Molecular assemblies built with the artificial protein Pizza

IF 3.5 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Journal of Structural Biology: X Pub Date : 2020-01-01 DOI:10.1016/j.yjsbx.2020.100027
Jeroen P.M. Vrancken , Jana Aupič , Christine Addy , Roman Jerala , Jeremy R.H. Tame , Arnout R.D. Voet
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引用次数: 7

Abstract

Recently an artificial protein named Pizza6 was reported, which possesses six identical tandem repeats and adopts a monomeric β-propeller fold with sixfold structural symmetry. Pizza2, a truncated form that consists of a double tandem repeat, self-assembles into a trimer reconstructing the same propeller architecture as Pizza6. The ability of pizza proteins to self-assemble to form complete propellers makes them interesting building blocks to engineer larger symmetrical protein complexes such as symmetric nanoparticles. Here we have explored the self-assembly of Pizza2 fused to homo-oligomerizing peptides. In total, we engineered five different fusion proteins, of which three appeared to assemble successfully into larger complexes. Further characterization of these proteins showed one monodisperse designer protein with a structure close to the intended design. This protein was further fused to eGFP to investigate functionalization of the nanoparticle. The fusion protein was stable and could be expressed in high yield, showing that Pizza-based nanoparticles may be further decorated with functional domains

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用人造蛋白披萨构建的分子组装
最近报道了一种名为Pizza6的人工蛋白,它具有6个相同的串联重复序列,并采用具有六重结构对称的单体β-螺旋桨折叠。Pizza2是由双串联重复序列组成的截断形式,自组装成三聚体,重建与Pizza6相同的螺旋桨结构。披萨蛋白自组装形成完整螺旋桨的能力,使它们成为设计更大的对称蛋白质复合物(如对称纳米粒子)的有趣基础。在这里,我们探索了Pizza2融合到同源寡聚肽的自组装。我们总共设计了五种不同的融合蛋白,其中三种似乎成功地组装成更大的复合物。对这些蛋白的进一步表征表明,一个单分散的设计蛋白具有接近预期设计的结构。该蛋白进一步与eGFP融合,以研究纳米颗粒的功能化。融合蛋白稳定且高产能表达,表明基于披萨的纳米颗粒可以进一步修饰功能域
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来源期刊
Journal of Structural Biology: X
Journal of Structural Biology: X Biochemistry, Genetics and Molecular Biology-Structural Biology
CiteScore
6.50
自引率
0.00%
发文量
20
审稿时长
62 days
期刊最新文献
Corrigendum to “Minimizing ice contamination during specimen preparation for cryo-soft X-ray tomography and cryo-electron tomography” [J. Struct. Biol.: X 10(2024) 100113] Editorial by Natalie Reznikov [for Buss et al., “Hierarchical organization of bone in three dimensions: A twist of twists” (2022)] Structural analysis of the stable form of fibroblast growth factor 2 – FGF2-STAB Localization of albumin with correlative super resolution light- and electron microscopy in the kidney Minimizing ice contamination during specimen preparation for cryo-soft X-ray tomography and cryo-electron tomography
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