16 research outputs found
Brassica rapa hairy root based expression system leads to the production of highly homogenous and reproducible profiles of recombinant human alpha-L-iduronidase
International audienceThe Brassica rapa hairy root based expression platform, a turnip hairy root based expression system, is able to produce human complex glycoproteins such as the alphaâLâiduronidase (IDUA) with an activity similar to the one produced by Chinese Hamster Ovary (CHO) cells. In this article, a particular attention has been paid to the Nâ and Oâglycosylation that characterize the alphaâLâiduronidase produced using this hairy root based system. This analysis showed that the recombinant protein is characterized by highly homogeneous post translational profiles enabling a strong batch to batch reproducibility. Indeed, on each of the 6 Nâglycosylation sites of the IDUA, a single Nâglycan composed of a core Man3GlcNAc2 carrying one beta(1,2)âxylose and one alpha(1,3)âfucose epitope (M3XFGN2) was identified, highlighting the high homogeneity of the production system. Hydroxylation of proline residues and arabinosylation were identified during Oâglycosylation analysis, still with a remarkable reproducibility. This platform is thus positioned as an effective and consistent expression system for the production of human complex therapeutic proteins
Enhanced production of recombinant human gastric lipase in turnip hairy roots
International audienc
Improving Yield of a Recombinant Biologic in a Brassica Hairy Root Manufacturing Process.
International audienceHairy root systems have proven to be a viable alternative for recombinant protein production. For recalcitrant proteins, maximizing the productivity of hairy root cultures is essential. The aim of this study was to optimize a Brassica rapa rapa hairy root process for secretion of alpha-L-iduronidase (IDUA), a biologic of medical value. The process was first optimized with hairy roots expressing eGFP. For the biomass optimization, the highest biomass yields were achieved in modified Gamborg B5 culture medium. For the secretion induction, the optimized secretion media was obtained with additives (1.5 g/l PVP + 1 mg/l 2,4-D + 20.5 g/l KNO(3) ) resulting in 3.4 fold eGFP secretion when compared to the non-induced control. These optimized conditions were applied to the IDUA-expressing hairy root clone, confirming that the highest yields of secreted IDUA occurred when using the defined additive combination. The functionality of the IDUA protein, secreted and intracellular, was confirmed with an enzymatic activity assay. A >150-fold increase of the IDUA activity was observed using an optimized secretion medium, compared with a non-induced medium. We have proven that our B. rapa rapa hairy root system can be harnessed to secrete recalcitrant proteins, illustrating the high potential of hairy roots in plant molecular farming. This article is protected by copyright. All rights reserved
Production de protĂ©ines marquĂ©es 15N ou 15N/13C dans un systĂšme dâexpression racinaire et analyse de lâincorporation du marquage par spectromĂ©trie de masse
International audienc
Production de protĂ©ines marquĂ©es 15N ou 15N/13C dans un systĂšme dâexpression racinaire et analyse de lâincorporation du marquage par spectromĂ©trie de masse
International audienc
Production de protĂ©ines marquĂ©es 15N ou 15N/13C dans un systĂšme dâexpression racinaire et analyse de lâincorporation du marquage par spectromĂ©trie de masse
International audienc
Production of uniformly 15N/13C labeled glycosylated proteins by hairy roots in view to NMR structural studies
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