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Our lab studies eukaryotic transcription and chromatin structure using yeast as a model system. Yeast is an excellent model system, as there is extensive conservation between yeast and humans. In addition, by studying yeast one can use powerful genetic approaches that are not possible in larger eukaryotes. For example, high-resolution genetic screens and selections can be performed to study any aspect of gene regulation. In addition, any desired DNA sequence changes can be made in the yeast genome and its consequences analyzed, allowing rigorous in vivo analysis. Furthermore, the small yeast genome facilitates many types of genome-wide, deep-sequencing approaches, including those used to measure mRNA levels (RNA-seq), nucleosome positions (MNase-seq), and the binding of transcription factors (ChIP-seq). The small genome size of yeast, coupled with the ability to make genomic changes, also allows the study and elucidation of complex traits. Finally, as unicellular eukaryotes, yeast cells are valuable for the biochemical analysis of protein complexes and post-translational modifications.
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