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影响类弹性蛋白多肽自组装成微球的因素及其作用机制 被引量:4

Factors and mechanism influencing elastin-like polypeptides self-assembled into micron-sized particles
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摘要 影响类弹性蛋白多肽(ELPs)自组装成微球的因素较多,目前尚缺乏系统研究。以类弹性蛋白多肽[KV8F]n为对象,利用动态光散射仪测定了不同条件下其自组装成微球的粒径。结果表明:随着分子量的增加ELPs形成的微球粒径也随之增大,粒径的均一度减小;当盐浓度低于0.4 mol/L时,盐浓度的增加,微球粒径相应增加,而盐浓度高于0.4 mol/L则呈减少的趋势,但粒径均大于1.1μm;而当ELPs末端融合木聚糖酶和1,3-丙二醇氧化还原酶后,其自组装形成的微球粒径急剧减小,约为游离ELPs的1/10,分别为151.0 nm和174.2 nm。导致这种现象的原因可能是酶分子和ELPs通过静电引力相互作用后,酶分子的空间位阻妨碍了ELPs分子的聚集。 Many factors influence the elastin-like polypeptides (ELPs) self-assembled into micron-sized particles.However, few efforts were made to investigate these factors. Using the ELPs [KV8F]n as the target, we studied systematically the factors with the dynamic light scattering. Our results show that the particle size increased and the uniform of particles decreased with the increase of the molecular weight. The analysis of size variation in self-assembled ELPs in response to changes in salt concentration indicated that the size increased with increasing the salt concentration, and the opposite response was observed when the concentration was above 0.4 mol/L. Under these conditions, the particles are micron-sized and larger than 1.1 μm. However, when the fusions containing the same ELPs and xylanase or 1,3-propanediol oxidoreductase, the size of the self-assembled ELPs particles decreased dramatically, which was only about 1/10 of that of the free ELPs. We proposed that the solvent accessible charged area of the enzymes could interact with the ELPs, the sterical hindrance of the enzymes prevent the aggregation of the ELPs. This might be the most important parameter in altering the particle size sharply.
作者 葛慧华 王文研 张光亚 王士斌
机构地区 华侨大学生物工程与技术系
出处 《生物工程学报》 CAS CSCD 北大核心 2014年第8期1274-1282,共9页 Chinese Journal of Biotechnology
基金 国家自然科学基金(Nos.21376103 31170939) 福建省自然科学基金(No.2013J01048)资助~~
关键词 类弹性蛋白多肽 静电引力 空间位阻 自组装 融合蛋白 Elastin-like polypeptides, electrostatic interaction, sterical hindrance, self-assemble, fusion protein
分类号 R318.08 [医药卫生—生物医学工程]
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参考文献26

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二级参考文献23

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共引文献21

同被引文献40

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二级引证文献5

生物工程学报
2014年 第8期

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