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Bacterial microcompartments are protein organeles involved in various processes in cells. One of the largest microcompartments are found in Salmonella enterica, which are synthesized from the Pdu operon and are involved in 1,2-propandiol metabolism. This microcompartment is composed of subunits: Pdu A, B, B', J, K, N, T, U, which first self-assemble into homohexamers or homopentamers and then assemble into microcompartment. There are several enzymes that are selectively encapsulated in microcompartments via their special peptide carried by the enzyme. This microcompartment packaging sequences can be linked to the protein of interest to direct it into the microcompartment. Due to this property microcompartments have a potential to be exploited as reactors in biotechnology. Researchers encapsulated enzymes from a certain metabolic pathway to obtain larger yield for a target metabolite or they showed that enzymes can be encapsulated, which intermediates or end products are toxic. As similarly to the lipid membrane, also the Pdu protein cages are selective for certain type of metabolites, this precludes that the toxic metabolites are preserved inside the compartments and do not harm the producing cell. In the process of development of the novel method to elucidate nucleoprotein complexes we in this study encapsulated into the Pdu microcompartment a transcription factor LacI, which is fused to short peptide sequence of protein PduD, directing the protein into the compartment, and to enhanced green fluorescent protein (EGFP) at the amino- or the carboxy- terminus, respectively. The experimental setup enabled us to isolate the microcompartments by the affinity cromatography from E. coli cells.