Macromolecular complexes are responsible for most of the essential mechanisms in cells, leading to a broad interest in their purification and characterization. Co-expression is now widely recognized as a major technique for assembling multiprotein complexes and many co-expression systems are currently available for performing co-expression experiments in different hosts. However, comparative knowledge on co-expression strategies is still crucially lacking. Using versatile co-expression systems for Escherichia coil, the pET-MCN and pET-MCP series, and ternary protein complexes as examples, we demonstrate how to successfully delineate correct co-expression strategies. Specifically, an appropriate, complex-dependent approach alleviates stoichiometry imbalance and yield problems, and even failure in producing complexes. Importantly, some of the parameters influencing co-expression strategies appear independent of the expression host, thus having implications for co-expression in eukaryotic hosts. By further using these strategies, we show that co-expression in E. coil enables reconstitution of protein complexes as large as the deubiquitination module of the SAGA transcription factor and the histone octamer. (C) 2011 Elsevier Inc. All rights reserved.