
pmid: 17437886
The study of the expression patterns of many genes, or even the entire genome, is now routinely possible. Such powerful tools have enabled hypothesis-generating research at a scale never before possible. Moreover, spatially or temporally linked gene and protein expression, implying co-regulation and functional relatedness, has led to the identification of particular clusters of genes important for fundamental biologic processes, such as development and cancer. Not only is this expected to yield further mechanistic insights into disease processes, but perhaps most exciting, it will likely establish the foundation of predictive medicine, in which understanding of individual genomic signatures leads to the use of appropriately targeted therapy.At the conclusion of this learning activity, participants should be able to understand the fundamental tenets of molecular biology as they relate to the field of genomics.
Proteomics, Genome, Human, Pharmacogenetics, Gene Expression Profiling, Computational Biology, Humans, DNA, Genomics, Skin Diseases
Proteomics, Genome, Human, Pharmacogenetics, Gene Expression Profiling, Computational Biology, Humans, DNA, Genomics, Skin Diseases
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