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本文引用的文献

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Advances in the treatment of hepatitis C virus infection.丙型肝炎病毒感染治疗的进展
Gastroenterol Hepatol (N Y). 2012 Feb;8(2):91-101.
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Hepatitis C.丙型肝炎
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Simple assay based on restriction fragment length polymorphism associated with IL28B in chronic hepatitis C patients.基于慢性丙型肝炎患者中与IL28B相关的限制性片段长度多态性的简易检测方法。
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IL28B polymorphism is associated with both side effects and clearance of hepatitis C during interferon-alpha therapy.IL28B基因多态性与α干扰素治疗丙型肝炎期间的副作用及病毒清除均相关。
J Interferon Cytokine Res. 2011 Mar;31(3):331-6. doi: 10.1089/jir.2010.0074. Epub 2010 Dec 6.
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Pre-treatment prediction of response to pegylated-interferon plus ribavirin for chronic hepatitis C using genetic polymorphism in IL28B and viral factors.采用 IL28B 基因多态性和病毒因素对聚乙二醇干扰素联合利巴韦林治疗慢性丙型肝炎的反应进行预处理预测。
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Predictive value of the IL28B polymorphism on the effect of interferon therapy in chronic hepatitis C patients with genotypes 2a and 2b.IL28B 多态性对基因型 2a 和 2b 的慢性丙型肝炎患者干扰素治疗效果的预测价值。
J Hepatol. 2011 Mar;54(3):408-14. doi: 10.1016/j.jhep.2010.07.032. Epub 2010 Sep 19.
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Importance of IL28B gene polymorphisms in hepatitis C virus genotype 2 and 3 infected patients.IL28B 基因多态性在丙型肝炎病毒基因型 2 和 3 感染患者中的重要性。
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Pharmacogenomics. Gene variants affect hepatitis C treatment, but link is elusive.药物基因组学。基因变异影响丙型肝炎治疗,但关联难以捉摸。
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IL28B genomic-based treatment paradigms for patients with chronic hepatitis C infection: the future of personalized HCV therapies.基于 IL28B 基因组的慢性丙型肝炎感染患者治疗模式:个性化 HCV 治疗的未来。
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基于新型生物传感器的微阵列分析检测 rs8099917 和 rs12979860 基因型。

Novel biosensor-based microarray assay for detecting rs8099917 and rs12979860 genotypes.

机构信息

Department of Gastroenterology, the Fifth Affiliated Hospital of Sun Yat-Sen University, Zhuhai 519000, Guangdong Province, China.

出版信息

World J Gastroenterol. 2012 Nov 28;18(44):6481-8; discussion p. 6487. doi: 10.3748/wjg.v18.i44.6481.

DOI:10.3748/wjg.v18.i44.6481
PMID:23197895
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3508644/
Abstract

AIM

To evaluate a novel biosensor-based microarray (BBM) assay for detecting rs12979860 and rs8099917 genotypes.

METHODS

Four probes specific for rs8099917C/T or rs12979860G/T detection and three sets of quality control probes were designed, constructed and arrayed on an optical biosensor to develop a microarray assay. Two sets of primers were used in a one tube polymerase chain reaction (PCR) system to amplify two target fragments simultaneously. The biosensor microarray contained probes that had been sequenced to confirm that they included the rs8099917C/T or rs12979860G/T alleles of interest and could serve as the specific assay standards. In addition to rehybridization of four probes of known sequence, a total of 40 clinical samples collected from hepatitis C seropositive patients were also tested. The target fragments of all 40 samples were amplified in a 50 μL PCR system. Ten μL of each amplicon was tested by BBM assay, and another 40 μL was used for sequencing. The agreement of the results obtained by the two methods was tested statistically using the kappa coefficient. The sensitivity of the BBM assay was evaluated using serial dilutions of ten clinical blood samples containing 10(3)-10(4) white cells/μL.

