Recombinant human elastin polypeptides self‐assemble into biomaterials with elastin‐like properties

弹性蛋白 原弹性蛋白 化学 单体 聚合物 生物物理学 赖氨酸 共价键 细胞外基质 高分子化学 生物化学 有机化学 氨基酸 医学 生物 病理
作者
Catherine M. Bellingham,M. A. Lillie,John M. Gosline,Glenda M. Wright,Barry Starcher,Allen J. Bailey,Kimberly A. Woodhouse,Fred W. Keeley
出处
期刊:Biopolymers [Wiley]
卷期号:70 (4): 445-455 被引量:255
标识
DOI:10.1002/bip.10512
摘要

Abstract Processes involving self‐assembly of monomeric units into organized polymeric arrays are currently the subject of much attention, particularly in the areas of nanotechnology and biomaterials. One biological example of a protein polymer with potential for self‐organization is elastin. Elastin is the extracellular matrix protein that imparts the properties of extensibility and elastic recoil to large arteries, lung parenchyma, and other tissues. Tropoelastin, the ≈70 kDa soluble monomeric form of elastin, is highly nonpolar in character, consisting essentially of 34 alternating hydrophobic and crosslinking domains. Crosslinking domains contain the lysine residues destined to form the covalent intermolecular crosslinks that stabilize the polymer. We and others have suggested that the hydrophobic domains are sites of interactions that contribute to juxtaposition of lysine residues in preparation for crosslink formation. Here, using recombinant polypeptides based on sequences in human elastin, we demonstrate that as few as three hydrophobic domains flanking two crosslinking domains are sufficient to support a self‐assembly process that aligns lysines for zero‐length crosslinking, resulting in formation of the crosslinks of native elastin. This process allows fabrication of a polymeric matrix with solubility and mechanical properties similar to those of native elastin. © 2003 Wiley Periodicals, Inc. Biopolymers 70: 445–455, 2003
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