链霉亲和素中心的纳机械学用于分子材料。
Nanomechanics of streptavidin hubs for molecular materials.
机构信息
Department of Mechanical Engineering and Materials Science, Center for Biologically Inspired Materials and Material Systems, Duke University, Durham, NC 27708, USA.
出版信息
Adv Mater. 2011 Dec 15;23(47):5684-8. doi: 10.1002/adma.201103316. Epub 2011 Nov 21.
Abstract
A new strategy is reported for creating protein-based nanomaterials by genetically fusing large polypeptides to monomeric streptavidin and exploiting the propensity of streptavidin monomers(SM) to self-assemble into stable tetramers. We have characterized the mechanical properties of streptavidin-linked structures and measured, for the first time, the mechanical strength of streptavidin tetramers themselves. Using streptavidin tetramers as molecular hubs offers a unique opportunity to create a variety of well-defined, self-assembled protein-based (nano)materials with unusual mechanical properties.
摘要
一种新的策略是通过将大多肽与单体链霉亲和素融合,并利用链霉亲和素单体(SM)自组装成稳定四聚体的倾向,来创造基于蛋白质的纳米材料。我们已经对链霉亲和素连接结构的机械性能进行了表征,并首次测量了链霉亲和素四聚体本身的机械强度。使用链霉亲和素四聚体作为分子枢纽为创造具有独特机械性能的各种明确定义的、自组装的基于蛋白质的(纳米)材料提供了独特的机会。
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