用于哺乳动物细胞 DNA 基因表达控制的工程转录因子结合阵列

Annalise Zouein, Brittany Lende-Dorn, Kate E Galloway, Tom Ellis, Francesca Ceroni
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摘要

控制哺乳动物细胞中的基因表达对细胞工程应用至关重要。在这里,我们探索了转录因子(TF)识别元件阵列作为 DNA 工具的潜力,它可以改变细胞中游离 TF 的水平,从而控制基因表达。我们首先进行了概念验证,证明不同长度的 Tet TF 结合识别元件(RE)阵列能以可预测的方式调节基因表达和改变基因回路性能。然后,我们通过开发一种名为 "在环路中克隆麻烦重复序列"(CTRL)的新方法,将该方法扩展到与任何具有已知结合位点的 TF 连接,这种方法可以组装具有多达 256 个重复的任何 RE 序列的质粒。将通过 CTRL 组装的 RE 阵列质粒转染到哺乳动物细胞中显示出了通过固着感兴趣的 TF 来改变宿主细胞基因调控的潜力。利用 CTRL 构建的 RE 阵列质粒被证明可以靶向合成的和原生的哺乳动物 TF,这说明了利用这些工具调节遗传回路和指导细胞命运的能力。这项工作共同提高了我们组装重复 DNA 阵列的能力,并展示了使用 TF 结合 RE 阵列作为操纵哺乳动物基因表达的方法,从而拓展了哺乳动物细胞工程的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Engineered Transcription Factor Binding Arrays for DNA-based Gene Expression Control in Mammalian Cells
Manipulating gene expression in mammalian cells is critical for cell engineering applications. Here we explore the potential of transcription factor (TF) recognition element arrays as DNA tools for modifying free TF levels in cells and thereby controlling gene expression. We first demonstrate proof-of-concept, showing that Tet TF-binding recognition element (RE) arrays of different lengths can tune gene expression and alter gene circuit performance in a predictable manner. We then open-up the approach to interface with any TF with a known binding site by developing a new method called Cloning Troublesome Repeats in Loops (CTRL) that can assemble plasmids with up to 256 repeats of any RE sequence. Transfection of RE array plasmids assembled by CTRL into mammalian cells show potential to modify host cell gene regulation at longer array sizes by sequestration of the TF of interest. RE array plasmids built using CTRL were demonstrated to target both synthetic and native mammalian TFs, illustrating the ability to use these tools to modulate genetic circuits and instruct cell fate. Together this work advances our ability to assemble repetitive DNA arrays and showcases the use of TF-binding RE arrays as a method for manipulating mammalian gene expression, thus expanding the possibilities for mammalian cell engineering.
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