Reconstruction of human genome evolution in yeast: an educational primer for use with "systematic humanization of the yeast cytoskeleton discerns functionally replaceable from divergent human genes"

Abstract

The evolution of eukaryotic organisms starting with the last eukaryotic common ancestor was accompanied by lineage-specific expansion of gene families. A paper by Garge et al. provides an excellent opportunity to have students explore how expansion of gene families via gene duplication results in protein specialization, in this case in the context of eukaryotic cytoskeletal organization . The authors tested hypotheses about conserved protein function by systematic "humanization" of the yeast cytoskeletal components while employing a wide variety of methodological approaches. We outline several exercises to promote students' ability to explore the genomic databases, perform bioinformatic analyses, design experiments for functional analysis of human genes in yeast and critically interpret results to address both specific and general questions.

Keywords: cytoskeleton; evolution; functional homology; gene swapping; origin of new genes; yeast.