能够进行物理和化学交联的弹性蛋白模拟蛋白聚合物。
Elastin-mimetic protein polymers capable of physical and chemical crosslinking.
作者信息
Sallach Rory E, Cui Wanxing, Wen Jing, Martinez Adam, Conticello Vincent P, Chaikof Elliot L
机构信息
Department of Surgery, Emory University, Atlanta, GA 30332, USA.
出版信息
Biomaterials. 2009 Jan;30(3):409-22. doi: 10.1016/j.biomaterials.2008.09.040. Epub 2008 Oct 26.
Abstract
We report the synthesis of a new class of recombinant elastin-mimetic triblock copolymer capable of both physical and chemical crosslinking. These investigations were motivated by a desire to capture features unique to both physical and chemical crosslinking schemes so as to exert optimal control over a wide range of potential properties afforded by protein-based multiblock materials. We postulated that by chemically locking a multiblock protein assembly in place, functional responses that are linked to specific domain structures and morphologies may be preserved over a broader range of loading conditions that would otherwise disrupt microphase structure solely stabilized by physical crosslinking. Specifically, elastic modulus was enhanced and creep strain reduced through the addition of chemical crosslinking sites. Additionally, we have demonstrated excellent in vivo biocompatibility of glutaraldehyde treated multiblock systems.
摘要
我们报告了一类新型的能够进行物理和化学交联的重组弹性蛋白模拟三嵌段共聚物的合成。这些研究的动机是希望捕捉物理和化学交联方案独有的特征,以便对基于蛋白质的多嵌段材料所具有的广泛潜在特性进行最佳控制。我们推测,通过将多嵌段蛋白质组装体化学固定到位,与特定结构域结构和形态相关的功能响应可能会在更广泛的加载条件下得以保留,否则这些条件会仅通过物理交联破坏微相结构。具体而言,通过添加化学交联位点提高了弹性模量并降低了蠕变应变。此外,我们还证明了戊二醛处理的多嵌段体系具有出色的体内生物相容性。
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