AI Article Synopsis
- Pichia pastoris is a yeast used for producing recombinant proteins and can perform many eukaryotic modifications, but its ability to secrete proteins efficiently is not fully understood.
- A mutant strain called bgs13 shows improved secretion of recombinant proteins, suggesting it could be a 'super secreter.'
- Research with the β-lactoglobulin protein showed that bgs13 produced more of it than the wild-type strain and that this protein was effectively folded and more resistant to aggregation, highlighting the advantages of using this mutant for protein production.
Article Abstract
Pichia pastoris, a methylotrophic yeast used for recombinant protein expression, has the capability of performing many eukaryotic post-translational modifications, growing to high cell densities, and producing proteins in a cost-effective manner. However, P. pastoris's secretion properties are not always efficient, and its secretory pathway mechanisms have not been thoroughly elucidated. A previously identified mutant strain, bgs13, was found to efficiently secrete most recombinant proteins tested, raising the possibility that this bgs13 mutant is a universal super secreter. In this study, we used a reporter protein, β-lactoglobulin (b-LG), to perform structural analysis of the protein secreted from wild type and mutant bgs13 strains to investigate the secretory mechanism. Primary, secondary, and tertiary structures of b-LG were examined using Edman sequencing, circular dichroism, tryptophan fluorescence, and temperature induced aggregation analysis. Our results demonstrate that the bgs13 produced more b-LG than the wt strain and that this protein was functionally folded similar to the wt. Surprisingly, we also found that the bgs13 b-LG was more resistant to aggregation, providing another example of the superior qualities of this strain for enhanced secreted protein production.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10528908 | PMC |
| http://dx.doi.org/10.1016/j.pep.2023.106355 | DOI Listing |
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