多重快照微序列检测伊朗苯丙酮尿症患者常见多环芳烃基因突变

Q2 Biochemistry, Genetics and Molecular Biology
Pegah Namdar Aligoodarzi, Golale Rostami, Seyed Reza Kazemi Nezhad, Mohammad Hamid
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引用次数: 1

摘要

背景:苯丙酮尿症是世界上常见的先天性氨基酸代谢缺陷。这种失败是由肝酶高苯丙氨酸血症(PAH)的常染色体隐性不足引起的,PAH催化苯丙氨酸不可逆的羟基化为酪氨酸。在多环芳烃基因中已经发现了超过1040种不同的致病突变。苯丙酮尿症最突出的并发症,如果不诊断和治疗,是严重的智力迟钝。因此,早期诊断和开始营养治疗是预防这种精神障碍的最重要措施。鉴于这些数据,我们开发了一种简单快速的分子检测方法来检测最常见的多环芳烃突变。方法:基于SNaPshot微序列测序方法建立多重检测方法,同时对PAH基因的10个突变进行基因分型。我们在一次多重PCR中优化了这些突变的检测,随后进行了10次单核苷酸延伸反应。DNA测序法也用于验证SNaPshot微测序获得的基因分型结果。结果:10个基因型均可通过单张电泳峰的位置和荧光颜色来确定。这些频繁突变的测序结果表明,使用该方法可以在伊朗人群中实现100%的检出率。结论:SNaPshot微序列法可作为新生儿HPA筛查阳性新生儿的二次检测方法,也适用于携带者筛查。该分析可以很容易地应用于准确和时间和成本效益的基因分型所选择的snp在不同的人群。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multiplex Snapshot minisequencing for the detection of common PAH gene mutations in Iranian patients with Phenylketonuria

Multiplex Snapshot minisequencing for the detection of common PAH gene mutations in Iranian patients with Phenylketonuria

Multiplex Snapshot minisequencing for the detection of common PAH gene mutations in Iranian patients with Phenylketonuria

Multiplex Snapshot minisequencing for the detection of common PAH gene mutations in Iranian patients with Phenylketonuria

Background: Phenylketonuria is a common inborn defect of amino acid metabolism in the world. This failure is caused by an autosomal recessive insufficiency of the hepatic enzyme hyperphenylalaninemia (PAH), which catalyzes the irreversible hydroxylation of phenylalanine to tyrosine. More than 1,040 different disease-causing mutations have already been identified in the PAH gene. The most prominent complication of Phenylketonuria, if not diagnosed and treated, is severe mental retardation. Hence, early diagnosis and initiation of nutritional therapy are the most significant measures in preventing this mental disorder. Given these data, we developed a simple and rapid molecular test to detect the most frequent PAH mutations.

Methods: Multiplex assay was developed based on the SNaPshot minisequencing approach to simultaneously perform genotyping of the 10 mutations at the PAH gene. We optimized detection of these mutations in one multiplex PCR, followed by 10 single-nucleotide extension reactions. DNA sequencing assay was also used to verify genotyping results obtained by SNaPshot minisequencing.

Result: All 10 genotypes were determined based on the position and the fluorescent color of the peaks in a single electropherogram. Sequencing results of these frequent mutations showed that by using this method, a 100% detection rate could be achieved in the Iranian population.

Conclusion: SNaPshot minisequencing can be useful as a secondary test in neonatal screening for HPA in neonates with a positive screening test, and it is also suitable for carrier screening. The assay can be easily applied for accurate and time- and cost-efficient genotyping of the selected SNPs in various population.

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来源期刊
Iranian Biomedical Journal
Iranian Biomedical Journal Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)
CiteScore
3.20
自引率
0.00%
发文量
42
审稿时长
8 weeks
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