通过白喉毒素抗性快速选择转基因哺乳动物细胞。

IF 14.9 1区 工程技术 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Trends in biotechnology Pub Date : 2025-09-01 Epub Date: 2025-06-18 DOI:10.1016/j.tibtech.2025.05.010
David Scherer, Steffen Honrath, Jean-Christophe Leroux, Michael Burger
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引用次数: 0

摘要

产生稳定的转基因哺乳动物细胞系的能力对于研究基因功能和生产重组蛋白至关重要。哺乳动物细胞可以很容易地通过病毒和非病毒载体在细胞培养环境中转染,以诱导转基因表达。然而,由于目前的方法涉及相当低效的抗生素选择方案或需要荧光标记蛋白的共表达,然后是费力的细胞分选程序,因此对转染细胞的有效选择需求尚未得到满足。因此,我们的目标是使用一种基于工程白喉毒素(DT)抗性的选择(简称selecDT),对表达转基因的人类细胞实施一种快速有效的选择方法。我们证明selecDT在细胞表面表达,通过失活其摄取受体提供有效的DT保护,从而实现选择。与传统的抗生素方法相比,SelecDT可以在更短的时间内提高选择效率。因此,本文所述的抗性可能对生物技术过程产生积极影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Rapid selection of transgenic mammalian cells via diphtheria toxin resistance.

The ability to generate stable transgenic mammalian cell lines is crucial to the investigation of gene functions and the production of recombinant proteins. Mammalian cells can be readily transfected in cell culture settings via both viral and nonviral vectors to induce transgene expression. However, there is an unmet need for efficient selection of transfected cells, since current methods involve rather inefficient antibiotic selection protocols or require the coexpression of fluorescent marker proteins, followed by laborious cell-sorting procedures. Thus, our aim was to implement a rapid and efficient selection approach for transgene-expressing human cells, using an engineered diphtheria toxin (DT) resistance-based selection, referred to as selecDT. We demonstrated that selecDT is expressed on the cell surface, provides efficient protection from DT by inactivating its uptake receptor, and, therefore, enables selection. SelecDT allows for greater selection efficiency in a more rapid timeline compared with conventional antibiotic methods. Thus, the resistance described herein may positively impact biotechnological processes.

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来源期刊
Trends in biotechnology
Trends in biotechnology 工程技术-生物工程与应用微生物
CiteScore
28.60
自引率
1.20%
发文量
198
审稿时长
1 months
期刊介绍: Trends in Biotechnology publishes reviews and perspectives on the applied biological sciences, focusing on useful science applied to, derived from, or inspired by living systems. The major themes that TIBTECH is interested in include: Bioprocessing (biochemical engineering, applied enzymology, industrial biotechnology, biofuels, metabolic engineering) Omics (genome editing, single-cell technologies, bioinformatics, synthetic biology) Materials and devices (bionanotechnology, biomaterials, diagnostics/imaging/detection, soft robotics, biosensors/bioelectronics) Therapeutics (biofabrication, stem cells, tissue engineering and regenerative medicine, antibodies and other protein drugs, drug delivery) Agroenvironment (environmental engineering, bioremediation, genetically modified crops, sustainable development).
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