Comparative genomics: From genome sequences to genome biology

Michael Y. Galperin
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引用次数: 2

Abstract

We have developed an invitro model system that consists of 300 human lymphoblastoid cell lines (LCLs) with extensive highthrough genomic data including genome wide SNPs, basal expression array, CpG methylation and microRNA data, together with drug cytotoxicity data to help identify candidate genes that might contribute to chemoresistance and response to targeted therapy and at the same time, to help understand the mechanisms involved in the variation in drug response. We have used this system to identify genes such as NT5C3 and FKBP5 that are important for response to cytidine analogues, gemcitabine and AraC, drugs that are commonly used to treat pancreatic, breast and hematological tumors. In addition, this system also allows us to validate biologically any signals identified during our clinical pharmacogenomic GWA studies. We have performed a GWAS using DNA samples from the largest breast cancer prevention trials, the NSABP P-1 and P-2 SERM (selective estrogen receptor modulator) prevention to identify markers that are associated with breast cancer risk after exposure to SERMs, tamoxifen and raloxifene. During the course of that study, we identified SNP signals in two genes, ZNF423 and CTSO showing that the risk alleles of these two SNP signals associated with Odds Ratio of 5.71 for breast cancer risk. Functional genomic studies further found a SNP dependent, estrogen or SERM dependent regulation of ZNF423 and CTSO expression, which is in parallel with the regulation of BRCA1 expression. These approaches using the LCL model let us to identify not only the potential candidate genes that could funciton as biomarkers for response to therapy but also help reveal novel biology underlying these genes and their involvement in regulation of important pathways in tumor growth and response to therapy.
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比较基因组学:从基因组序列到基因组生物学
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