Outer membrane vesicles (OMVs) are spherical bilayered proteolipids released from the cell surfaces of bacteria, which have gained traction in the biotechnology fields. Bacterial cellular machinery can be genetically engineered to produce and package heterologous enzymes into OMVs, producing nanocarriers and nanoparticle catalysts. However, the productivity or efficiency of packaging the target protein into OMVs has not been quantitatively evaluated. In this study, we packaged green fluorescence protein (GFP) into the OMVs of Escherichia coli through N-terminal fused expression to outer membrane protein W (OmpW). The OMV productivity and amount of OmpW-GFP packaged in the OMVs were quantitatively compared between two hypervesiculating mutant strains nlpI and degP. Both strains increased the OMV production, but the nlpI strain additionally enhanced the packaging of OmpW-GFP into OMVs. It was further confirmed that Spr, a peptidoglycan endopeptidase, plays an important role in the enhanced packaging of OmpW-GFP into OMVs through the increased OmpW-GFP expression on the nlpI cells. Finally, the amount of OmpW-GFP released in the OMV fraction of both mutants was determined in terms of the OMV productivity and the packaging efficiency of OmpW-GFP into OMVs. (c) 2017 American Institute of Chemical Engineers Biotechnol. Prog., 34:51-57, 2018