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Institute: search.filters.UBSInstitut.Institut für Technische BiochemieStart date: 2000End date: 2009Author: search.filters.author.Lange, StefanAuthor: search.filters.author.Schmitt, Jutta

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    High-yield expression of the recombinant, atrazine-specific Fab fragment K411B by the methylotrophic yeast Pichia pastoris
    (2001) Lange, Stefan; Schmitt, Jutta; Schmid, Rolf D.
    In this report, we describe the high-yield secretory expression (~ 40 mg l-1) of pure, atrazine-specific Fab fragments (K411B) from P. pastoris that was achieved by co-integration of the genes encoding the heavy and light chains (both under the control of the alcohol oxidase promoter) into the genome of the yeast cells. Antibody-expressing clones were selected by SDS-PAGE and ELISA and fed-batch fermentations were carried out in a 5 l scale. Both chains of the Fab were successfully expressed upon methanol induction and almost no other proteins were secreted into the media. Approximately 30 % of the two chains formed the active Fab fragment containing the intermolecular disulphide bond, as determined by Western blot analysis under non-reducing conditions. Crude culture supernatant was used to study the binding properties of the Fab fragment toward different s-triazines by means of competitive ELISA: the IC50 value for the detection of atrazine was determined from the standard curve as 3 µg l-1, which is one magnitude higher than the value obtained with the parental mAb K4E7 but equals that obtained when the same Fab fragment was expressed in E. coli cells. In addition, the cross-reactivity pattern of the Fab from Pichia is comparable to that of E. coli and the parental mAb K4E7.
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    Identification of factors impeding the production of a single-chain antibody fragment in Escherichia coli by comparing in vivo and in vitro expression
    (2003) Ölschläger, Peter; Lange, Stefan; Schmitt, Jutta; Siemann-Herzberg, Martin; Reuss, Matthias; Schmid, Rolf D.
    In order to produce the atrazine-specific scFv K411B, it was expressed in either the cytoplasm or the periplasm of Escherichia coli BL21(DE3). For periplasmic production, the scFv was N-terminally fused to the pelB leader, whereas the unfused variant resulted in cytoplasmic expression. The extent of protein accumulation differed significantly: The expression level of the scFv with leader was 2.3 times higher than that of the protein without leader. To further investigate this, the respective translation profiles were generated by coupled in vitro transcription/translation assays and gave according results. Periplasmic expression resulted in only 10% correctly folded scFv. The same percentage was obtained when the scFv was expressed in vitro, indicating that the oxidizing environment of the periplasm did not increase proper folding. Thus, the data obtained in vitro confirmed the findings observed in vivo and suggested that the discrepancy in expression levels was due to different translation efficiencies. However, the in vivo production of the scFv with EGFP fused C-terminally (scFv-EGFP) was only successful in the cytoplasm, although in vitro the expression with and without the leader rendered the same production profile. This indicated that neither the translation efficiency nor the solubility but other factors impeded periplasmic expression of the fusion protein.