Ribosomes are extremely soluble ribonucleoprotein complexes. Heterologous target proteins were fused to ribosomal protein L23 (rpL23) and expressed in an rpL23 deficient Escherichia coli strain. This enabled the isolation of 70S ribosomes with covalently bound target protein. Isolation of recombinant proteins from 70S ribosomes was achieved by specific proteolytic cleavage followed by efficient removal of ribosomes by centrifugation. By this procedure we isolated active green fluorescent protein, streptavidin (SA), and murine interleukin-6 (mIL-6). Approximately 500microg of each protein was isolated per gram cellular wet weight. By pull-down assays we demonstrate that SA covalently bound to the ribosome binds d-biotin. Ribosomal coupling is therefore suggested as a method for the investigation of protein interactions. The presented strategy is in particular efficient for the expression, purification, and investigation of proteins forming inclusion bodies in the E. coli cytoplasm.