Bacterial magnetic particles (BacMPs) produced by the magnetotactic bacterium Magnetospirillum magneticum AMB-1 are used for a variety of biomedical applications. In particular, the lipid bilayer surrounding BacMPs has been reported to be amenable to the insertion of recombinant transmembrane proteins; however, the display of transmembrane proteins in BacMP membranes remains a technical challenge due to the cytotoxic effects of the proteins when they are overexpressed in bacterial cells. In this study, a tetracyclineinducible expression system was developed to display transmembrane proteins on BacMPs. The expression and localization of the target proteins were confirmed using luciferase and green fluorescent protein as reporter proteins. Gene expression was suppressed in the absence of anhydrotetracycline, and the level of protein expression could be controlled by modulating the concentration of the inducer molecule. This system was implemented to obtain the expression of the tetraspanin CD81. The truncated form of CD81 including the ligand binding site was successfully displayed at the surface of BacMPs by using Mms13 as an anchor protein and was shown to bind the hepatitis C virus envelope protein E2. These results suggest that the tetracyclineinducible expression system described here will be a useful tool for the expression and display of transmembrane proteins in the membranes of BacMPs.Transmembrane proteins play critical roles in cellular metabolism, participating in processes such as ion transport, nutrient uptake, signal transduction, and intercellular communication. As evidence of the essential functions of these proteins, more than half of all drug targets have been shown to be transmembrane proteins, and the analysis of the interactions of transmembrane proteins and their ligands is one of the most promising avenues for the discovery of new drug candidates. As a means of producing sufficient amounts of transmembrane proteins for binding analyses, heterologous protein expression systems have been developed using Escherichia coli (10), yeast (16), insect, and mammalian (4) cells as hosts. Transmembrane proteins generally are expressed at low levels and are extremely hydrophobic, rendering the analysis of interactions with ligands very difficult. In all cases, the analysis of membrane proteins requires a lipid or similar synthetic environment to maintain the native structure and function of the proteins. The purification of transmembrane proteins from cells frequently is time-consuming and typically results in the loss of the proteins' native conformation.Magnetospirillum magneticum AMB-1 synthesizes intracellular nanosized bacterial magnetic particles (BacMPs; 50 to 100 nm); these are surrounded by a lipid bilayer membrane and exhibit strong ferrimagnetism. Functional soluble proteins have been expressed on BacMP surfaces through gene fusion techniques (11,21,24,27) using BacMP membrane proteins (MagA, Mms16, and Mms13) as anchor proteins; this approach permits heterologous proteins to be localized eff...
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