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使用SDS和PEO作为添加剂通过毛细管电泳对微不均一蛋白质进行在线浓缩。

On-line concentration of microheterogeneous proteins by capillary electrophoresis using SDS and PEO as additives.

作者信息

Huang Yu-Fen, Hsieh Ming-Mu, Tseng Wei-Lung, Chang Huan-Tsung

机构信息

Department of Chemistry, National Taiwan University, Taipei, Taiwan.

出版信息

J Proteome Res. 2006 Feb;5(2):429-36. doi: 10.1021/pr050298y.

Abstract

In this paper, we describe a method for analyzing large-volume protein samples using capillary electrophoresis in conjunction with laser-induced fluorescence detection (CE-LIF). To improve the stacking and separation efficiencies of proteins, we added either 0.01% sodium dodecyl sulfate (SDS) or 0.01% poly(ethylene oxide) (PEO) to the Tris-borate solutions (pH 10.0) used to prepare the protein samples. After injection of the large-volume samples (ca. 1.0 microL, 0.1 microM), the proteins migrate against the electroosmotic flow (EOF) and enter the PEO zone; this process causes them to slow and stack at the boundary between the PEO and sample zones. As a result, the limits of detection (LODs) at a signal-to-noise (S/N) of 3 for most proteins are sub-nM to several nM. For instance, the LOD (S/N = 3) for alpha-lactalbumin is 0.48 nM, which is an 84-fold sensitivity enhancement over the traditional method. By applying a short plug of 0.2% SDS prior to sample injection, a greater number of peaks, representing the microheterogeneity of the proteins, were resolved and the stacking efficiency of the proteins increased slightly. This method allowed us to detect 12 peaks when injecting a large volume of sample containing six model proteins (0.1 microM). We also analyzed the microheterogeneities of the proteins by using CE with UV-Vis absorption detection when injecting a large volume of sample containing six model proteins (1.0 microM) in the presence of a 1.0% SDS plug. The practical method is validated by the detection of human serum albumin in a urine sample, obtained from a healthy female, without sample pretreatment; its concentration was 0.18 microM. We further demonstrate the capability of this method to detect low amounts of proteins through the detection of 45 nM hemoglobin after injecting ca. 1.0 microL of ultradilute lysed red blood cells. The experimental results indicate that our proposed method has great potential for use in diagnosis and proteomics applications.

摘要

在本文中,我们描述了一种结合激光诱导荧光检测(CE-LIF)使用毛细管电泳分析大量蛋白质样品的方法。为了提高蛋白质的堆积和分离效率,我们向用于制备蛋白质样品的Tris-硼酸盐溶液(pH 10.0)中添加了0.01%的十二烷基硫酸钠(SDS)或0.01%的聚环氧乙烷(PEO)。在注入大量样品(约1.0微升,0.1微摩尔)后,蛋白质逆着电渗流(EOF)迁移并进入PEO区域;这个过程使它们在PEO和样品区域的边界处减速并堆积。结果,大多数蛋白质在信噪比(S/N)为3时的检测限为亚纳摩尔到几纳摩尔。例如,α-乳白蛋白的检测限(S/N = 3)为0.48纳摩尔,比传统方法的灵敏度提高了84倍。在样品注入前施加一段0.2%的SDS短塞,解析出了更多代表蛋白质微不均一性的峰,并且蛋白质的堆积效率略有提高。当注入含有六种模型蛋白质(0.1微摩尔)的大量样品时,该方法使我们能够检测到12个峰。在存在1.0% SDS短塞的情况下,当注入含有六种模型蛋白质(1.0微摩尔)的大量样品时,我们还使用紫外-可见吸收检测的毛细管电泳分析了蛋白质的微不均一性。该实用方法通过在未经样品预处理的情况下检测来自健康女性的尿液样品中的人血清白蛋白得到验证;其浓度为0.18微摩尔。我们进一步通过在注入约1.0微升超稀释裂解红细胞后检测45纳摩尔血红蛋白,证明了该方法检测低含量蛋白质的能力。实验结果表明,我们提出的方法在诊断和蛋白质组学应用中具有巨大的潜力。

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