在微流控混合器中观察到的蛋白质疏水塌缩和早期折叠步骤。
Protein hydrophobic collapse and early folding steps observed in a microfluidic mixer.
作者信息
Lapidus Lisa J, Yao Shuhuai, McGarrity Kimberly S, Hertzog David E, Tubman Emily, Bakajin Olgica
机构信息
Department of Physics and Astronomy, Michigan State University, East Lansing, Michigan, USA.
出版信息
Biophys J. 2007 Jul 1;93(1):218-24. doi: 10.1529/biophysj.106.103077. Epub 2007 Apr 6.
Abstract
We demonstrate that the sub-millisecond protein folding process referred to as "collapse" actually consists of at least two separate processes. We observe the UV fluorescence spectrum from naturally occurring tryptophans in three well-studied proteins, cytochrome c, apomyoglobin, and lysozyme, as a function of time in a microfluidic mixer with a dead time of approximately 20 mus. Single value decomposition of the time-dependent spectra reveal two separate processes: 1), a spectral shift which occurs within the mixing time; and 2), a fluorescence decay occurring between approximately 100 and 300 micros. We attribute the first process to hydrophobic collapse and the second process to the formation of the first native tertiary contacts.
摘要
我们证明,被称为“折叠”的亚毫秒级蛋白质折叠过程实际上至少由两个独立的过程组成。我们在一个死时间约为20微秒的微流体混合器中,观察了三种经过充分研究的蛋白质(细胞色素c、脱辅基肌红蛋白和溶菌酶)中天然存在的色氨酸的紫外荧光光谱随时间的变化。对随时间变化的光谱进行奇异值分解揭示了两个独立的过程:1)在混合时间内发生的光谱位移;2)在大约100至300微秒之间发生的荧光衰减。我们将第一个过程归因于疏水折叠,将第二个过程归因于第一个天然三级接触的形成。
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