采用片段分离法研究蛋白质氢交换。
Protein hydrogen exchange studied by the fragment separation method.
作者信息
Englander J J, Rogero J R, Englander S W
出版信息
Anal Biochem. 1985 May 15;147(1):234-44. doi: 10.1016/0003-2697(85)90033-8.
Abstract
The potential of hydrogen-exchange studies for providing detailed information on protein structure and structural dynamics has not yet been realized, largely because of the continuing inability to correlate measured exchange behavior with the parts of a protein that generate that behavior. J. Rosa and F. M. Richards (1979, J. Mol. Biol. 133, 399-416) pioneered a promising approach to this problem in which tritium label at exchangeable proton sites can be located by fragmenting the protein, separating the fragments, and measuring the label carried by each fragment. However, severe losses of tritium label during the fragment separation steps have so far rendered the results ambiguous. This paper describes methods that minimize losses of tritium label during the fragment separation steps and correct for losses that do occur so that the label can be unambiguously located and even quantified. Steps that promote adequate fragment isolation are also described.
摘要
氢交换研究在提供蛋白质结构和结构动力学详细信息方面的潜力尚未得到充分发挥,这主要是因为一直无法将测得的交换行为与产生该行为的蛋白质部分联系起来。J. 罗萨和F. M. 理查兹(1979年,《分子生物学杂志》133卷,399 - 416页)开创了一种解决该问题的有前景的方法,即在可交换质子位点的氚标记可以通过将蛋白质片段化、分离片段并测量每个片段携带的标记来定位。然而,到目前为止,在片段分离步骤中氚标记的严重损失使得结果模糊不清。本文描述了在片段分离步骤中尽量减少氚标记损失并对确实发生的损失进行校正的方法,以便能够明确地定位甚至量化标记。还描述了促进充分片段分离的步骤。
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