RESULTS

As shown by polyacrylamide gel electrophoresis, two target segments of the interleukin 28B-associated polymorphisms (SNPs) were successfully amplified in the one-tube PCR system. The lengths of the two amplified fragments were consistent with the known length of the target sequences, 137 and 159 bps. After hybridization of the PCR amplicons with the probes located on the BBM array, the signals of each allele of both the rs8099917 SNPs and rs12979860 SNPs were observed simultaneously and were clearly visible by the unaided eye. The signals were distinct from each other, could be interpreted visually, and accurately recorded using an ordinary digital camera. To evaluate the specificity of the assay, both the plasmids and clinical samples were applied to the microarray. First, 30 PCR amplicons of the various SNP alleles were hybridized on the BBM microarray. Full agreement between plasmids and the BBM assay was observed, with 30/30 correct matches (100%). The kappa value for the BBM assay with plasmids was 1.00 (P < 0.05). For the 40 clinical blood samples, the BBM assay hybridization and direct sequencing results were compared for each amplicon. For patient blood samples, agreement was 28/28 for rs8099917T/T, 9/11 for rs8099917T/G, 1/1 for rs8099917G/G, 24/24 for rs12979860C/C, 11/14 for rs12979860C/T, and 2/2 for rs12979860T/T. Only five clinical samples of amplicon assay and direct sequencing results were discordant and heterozygotes: 2/11 rs8099917T/G and 3/14 rs12979860C/T. The agreement of outcomes between BBM assay and direct sequencing for the detection of rs8099917 and rs12979860 was 95% and 92.5%, respectively; and the corresponding kappa values were 0.88 and 0.85 (A kappa value > 0.75 was defined as substantial agreement). The BBM assay and sequencing had similar specificities for detection and identification of the two SNPs and their alleles. The sensitivity evaluation showed that the BBM assay could detect and identify SNP sequences present in blood samples containing as few as 10(2) white blood cells/μL.

CONCLUSION

This biosensor microarray assay was highly specific, sensitive, rapid and easy to perform. It is compatible with clinical practice for detection of rs8099917 and rs12979860.

摘要

目的

评估一种新型基于生物传感器的微阵列(BBM)检测方法,用于检测 rs12979860 和 rs8099917 基因型。

方法

设计、构建并在光学生物传感器上排列四个专门用于检测 rs8099917C/T 或 rs12979860G/T 的探针,以及三组质量控制探针,以开发微阵列检测方法。使用一套引物在一个管聚合酶链反应(PCR)系统中同时扩增两个目标片段。生物传感器微阵列包含已测序以确认其包含感兴趣的 rs8099917C/T 或 rs12979860G/T 等位基因的探针,并且可以作为特定的检测标准。除了重新杂交四个已知序列的探针外,还测试了来自丙型肝炎阳性患者的总共 40 个临床样本。将所有 40 个样本的目标片段在 50μL PCR 系统中扩增。用 BBM 检测方法测试每个扩增子的 10μL,另外 40μL 用于测序。使用 Kappa 系数对两种方法的结果进行统计学一致性检验。使用含有 10(3)-10(4)个白细胞/μL 的十个临床血样的连续稀释来评估 BBM 检测方法的灵敏度。

结果

如聚丙烯酰胺凝胶电泳所示,成功地在一个管 PCR 系统中扩增了与白细胞介素 28B 相关的多态性(SNP)的两个目标片段。两个扩增片段的长度与已知的目标序列长度一致,分别为 137 和 159 个碱基对。PCR 扩增子与 BBM 阵列上的探针杂交后,可同时观察到两个 rs8099917SNP 和 rs12979860SNP 等位基因的信号,肉眼清晰可见。信号彼此明显不同,可以通过肉眼进行解释,并且可以使用普通数码相机准确记录。为了评估该检测方法的特异性,将质粒和临床样本均应用于微阵列。首先,将 30 个不同 SNP 等位基因的 PCR 扩增子杂交在 BBM 微阵列上。质粒与 BBM 检测方法的完全一致,30/30 个正确匹配(100%)。BBM 检测方法与质粒的 Kappa 值为 1.00(P<0.05)。对于 40 个临床血样,比较了每个扩增子的 BBM 杂交和直接测序结果。对于患者血样,rs8099917T/T 为 28/28,rs8099917T/G 为 9/11,rs8099917G/G 为 1/1,rs12979860C/C 为 24/24,rs12979860C/T 为 11/14,rs12979860T/T 为 2/2。只有五个临床样本的扩增子检测和直接测序结果不一致且为杂合子:rs8099917T/G 有 2/11,rs12979860C/T 有 3/14。BBM 检测方法和直接测序用于检测 rs8099917 和 rs12979860 的结果之间的一致性分别为 95%和 92.5%,相应的 Kappa 值分别为 0.88 和 0.85(A Kappa 值>0.75 被定义为显著一致性)。BBM 检测方法和测序在检测和识别两个 SNP 及其等位基因方面具有相似的特异性。灵敏度评估表明,BBM 检测方法可以检测和识别血液样本中存在的 SNP 序列,最低可检测到 10(2)个白细胞/μL。

结论

这种基于生物传感器的微阵列检测方法具有高度特异性、灵敏度、快速和易于操作的特点。它与临床实践兼容,可用于检测 rs8099917 和 rs12979860。