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Gross chromosomal rearrangements (GCRs), including translocations, deletions, amplifications and aneuploidy are frequently observed in various types of human cancers. Despite their clear importance in carcinogenesis, the molecular mechanisms by which GCRs are generated and held in check are poorly understood. By using a GCR assay, which can measure the rate of accumulation of spontaneous GCRs in Saccharomyces cerevisiae, we have found that many proteins involved in DNA replication, DNA repair, DNA recombination, checkpoints, chromosome remodeling, and telomere maintenance, play crucial roles in GCR metabolism. We describe here the theoretical background and practical procedures of this GCR assay. We will explain the breakpoint structure and DNA damage that lead to GCR formation. We will also summarize the pathways that suppress and enhance GCR formation. Finally, we will briefly describe similar assays developed by others and discuss their potential in studying GCR metabolism.
Pubmed ID: 17189859 RIS Download
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A curated database that provides comprehensive integrated biological information for Saccharomyces cerevisiae along with search and analysis tools to explore these data. SGD allows researchers to discover functional relationships between sequence and gene products in fungi and higher organisms. The SGD also maintains the S. cerevisiae Gene Name Registry, a complete list of all gene names used in S. cerevisiae which includes a set of general guidelines to gene naming. Protein Page provides basic protein information calculated from the predicted sequence and contains links to a variety of secondary structure and tertiary structure resources. Yeast Biochemical Pathways allows users to view and search for biochemical reactions and pathways that occur in S. cerevisiae as well as map expression data onto the biochemical pathways. Literature citations are provided where available.
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