In this study, we tested the possibility of creating complexes of two proteins by fusing them with heterodimerizing helices. We used the fluorescent proteins GFP and mCHERRY expressed with a His-tag as our model system. We added heterodimer-forming sequences at the C- or N- termini of the proteins, opposite to the His-tag position. Heterodimerization was tested for both helices at the C-terminus or at the N- terminus and C-terminus. We observed complex formation with a nanomolar dissociation constant in both cases that was higher by one order of magnitude than the Kds measured for helices alone. The binding of two C-terminal helices was accompanied by an increased enthalpy change. The binding between helices could be stabilized by introducing an additional turn of the helix with cysteine, which was capable of forming disulphide bridges. Covalently linked proteins were obtained using this strategy and observed using fluorescence cross-correlation spectroscopy. Finally, we demonstrated the formation of complexes of protein dimers and quantum dots.
Keywords: Heterodimerizing helices; Nanohybrids; Quantum dots.
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