Jordi Planas scite author profile

The influence of the auxotrophic deficiencies of the host strain and expression vector selection on the production of a heterologous protein was investigated. Heterologous xylanase production by two prototrophic S. cerevisiae transformants, containing either a plasmid-based, YEp-type expression system or an integrative, YIp-type expression system, were compared with production by an auxotrophic transformant, containing an identical YEp-type expression system, in batch and continuous cultivation, using a chemically defined medium. Heterologous xylanase production by the auxotrophic strains in defined medium was critically dependent on the availability of amino acids, as extracellular xylanase production increased dramatically when amino acids were over-consumed from the medium to the point of saturating the cell. Saturation with amino acids, indicated by an increased leakage of amino acids from the cell, was thus a prerequisite for high level of heterologous protein production by the auxotrophic strain. Maximal xylanase production levels by the auxotrophic strain corresponded to the levels obtained with a similar prototrophic strain during cultivation in defined medium without amino acids. Superfluous auxotrophic markers thus had a strong deleterious effect on heterologous protein production by recombinant yeasts, and the use of such strains should be limited to initial exploratory investigations. The increased copy number and foreign gene dosage of the YEp-based expression vector, stabilized by the ura3 fur1 autoselection system, significantly improved production levels of heterologous xylanase, compared to the YIp system, which is based on a single integration into the yeast genome. No evidence was found of the possible saturation of the host secretory capacity by multicopy overexpression. Stable production of heterologous xylanase at high levels by the prototrophic YEp-based recombinant strain, compared to the YIp system, was demonstrated.

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Simultaneous monitoring of glucose and l-lactic acid during a fermentation process in an aqueous two-phase system by on-line FIA with microdialysis sampling and dual biosensor detection

Min¹,

Rajendran²,

Larsson³

et al. 1998

Analytica Chimica Acta

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Analysis of phase composition in aqueous two-phase systems using a two-column chromatographic method: Application to lactic acid production by extractive fermentation

Planas¹,

Lefebvre²,

Tjerneld³

et al. 1997

Biotechnol. Bioeng.

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Enhanced production of lactic acid through the use of a novel aqueous two-phase system as an extractive fermentation system

Planas

Rådström²,

Tjerneld

et al. 1996

Applied Microbiology and Biotechnology

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Amine-based aqueous polymers for the simultaneous titration and extraction of lactic acid in aqueous two-phase systems

Planas

Varelas

Tjerneld

et al. 1998

Journal of Chromatography B: Biomedical Sciences and Applicatio

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Jordi Planas

Comparison of three expression systems for heterologous xylanase production byS. cerevisiaein defined medium

Simultaneous monitoring of glucose and l-lactic acid during a fermentation process in an aqueous two-phase system by on-line FIA with microdialysis sampling and dual biosensor detection

Analysis of phase composition in aqueous two-phase systems using a two-column chromatographic method: Application to lactic acid production by extractive fermentation

Enhanced production of lactic acid through the use of a novel aqueous two-phase system as an extractive fermentation system

Amine-based aqueous polymers for the simultaneous titration and extraction of lactic acid in aqueous two-phase systems

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