Gerber:What We Do

Global analysis of post-transcriptional gene regulation
Post-transcriptional control of gene expression involves RNA processing, transport, turnover and mRNA translation. Regulation of these steps has substantial effects on the expression and function of genes in diverse processes such cytokinesis, embryonic development, neurogenesis and cancer progression. RNA-binding proteins (RBPs) have been implicated in diverse aspects of post-transcriptional gene expression. Hundreds of RBPs are encoded in eukaryotic genomes, and whereas many classical studies explored the cellular role of RBPs with specific mRNA substrates, the recent development of genome-wide analysis tools enables systematic identification of mRNA substrates of RBPs, and the study of post-transcriptional gene regulation on a global scale. Importantly, these studies revealed that many RBPs bind to and regulate subsets of mRNAs, which encode proteins that are localized to the same subcellular compartment, act in the same pathway or are components of macromolecular complexes. Moreover, these sets of mRNAs often contain characteristic sequence elements in the 3'-untranslated regions, which are potential binding sites for regulatory RBPs (Gerber et al. 2004). These findings strongly indicate the presence of extensive post-transcriptional regulatory systems in eukaryotic cells, which may be comparable in its extent and richness to that of transcriptional regulatory networks.

We are interested in exploring this RBP-mediated post-transcriptional program. We use genome-wide analysis tools like DNA microarrays to elucidate basic principles (e.g. systematically map RNA-protein interactions), and we apply ‘classical' biochemical, genetic and cell-biological methods to further investigate specific functional aspects of the RNA-protein network. We use yeast as model system to establish techniques for the global analysis of RNA regulation, and to investigate basic principles. In addition, we study the post-transcriptional program in mammalian cells and investigate how it may be perturbed in certain disease states (e.g. tumorigenic cells).

Reviews:
 * Kanitz, A, Gerber, AP (2010) Circuitry of mRNA regulation. Wiley Interdisciplinary Reviews: Systems Biology and Medicine 2, 245-251.
 * Halbeisen, R, Galgano A, Scherrer T, Gerber AP (2008) Post-transcriptional gene regulation: From genome-wide studies to principles. Cellular and Molecular Life Sciences 65(5):798-813.