Lipid Modification and Membrane Localization of Proteins in Cell-Free System.

IF 3.7 2区生物学 Q1 BIOCHEMICAL RESEARCH METHODS

ACS Synthetic Biology Pub Date : 2025-07-18 Epub Date: 2025-06-19 DOI:10.1021/acssynbio.5c00155

Rena Matsumoto, Tatsuya Niwa, Kaori Kuno, Yasuhiro Shimane, Yutetsu Kuruma, Takashi Kanamori

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引用次数: 0

Abstract

Post-translational modifications are an essential process for proper protein function and localization. In particular, lipid modification plays a crucial role in the spatial regulation of proteins functioning on a lipid membrane surface. While cell-free protein synthesis allows rapid protein production, technical advances in lipidation modification are behind. Here, we developed a cell-free system for the myristoylation and palmitoylation of proteins. Based on our previous study, we improved myristoylation efficiency by trimming a precursor nascent peptide, which undergoes lipidation at the N-terminal glycine. We also found that N-myristoyltransferase (NMT) catalyzes both myristoylation and palmitoylation. The localization of lipidated proteins onto liposomes is further aided by the insertion of polyarginine residues downstream of the NMT recognition site. Finally, we demonstrated that lipidation of VHH antibodies and localization onto liposomes resulted in target-specific binding to cancer cells. This system offers a platform for displaying soluble proteins on lipid membranes, with potential applications in developing liposomes for targeted cell binding.

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无细胞系统中蛋白质的脂质修饰和膜定位。

翻译后修饰是蛋白质正常功能和定位的重要过程。特别是，脂质修饰在脂质膜表面蛋白质功能的空间调节中起着至关重要的作用。虽然无细胞蛋白质合成允许快速生产蛋白质，但脂化修饰的技术进步落后。在这里，我们开发了一个蛋白质肉豆蔻酰化和棕榈酰化的无细胞系统。基于我们之前的研究，我们通过修剪前体新生肽来提高肉豆蔻酰化效率，该前体新生肽在n端甘氨酸处经历脂化。我们还发现n -肉豆蔻酰基转移酶（NMT）同时催化肉豆蔻酰基化和棕榈酰化。脂化蛋白在脂质体上的定位是由NMT识别位点下游的聚精氨酸残基的插入进一步辅助的。最后，我们证明了VHH抗体的脂化和定位到脂质体上导致了与癌细胞的靶向特异性结合。该系统为显示脂质膜上的可溶性蛋白提供了一个平台，在开发靶向细胞结合的脂质体方面具有潜在的应用前景。

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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来源期刊

ACS Synthetic Biology 生物-

CiteScore

8.00

自引率

10.60%

发文量

380

审稿时长

6-12 weeks

期刊介绍： The journal is particularly interested in studies on the design and synthesis of new genetic circuits and gene products; computational methods in the design of systems; and integrative applied approaches to understanding disease and metabolism. Topics may include, but are not limited to: Design and optimization of genetic systems Genetic circuit design and their principles for their organization into programs Computational methods to aid the design of genetic systems Experimental methods to quantify genetic parts, circuits, and metabolic fluxes Genetic parts libraries: their creation, analysis, and ontological representation Protein engineering including computational design Metabolic engineering and cellular manufacturing, including biomass conversion Natural product access, engineering, and production Creative and innovative applications of cellular programming Medical applications, tissue engineering, and the programming of therapeutic cells Minimal cell design and construction Genomics and genome replacement strategies Viral engineering Automated and robotic assembly platforms for synthetic biology DNA synthesis methodologies Metagenomics and synthetic metagenomic analysis Bioinformatics applied to gene discovery, chemoinformatics, and pathway construction Gene optimization Methods for genome-scale measurements of transcription and metabolomics Systems biology and methods to integrate multiple data sources in vitro and cell-free synthetic biology and molecular programming Nucleic acid engineering.