Abstract
Ferritins form nanocage architectures and demonstrate their potential to serve as functional nanomaterials with potential applications in medical imaging and therapy. In our study, the cDNA of human L-chain ferritin was cloned into plasmid pET-28a for its overexpression in Escherichia coli. However, the recombinant human L-chain ferritin (rLF) was prone to form inclusion bodies. Molecular chaperones were co-expressed with rLF to facilitate its correct folding. Our results showed that the solubility of rLF was increased about 3-fold in the presence of molecular chaperones, including GroEL, GroES and trigger factor. Taking advantage of its N-terminal His-tag, rLF was then purified with Ni-affinity chromatography. With a yield of 10 mg/L from bacterial culture, the purified rLF was analyzed by circular dichroism spectrometry for its secondary structure. Furthermore, the rLF nanocages were characterized using dynamic light scattering and transmission electron microscopy.
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