub 2013 May 17.

DOI:10.1002/prca.201200063

PMID:23027544

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4369765/

Abstract

PURPOSE

In vitro transcription/translation (IVTT) systems are widely used in proteomics. For clinical applications, mammalian systems are preferred for protein folding and activity; however, the level of protein obtained is low. A new system extracted from human cells (1-Step Human Coupled IVT (HCIVT)) has the potential to overcome this problem and deliver high yields of protein expressed in a human milieu.

EXPERIMENTAL DESIGN

Western blots and self-assembled protein microarrays were used to test the efficiency of protein synthesis by HCIVT compared to rabbit reticulocyte lysate (RRL). The arrays were also used to measure the immune response obtained from serum of patients exposed to pathogens or vaccine.

RESULTS

HCIVT performed better than RRL in all experiments. The yield of protein synthesized in HCIVT is more than ten times higher than RRL, in both Western blot and protein microarrays. Moreover, HCIVT showed a robust lot-to-lot reproducibility. In immune assays, the signals of many antigens were detected only in HCIVT-expressed arrays, mainly due to the reduction in the background signal and the increased levels of protein on the array.

CONCLUSION AND CLINICAL RELEVANCE

HCIVT is a robust in vitro transcription and translation system that yields high levels of protein produced in a human milieu. It can be used in applications where protein expression in a mammalian system and high yields are needed. The increased immunogenic response of HCIVT-expressed proteins will be critical for biomarker discovery in many diseases, including cancer.

摘要

目的

体外转录/翻译（IVTT）系统广泛应用于蛋白质组学。对于临床应用，哺乳动物系统更适合蛋白质折叠和活性；然而，获得的蛋白质水平较低。一种从人类细胞中提取的新系统（1 步人源偶联 IVTT（HCIVT））有可能克服这一问题，并提供在人类环境中表达的大量蛋白质。

实验设计

使用 Western blot 和自组装蛋白质微阵列来测试 HCIVT 与兔网织红细胞裂解物（RRL）相比的蛋白质合成效率。这些阵列还用于测量来自接触病原体或疫苗的患者血清中获得的免疫反应。

结果

HCIVT 在所有实验中的表现均优于 RRL。在 Western blot 和蛋白质微阵列中，HCIVT 合成的蛋白质产量比 RRL 高十倍以上。此外，HCIVT 表现出强大的批间重现性。在免疫测定中，仅在 HCIVT 表达的阵列中检测到许多抗原的信号，主要是由于背景信号减少和阵列上蛋白质水平增加。

结论和临床相关性

HCIVT 是一种强大的体外转录和翻译系统，可产生在人类环境中产生的高水平蛋白质。它可用于需要在哺乳动物系统中表达蛋白质和高产量的应用。HCIVT 表达的蛋白质的免疫原性反应增强对于包括癌症在内的许多疾病的生物标志物发现将是至关重要的。

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