使用特殊形状的金纳米颗粒作为标记物对DNA进行原位扩增化学发光检测及对IgG进行免疫分析。

In situ amplified chemiluminescent detection of DNA and immunoassay of IgG using special-shaped gold nanoparticles as label.

作者信息

Wang Zhouping, Hu Jianqiang, Jin Yan, Yao Xin, Li Jinghong

机构信息

Department of Chemistry, Key Laboratory of Bioorganic Phosphorus Chemistry and Chemical Biology, Tsinghua University, Beijing, People's Republic of China.

出版信息

Clin Chem. 2006 Oct;52(10):1958-61. doi: 10.1373/clinchem.2006.071399. Epub 2006 Jul 20.

DOI:10.1373/clinchem.2006.071399

PMID:16858071

Abstract

BACKGROUND

Au(III) catalyzed luminol chemiluminescence (CL) is classic in luminescence analysis. Recently, spherical gold nanoparticles (Au-NPs) were found displaying far stronger catalytic activity on luminol CL than that of Au(III). Some methods based on Au-NPs probes have been developed for DNA detection or immunoassay. However, more complicated labeling or stripping procedures are often inescapable in these protocols.

METHODS

We synthesized specially shaped, irregular gold nanoparticles (IGNPs) and found their catalytic efficiency on luminol CL to be 100-fold greater than that of spherical Au-NPs. Using the IGNPs-functionalized DNA oligomers and the IGNPs-modified anti-IgG as in situ chemiluminescent probes, we established sandwich-type analytic methods for rapid, simple, selective, and sensitive sequence-specific DNA detection and for human plasma IgG immunoassay, respectively. We used 12 clinical human plasma samples to examine the precision and accuracy of the proposed method for IgG content determination.

RESULTS

Calibration curves for the oligonucleotide [DeltaI = 15.73 + 27.55 (DNA) x 10(10) (mol/L); R(2) = 0.9936] and IgG [DeltaI = 48.84 + 30.23 (IgG) x 10(10) (mol/L); R(2) = 0.9964] show good correlation, demonstrating the linear response over the concentrations tested (0.04-10 nmol/L for DNA, 0.05-10 nmol/L for IgG). The limit of detection, calculated based on 50 microL of a solution of calibrators, was 13 pmol/L for DNA and 17 pmol/L for IgG, with a signal-to-noise ratio of 3. We obtained good intra-and interassay reproducibility. The IgG contents in 12 human plasma samples obtained by the proposed method are identical with the data of clinical laboratory.

CONCLUSIONS

We developed a simple and sensitive method for in situ amplified chemiluminescence detection of sequence-specific DNA and immunoassay of IgG by use of highly active, specially shaped, irregular gold nanoparticles (IGNPs) as label and confirmed by clinical samples test. This method has many desirable features including rapid detection, selectivity, and little required instrumentation. This new protocol may be quite promising, with potentially broad applications for clinical immunoassays and DNA hybridization analysis.

摘要

背景

金（III）催化的鲁米诺化学发光（CL）在发光分析中是经典的。最近，发现球形金纳米颗粒（Au-NPs）对鲁米诺CL的催化活性远高于金（III）。已经开发了一些基于Au-NPs探针的方法用于DNA检测或免疫分析。然而，在这些方案中，更复杂的标记或剥离程序往往不可避免。

方法

我们合成了特殊形状的不规则金纳米颗粒（IGNPs），发现它们对鲁米诺CL的催化效率比球形Au-NPs高100倍。使用IGNPs功能化的DNA寡聚物和IGNPs修饰的抗IgG作为原位化学发光探针，我们分别建立了用于快速、简单、选择性和灵敏的序列特异性DNA检测以及人血浆IgG免疫分析的夹心型分析方法。我们使用12份临床人血浆样本检验了所提出的IgG含量测定方法的精密度和准确性。

结果

寡核苷酸的校准曲线[ΔI = 15.73 + 27.55（DNA）×10¹⁰（mol/L）；R² = 0.9936]和IgG的校准曲线[ΔI = 48.84 + 30.23（IgG）×10¹⁰（mol/L）；R² = 0.9964]显示出良好的相关性，表明在所测试的浓度范围内呈线性响应（DNA为0.04 - 10 nmol/L，IgG为0.05 - 10 nmol/L）。基于50 μL校准液溶液计算的检测限，DNA为13 pmol/L，IgG为17 pmol/L，信噪比为3。我们获得了良好的批内和批间重现性。通过所提出的方法获得的12份人血浆样本中的IgG含量与临床实验室数据一致。

结论

我们开发了一种简单灵敏的方法，利用高活性、特殊形状的不规则金纳米颗粒（IGNPs）作为标记物，用于序列特异性DNA的原位放大化学发光检测和IgG的免疫分析，并通过临床样本测试得到了证实。该方法具有许多理想的特性，包括检测快速、选择性好以及所需仪器少。这种新方案可能很有前景，在临床免疫分析和DNA杂交分析中具有潜在的广泛应用。