Abstract
Plants represent promising systems for producing various recombinant proteins. One key area of focus for improving this technology is developing methods for producing recombinant proteins at high levels. Many methods have been developed to increase the transcript levels of recombinant genes. However, methods for increasing protein production involving steps downstream of transcription, including translation, have not been fully explored. Here, we investigated the effects of N-glycosylation on protein production and provide evidence that N-glycosylation greatly increases the expression levels of ER-targeted recombinant proteins. Fusion of the extracellular domain (M domain) of protein tyrosine phosphatase receptor type C (CD45), which contains four putative N-glycosylation sites to a model protein, leptin at the C-terminus, increased recombinant protein levels by 6.1 fold. This increase was specific to ER-targeted proteins and was dependent on N-glycosylation. Moreover, expression levels of leptin, leukemia inhibitory factor and GFP were also greatly increased by fusion of M domain at either the N or C-terminus. Furthermore, the increase in protein levels resulted from enhanced translation, but not transcription. Based on these results, we propose that fusing a small domain containing N-glycosylation sites to target proteins is a powerful technique for increasing the expression levels of recombinant proteins in plants.
Highlights
Recombinant proteins are widely used for various purposes, including the treatment of human diseases[1,2]
Expression levels of all single mutants significantly reduced compared to fully glycosylated EeLepfM, indicating that all N-glycosylation sites had a certain degree of effect on the protein expression (Fig. 4a). These results suggest that any single N-glycosylation site can increase the expression level of proteins and that this increase may depend on the combination or specific location of N-glycosylation sites in the M domain
We examined the effect of N-glycosylation on recombinant protein levels in plants and provide compelling evidence that N-glycosylation greatly increases the level of recombinant protein production in plants
Summary
Recombinant proteins are widely used for various purposes, including the treatment of human diseases[1,2]. Introducing N-glycosylation sites to recombinant proteins does not always lead to higher levels of protein production. We provide evidence that fusing the M domain to the C- or N-termini of target proteins greatly increases recombinant protein production in plants.
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