Cybertory/spl贸易/虚拟分子生物学实验室的模拟药物基因组学练习

2005 IEEE Computational Systems Bioinformatics Conference - Workshops (CSBW'05) Pub Date : 2005-08-08 DOI:10.1109/CSBW.2005.126

C. Troup, Bill Martin, Carl E. McMillin, R. Horton

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引用次数: 0

摘要

新兴的药物基因组学应用基因组技术，根据药物靶点和药物代谢酶的基因序列来预测个体对治疗药物的反应。首个对两种重要药物代谢酶(CYP450 2D6和2C19)进行基因分型的诊断试验已获得FDA批准。该分析包括PCR扩增和使用DNA微阵列识别功能相关的snp。我们利用开源的Cybertory(TM)虚拟分子生物学实验室(www.cybertory)开发了一种模拟PCR和微阵列分析这些重要酶的方法。cybertory.org)。基因组序列通过将等位基因序列替换到完整的人类参考基因组框架中，从这些简洁的基因型描述中实例化。PCR产物可用作微阵列杂交探针。利用Cybertory(TM)微阵列图像发生器，我们设计了一个虚拟的“SNP芯片”，根据完全匹配和不匹配探针组的信号强度来区分CYP450 2D6的等位基因。

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Simulated pharmacogenomics exercises for the Cybertory/spl trade/ Virtual Molecular Biology Laboratory

The emerging discipline of pharmacogenomics applies genomic technologies to predict individuals' responses to therapeutic drugs based on the genetic sequences of drug targets and enzymes involved in drug metabolism. The first diagnostic test for genotyping two important drug metabolizing enzymes (CYP450 2D6 and 2C19) has been FDA approved. This assay involves PCR amplification and identification of functionally relevant SNPs using a DNA microarray. We have developed a simulation of PCR and microarray analysis of these important enzymes using the open-source Cybertory(TM) Virtual Molecular Biology Laboratory (www. cybertory.org). Genomic sequences are instantiated from these succinct genotype descriptions by substituting allele sequences onto a framework of the full human reference genome. PCR products can be used as probes for microarray hybridization. Using the Cybertory(TM) microarray image generator, we have designed a virtual "SNP chip" to distinguish alleles of CYP450 2D6 based on signal intensities from perfect match and mismatched probe sets.

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2005 IEEE Computational Systems Bioinformatics Conference - Workshops (CSBW'05)

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