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经肾DNA分析的优化:母体尿液中胎儿DNA的检测

Optimization of transrenal DNA analysis: detection of fetal DNA in maternal urine.

作者信息

Shekhtman Eugene M, Anne Kalpana, Melkonyan Hovsep S, Robbins David J, Warsof Steven L, Umansky Samuil R

机构信息

Xenomics Inc., Monmouth Junction, NJ 08852, USA.

出版信息

Clin Chem. 2009 Apr;55(4):723-9. doi: 10.1373/clinchem.2008.113050. Epub 2009 Jan 30.

DOI:10.1373/clinchem.2008.113050
PMID:19181739
Abstract

BACKGROUND

Fragments of DNA from cells dying throughout the body are detectable in urine (transrenal DNA, or Tr-DNA). Our goal was the optimization of Tr-DNA isolation and detection techniques, using as a model the analysis of fetal DNA in maternal urine.

METHODS

We isolated urinary DNA using a traditional silica-based method and using a new technique based on adsorption of cell-free nucleic acids on Q-Sepharose resin. The presence of Y chromosome-specific SRY (sex-determining region Y) sequences in urine of pregnant women was detected by conventional and real-time PCR using primers/probe sets designed for 25-, 39-, 65-, and 88-bp PCR targets.

RESULTS

Method of DNA isolation and PCR target size affected fetal Tr-DNA detection. Assay diagnostic sensitivity increases as the PCR target is shortened. Shorter DNA fragments (50-150 bp) could be isolated by Q-resin-based technique, which also facilitated fetal Tr-DNA analysis. Using DNA isolated by Q-resin-based method and an "ultrashort" DNA target, we successfully detected SRY sequences in 78 of 82 urine samples from women pregnant with male fetuses (positive predictive value 87.6%). Eleven of 91 urine samples from women pregnant with female fetuses produced SRY false-positive results (negative predictive value 95.2%).

CONCLUSIONS

Single-copy fetal DNA sequences can be successfully detected in the urine of pregnant women when adequate methods for DNA isolation and analysis are applied. Strong precautions against sample contamination with male cells and DNA are necessary to avoid false-positive results.

摘要

背景

在尿液中可检测到来自全身各处正在死亡细胞的DNA片段(经肾DNA,即Tr-DNA)。我们的目标是以孕妇尿液中的胎儿DNA分析作为模型,优化Tr-DNA的分离和检测技术。

方法

我们使用传统的基于硅胶的方法以及一种基于无细胞核酸吸附于Q-琼脂糖树脂的新技术来分离尿液DNA。使用针对25bp、39bp、65bp和88bp PCR靶点设计的引物/探针组,通过常规PCR和实时PCR检测孕妇尿液中Y染色体特异性SRY(性别决定区Y)序列的存在。

结果

DNA分离方法和PCR靶点大小影响胎儿Tr-DNA检测。随着PCR靶点缩短,检测诊断敏感性增加。基于Q-树脂的技术可分离较短的DNA片段(50 - 150bp),这也有助于胎儿Tr-DNA分析。使用基于Q-树脂方法分离的DNA和“超短”DNA靶点,我们在82例怀有男性胎儿的孕妇的尿液样本中成功检测到78例SRY序列(阳性预测值87.6%)。91例怀有女性胎儿的孕妇的尿液样本中有11例产生SRY假阳性结果(阴性预测值95.2%)。

结论

当应用适当的DNA分离和分析方法时,可在孕妇尿液中成功检测到单拷贝胎儿DNA序列。为避免假阳性结果,必须采取严格措施防止样本被男性细胞和DNA污染。

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