原子力显微镜揭示了一种模块化蛋白质的机械设计。
Atomic force microscopy reveals the mechanical design of a modular protein.
作者信息
Li H, Oberhauser A F, Fowler S B, Clarke J, Fernandez J M
机构信息
Department of Physiology and Biophysics, Mayo Foundation, Rochester, MN 55905, USA.
出版信息
Proc Natl Acad Sci U S A. 2000 Jun 6;97(12):6527-31. doi: 10.1073/pnas.120048697.
Abstract
Tandem modular proteins underlie the elasticity of natural adhesives, cell adhesion proteins, and muscle proteins. The fundamental unit of elastic proteins is their individually folded modules. Here, we use protein engineering to construct multimodular proteins composed of Ig modules of different mechanical strength. We examine the mechanical properties of the resulting tandem modular proteins by using single protein atomic force microscopy. We show that by combining modules of known mechanical strength, we can generate proteins with novel elastic properties. Our experiments reveal the simple mechanical design of modular proteins and open the way for the engineering of elastic proteins with defined mechanical properties, which can be used in tissue and fiber engineering.
摘要
串联模块化蛋白质是天然粘合剂、细胞粘附蛋白和肌肉蛋白弹性的基础。弹性蛋白的基本单位是其各自折叠的模块。在这里,我们利用蛋白质工程构建由不同机械强度的免疫球蛋白(Ig)模块组成的多模块蛋白质。我们通过单蛋白质原子力显微镜检查所得串联模块化蛋白质的机械性能。我们表明,通过组合已知机械强度的模块,可以生成具有新型弹性特性的蛋白质。我们的实验揭示了模块化蛋白质简单的机械设计,并为设计具有特定机械性能的弹性蛋白开辟了道路,这些弹性蛋白可用于组织和纤维工程。
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