Expression profiles

Landgrebe J, Welzl G, Metz T et al (2002) Molecular characterisation of antidepressant effects in the mouse brain using gene expression profiling. J Psychiatr Res 36 119-129... [Pg.116]

Refers to the physical substrate to which biological samples are attached to create features (spots). In gene expression profiling arrays are hybridized with labeled sample and then scanned and analyzed to generate data. [Pg.222]

Gene Expression Analysis. Figure 2 Contribution of gene expression profiling to the drug discovery process. [Pg.529]

The most common application of microarray technology is in monitoring gene expression (gene expression profiling). [Pg.765]

Toxicology Many companies are known to use gene expression profiling to assess the potential toxicity of lead compounds. This approach may require a database of reference compounds with known pharmacological and toxicological properties. Lead compounds can be compared to the database to predict compound-related or mechanism-related toxicity [5]. [Pg.769]

Filby, A.L., Thorpe, K.L., Maack, G. et al. (2007b). Gene expression profiles revealing the mechanisms of anti-androgen and estrogen-induced feminization in fish. Aquatic... [Pg.347]

Hughes TR, Marton MJ, Jones AR, Roberts CJ, Stoughton R, Armour CD, et al. Eunctional discovery via a compendium of expression profiles. Cell 2000 102 109-26. [Pg.160]

Li Y, Hong X, Hussain M, Sarkar SH, Li R, Sarkar FH. Gene expression profiling revealed novel molecular targets of docetaxel and estramustine combination treatment in prostate cancer cells. Mol Cancer Ther 2005 4 389-98. [Pg.164]

Luo W, Fan W, Xie H, ling L, Ricicki E, Vouros P, et al. Phenotypic anchoring of global gene expression profiles induced by A -hydroxy-4-acetylaminobiphenyl and benzo[a]pyrene diol epoxide reveals correlations between expression profiles and mechanism of toxicity. Chem Res Toxicol 2005 18 619-29. [Pg.165]

Ise R, Han D, Takahashi Y, Terasaka S, Inoue A, Tanji M, et al. Expression profiling of the estrogen responsive genes in response to phytoestrogens using a customized DNA microarray. FEBS Lett 2005 579 1732-40. [Pg.165]

Sorensen TL, Sellebjerg F (2001) Distinct chemokine receptor and cytokine expression profile in secondary progressive MS. Neurology 57 1371-1376 Sorensen TL, Tani M, Jensen J, Pierce V, Lucchinetti C, Folcik VA, Qin S, Rottman J, Sellebjerg F, Strieter RM, Frederiksen JL, Ransohoff RM (1999) Expression of specific chemokines and chemokine receptors in the central nervous system of multiple sclerosis patients. J Clin Invest 103 807-815... [Pg.144]

LEE c-K, KLOPP R G, WEINDRUCH R and PROLLA T A (1999) Gene expression profile of aging and its retardation by caloric restriction. Science 285 1390-93. [Pg.237]

Adjunctive to flux control analysis, other components of metabolism that contribute to product accumulation are needed including (1) substrate/precursor pool sizes (metabolomics), (2) co-factor capacities (metabolomics), (3) gene expression profiles (transcriptomics and quanfifafive real-time PCR), (4) protein profiles (pro-... [Pg.356]

Watanabe N, Ando K, Yoshida S, et al. Gene expression profile analysis of rheumatoid synovial fibroblast cultures revealing the overexpression of genes responsible for tumor-like growth of rheumatoid synovium. Biochem Biophys Res Commun 2002 294(5) 1121-1129. [Pg.195]

Nagase H, Kudo K, Izumi S, et al. Chemokine receptor expression profile of eosinophils at inflamed tissue sites decreased CCR3 and increased CXCR4 expression by lung eosinophils. J Allergy Clin Immunol 2001 108(4) 563-569. [Pg.255]

Fig. 14.1. The Thl/Th2 balance is central to the regulation of normal wound repair. Tissue injury results in the initiation of an inflammatory response, mediated by a variety of cells and their by-products. Immune cells are recruited and cross-regulate the Thl/ Th2 balance that occurs in response to the cytokine environment. This balance is in turn cross-regulated by the chemokine/chemokine-receptor expression profile, which functions to amplify the inflammatory process. Cells residing in the injured tissue release profibrotic mediators, which promote fibroblast activation, proliferation, and differentiation to the myofibroblast phenotype. Myofibroblasts produce collagen to repair damaged tissue, which is an event that is favored by the inhibition of MMP activity. The Thl/Th2 balance is central to whether a normal or aberrant wound-repair process is established A Thl environment promotes normal tissue resolution (fibrinolysis), whereas a Th2 environment maintains the progression of fibrotic disease (excessive collagen deposition).

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