원문정보
초록
영어
In this study, we investigated the efficiencies by which the pET and pQE expression systems produce unnatural recombinant proteins by selective pressure incorporation of unnatural amino acids, a method through which it was found that type of gene expression system tremendously influences the production yield of unnatural proteins in Escherichia coli. Green fluorescent protein (GFP) and a single-chain Fv antibody against c-Met (anti-c-Met sc-Fv) were utilized as model recombinant proteins while Lhomopropargylglycine (Hpg), a methionine analogue that incorporates into the methionine residues of a recombinant protein, was used as model unnatural amino acid. The pET system produced an almost negligible amount of Hpg-incorporated unnatural protein compared to the amount of methionine-incorporated natural protein. However, comparable amounts of unnatural and natural protein were produced by the pQE expression system. The amount of unnatural GFP protein produced through pET
expression was not increased despite the over-expression of methionyl tRNA synthetase,
which can enhance the activation rate of methionyl-tRNA with a methionine analogue. Incorporation of Hpg decreased the productivity of active GFP by approximately 2.5 fold, possibly caused by the inefficient folding of Hpg-incorporated GFP. Conversely, the productivity of functional anti-c-Met sc-Fv was not influenced by incorporation of Hpg. We confirmed through LC-MS and LCMS/MS that Hpg was incorporated into the methionine residues of the recombinant proteins produced by the pQE expression system. In this way, this study could show the importance of expression system upon unnatural amino acids incorporation for the production of tailor-made synthetic proteins.