Roser Pallisse scite author profile

Background: Hypothetical natural split inteins from environmental metagenomic sources were evaluated experimentally for the first time. Results: Four inteins showed the highest known reaction rates and efficiencies for protein trans-splicing and could be used efficiently for C-cleavage. Conclusion: These inteins pushed the catalytic limit of protein trans-splicing, although this was unpredictable from their primary sequence. Significance: These inteins hold great potential as versatile protein engineering tools.

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Protein and Proteome Phosphorylation Stoichiometry Analysis by Element Mass Spectrometry

Krüger

Kübler

Pallisse

et al. 2006

Anal. Chem.

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Protein phosphorylation stoichiometry was assessed by two analytical strategies. Both are based on element mass spectrometry (ICPMS, inductively coupled plasma mass spectrometry) and simultaneous monitoring of (31)P and (34)S. One strategy employs a combination of 1D gel electrophoresis, in-gel digestion, and final microLC-ICPMS analysis (microLC = capillary liquid chromatography). The other strategy uses the combination of 1D gel electrophoresis, protein blotting, and imLA-ICPMS (imLA = imaging laser ablation). The two methods were evaluated with standard phosphoproteins and were applied to the analysis of the cytoplasmatic proteome of bacterial cells (Corynebacterium glutamicum) and eukaryotic cells (Mus musculus). The eukaryotic proteome was found to exhibit a significantly higher phosphorylation degree (approximately 0.8 mol of P/mol of protein) compared to the bacterial proteome (approximately 0.01 mol of P/mol of protein). Both analytical strategies revealed consistent quantitative results, with the microLC-ICPMS approach providing the higher sensitivity. In summary, two ICPMS-based methods for quantitative estimation of the phosphorylation degree of a cellular proteome are presented which access the native proteome state and do not require any type of label introduction or derivatization.

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Brassica rapa hairy root based expression system leads to the production of highly homogenous and reproducible profiles of recombinant human alpha‐L‐iduronidase

Cardon¹,

Pallisse²,

Bardor

et al. 2018

Plant Biotechnology Journal

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The Brassica rapa hairy root based expression platform, a turnip hairy root based expression system, is able to produce human complex glycoproteins such as the alpha-L-iduronidase (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 N- and O-glycosylation that characterize the alpha-L-iduronidase 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 N-glycosylation sites of the IDUA, a single N-glycan composed of a core Man GlcNAc carrying one beta(1,2)-xylose and one alpha(1,3)-fucose epitope (M3XFGN2) was identified, highlighting the high homogeneity of the production system. Hydroxylation of proline residues and arabinosylation were identified during O-glycosylation 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.

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Protein production from recombinant protein bodies

Llompart

Llop‐Tous

Marzabal

et al. 2010

Process Biochemistry

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Roser Pallisse

Unprecedented Rates and Efficiencies Revealed for New Natural Split Inteins from Metagenomic Sources

Protein and Proteome Phosphorylation Stoichiometry Analysis by Element Mass Spectrometry

Brassica rapa hairy root based expression system leads to the production of highly homogenous and reproducible profiles of recombinant human alpha‐L‐iduronidase

Protein production from recombinant protein bodies

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