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Gustafsson, A., Sjoblom, M., Strindelius, L., Johansson, T., Flecken-stein, T., Chatzissavidou, N., Lindberg, L., Angstrom, J., Rova, U. and Holgersson, J. (2011) Pichia pastoris-produced mucintype fusion proteins with multi-valent O-glycan substitution as targeting molecules for mannose-specific receptors of the immune system. Glycobiology, 21, 1071-1086. doi:10.1093/glycob/cwr046

has been cited by the following article:

  • TITLE: Secretion and expression dynamics of a GFP-tagged mucin-type fusion protein in high cell density Pichia pastoris bioreactor cultivations

    AUTHORS: Magnus Sjöblom, Linda Lindberg, Jan Holgersson, Ulrika Rova

    KEYWORDS: GFP; GFP-Fusion; Green Fluorescent Protein; KAR2; Pichia pastoris; Secretion; Unfolded Protein Response; Yeast

    JOURNAL NAME: Advances in Bioscience and Biotechnology, Vol.3 No.3, June 21, 2012

    ABSTRACT: The methanol inducible alcohol oxidase 1 promoter and the Saccharomyces cerevisiae alpha-factor prepro secretion signal were used to drive expression and secretion of a mucin-type fusion protein by Pichia pastoris in 1 L scale bioreactors. The aim of the study was to understand how varying expression rates influenced the secretion dynamics of the fusion protein in terms of intracellular- and extracellular concentrations. Endoplasmic reticulum (ER) folding stress was assessed by the relative expression of the unfolded protein response controlled KAR2 gene. Three predefined methanol feeding models were applied to control the fusion protein synthesis rate. To track the fusion protein synthesis in a non-invasive manner and to follow its intracellular distribution, its C-terminal was linked to the green fluorescent protein. Under all conditions the fusion protein was found to partially accumulate intracellularly, where the major fraction was an insoluble, fluorescent full-sized protein. The high degree of glycosylation of the insoluble fusion protein indicated a secretory bottle-neck in the Golgi-system. This result was consistent with low ER folding stress as quantified by the relative expression of the KAR2 gene. Reduction of recombinant protein synthesis rate, by using lower feed rates of methanol, enhanced extracellular concentrations from 8 to 18 mg·L–1 and reduced the rate of intracellular accumulation. This clearly demonstrates the importance of tuning the synthesis rate with secretory bottle-necks to maintain secretion.

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