原核表达和亲和纯化 DDX3 蛋白

Protein & Peptide Letters Pub Date : 2024-02-02 DOI:10.2174/0109298665285625231222075700

Lan Huang, Yue Liang, Huijin Hou, Min Tang, Xinpeng Liu, Yan-ni Ma, Shufang Liang

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引用次数: 0

摘要

背景：DDX3 是一种具有 RNA 螺旋酶活性的蛋白，参与多种生物过程，是开发广谱抗病毒药物、多种癌症和慢性炎症的重要蛋白靶点。研究目的本研究旨在建立一种简单高效的方法，在大肠杆菌中表达和纯化 DDX3 蛋白，重组后的 DDX3 应保持螺旋酶活性，以便进一步进行定制筛选和生化功能验证。方法：将 DDX3 cDNA 同时克隆到 pET28a-TEV 和 pNIC28-Bsa4 载体中，并转染到大肠杆菌 BL21 (DE3) 中，以比较一种合适的原核表达系统。6×His-tag 与 DDX3 的 C 端融合，形成 His-tagging DDX3 融合蛋白，用于后续纯化。对蛋白质溶解缓冲液和纯化洗涤条件进行了优化。His 标记的 DDX3 蛋白会通过螯合作用与 Ni-NTA 琼脂糖结合，并通过亲和纯化收集。通过 TEV 消化，消除了与 N 端 DDX3 融合的 6×His 标记。凝胶过滤色谱法对 DDX3 进行了精细纯化。结果考虑到重组的His-tagging DDX3具有良好的溶解性，尤其是在0.5 mM IPTG于18 ℃孵育18 h的条件下可获得溶解度更高的DDX3蛋白，因此构建了重组质粒pNIC28-DDX3，用于DDX3原核表达和亲和纯化。最后，通过Ni-NTA柱亲和层析和凝胶过滤层析除杂，得到纯度超过95%的外源重组DDX3蛋白。纯化后的 DDX3 仍保留了其 ATPase 活性。结论构建的原核表达 pNIC28-DDX3 系统可在大肠杆菌 BL21(DE3) 中高效表达和亲和纯化具有生物活性的 DDX3 蛋白，为高通量筛选和验证 DDX3 靶向药物提供了重要依据。

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Prokaryotic Expression and Affinity Purification of DDX3 Protein

Background: DDX3 is a protein with RNA helicase activity that is involved in a variety of biological processes, and it is an important protein target for the development of broad-spectrum antiviral drugs, multiple cancers and chronic inflammation. Objective: The objective of this study is to establish a simple and efficient method to express and purify DDX3 protein in E. coli, and the recombinant DDX3 should maintain helicase activity for further tailor-made screening and biochemical function validation. Methods: DDX3 cDNA was simultaneously cloned into pET28a-TEV and pNIC28-Bsa4 vectors and transfected into E. coli BL21 (DE3) to compare one suitable prokaryotic expression system. The 6×His-tag was fused to the C-terminus of DDX3 to form a His-tagging DDX3 fusion protein for subsequent purification. Protein dissolution buffer and purification washing conditions were optimized. The His-tagged DDX3 protein would bind with the Ni-NTA agarose by chelation and collected by affinity purification. The 6×His-tag fused with N-terminal DDX3 was eliminated from DDX3 by TEV digestion. A fine purification of DDX3 was performed by gel filtration chromatography. Results: The recombinant plasmid pNIC28-DDX3, which contained a 6×His-tag and one TEV cleavage site at the N terminal of DDX3 sequence, was constructed for DDX3 prokaryotic expression and affinity purification based on considering the good solubility of the recombinant His-tagging DDX3, especially under 0.5 mM IPTG incubation at 18 °C for 18 h to obtain more soluble DDX3 protein. Finally, the exogenous recombinant DDX3 protein was obtained with more than 95% purity by affinity purification on the Ni-NTA column and removal of miscellaneous through gel filtration chromatography. The finely-purified DDX3 still retained its ATPase activity. Conclusion: A prokaryotic expression pNIC28-DDX3 system is constructed for efficient expression and affinity purification of bioactive DDX3 protein in E. coli BL21(DE3), which provides an important high-throughput screening and validation of drugs targeting DDX3.

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Protein & Peptide Letters

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