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101. Recombinant protein expression in Pichia pastoris strains with an engineered methanol utilization pathway

Author

Krainer Florian W, Dietzsch Christian, Hajek Tanja, Herwig Christoph, Spadiut Oliver, and Glieder Anton

Subjects
Pichia pastoris, methanol utilization pathway, Mut+, MutS, recombinant protein expression, dihydroxyacetone synthase, formaldehyde dehydrogenase, transketolase, horseradish peroxidase, Candida antarctica lipase B, Microbiology, QR1-502
Abstract

Abstract Βackground The methylotrophic yeast Pichia pastoris has become an important host organism for recombinant protein production and is able to use methanol as a sole carbon source. The methanol utilization pathway describes all the catalytic reactions, which happen during methanol metabolism. Despite the importance of certain key enzymes in this pathway, so far very little is known about possible effects of overexpressing either of these key enzymes on the overall energetic behavior, the productivity and the substrate uptake rate in P. pastoris strains. Results A fast and easy-to-do approach based on batch cultivations with methanol pulses was used to characterize different P. pastoris strains. A strain with MutS phenotype was found to be superior over a strain with Mut+ phenotype in both the volumetric productivity and the efficiency in expressing recombinant horseradish peroxidase C1A. Consequently, either of the enzymes dihydroxyacetone synthase, transketolase or formaldehyde dehydrogenase, which play key roles in the methanol utilization pathway, was co-overexpressed in MutS strains harboring either of the reporter enzymes horseradish peroxidase or Candida antarctica lipase B. Although the co-overexpression of these enzymes did not change the stoichiometric yields of the recombinant MutS strains, significant changes in the specific growth rate, the specific substrate uptake rate and the specific productivity were observed. Co-overexpression of dihydroxyacetone synthase yielded a 2- to 3-fold more efficient conversion of the substrate methanol into product, but also resulted in a reduced volumetric productivity. Co-overexpression of formaldehyde dehydrogenase resulted in a 2-fold more efficient conversion of the substrate into product and at least similar volumetric productivities compared to strains without an engineered methanol utilization pathway, and thus turned out to be a valuable strategy to improve recombinant protein production. Conclusions Co-overexpressing enzymes of the methanol utilization pathway significantly affected the specific growth rate, the methanol uptake and the specific productivity of recombinant P. pastoris MutS strains. A recently developed methodology to determine strain specific parameters based on dynamic batch cultivations proved to be a valuable tool for fast strain characterization and thus early process development.

Published
2012
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102. A fast approach to determine a fed batch feeding profile for recombinant Pichia pastoris strains

Author

Herwig Christoph, Spadiut Oliver, and Dietzsch Christian

Subjects
Pichia pastoris, strain characterization, specific substrate uptake rate, batch cultivation, methanol pulse, dynamic feeding profile, Microbiology, QR1-502
Abstract

Abstract Background The microorganism Pichia pastoris is a commonly used microbial host for the expression of recombinant proteins in biotechnology and biopharmaceutical industry. To speed up process development, a fast methodology to determine strain characteristic parameters, which are needed to subsequently set up fed batch feeding profiles, is required. Results Here, we show the general applicability of a novel approach to quantify a certain minimal set of bioprocess-relevant parameters, i.e. the adaptation time of the culture to methanol, the specific substrate uptake rate during the adaptation phase and the maximum specific substrate uptake rate, based on fast and easy-to-do batch cultivations with repeated methanol pulses in a batch culture. A detailed analysis of the adaptation of different P. pastoris strains to methanol was conducted and revealed that each strain showed very different characteristics during adaptation, illustrating the need of individual screenings for an optimal parameter definition during this phase. Based on the results obtained in batch cultivations, dynamic feeding profiles based on the specific substrate uptake rate were employed for different P. pastoris strains. In these experiments the maximum specific substrate uptake rate, which had been defined in batch experiments, also represented the upper limit of methanol uptake, underlining the validity of the determined process-relevant parameters and the overall experimental strategy. Conclusion In this study, we show that a fast approach to determine a minimal set of strain characteristic parameters based on easy-to-do batch cultivations with methanol pulses is generally applicable for different P. pastoris strains and that dynamic fed batch strategies can be designed on the specific substrate uptake rate without running the risk of methanol accumulation.

Published
2011
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103. A dynamic method based on the specific substrate uptake rate to set up a feeding strategy for Pichia pastoris

Author

Herwig Christoph, Spadiut Oliver, and Dietzsch Christian

Subjects
Microbiology, QR1-502
Abstract

Abstract Background Pichia pastoris is one of the most important host organisms for the recombinant production of proteins in industrial biotechnology. To date, strain specific parameters, which are needed to set up feeding profiles for fed batch cultivations, are determined by time-consuming continuous cultures or consecutive fed batch cultivations, operated at different parameter sets. Results Here, we developed a novel approach based on fast and easy to do batch cultivations with methanol pulses enabling a more rapid determination of the strain specific parameters specific substrate uptake rate qs, specific productivity qp and the adaption time (Δtimeadapt) of the culture to methanol. Based on qs, an innovative feeding strategy to increase the productivity of a recombinant Pichia pastoris strain was developed. Higher specific substrate uptake rates resulted in increased specific productivity, which also showed a time dependent trajectory. A dynamic feeding strategy, where the setpoints for qs were increased stepwise until a qs max of 2.0 mmol·g-1·h-1 resulted in the highest specific productivity of 11 U·g-1·h-1. Conclusions Our strategy describes a novel and fast approach to determine strain specific parameters of a recombinant Pichia pastoris strain to set up feeding profiles solely based on the specific substrate uptake rate. This approach is generic and will allow application to other products and other hosts.

Published
2011
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105. Quantitative analysis of media dilution rate effects on Methanothermobacter marburgensis grown in continuous culture on H2 and CO2

Author

Rittmann, S., Seifert, A., and Herwig, C.

Subjects
*METHANOTHERMOBACTER, *BACTERIAL growth, *BACTERIAL cultures, *CARBON dioxide, *ADENOSINE triphosphate, *OXIDATION-reduction reaction, *ADENOSINE diphosphate, *DILUTION
Abstract

Abstract: The characterization of hydrogenotrophic methanogens by using analytical bioprocess technology holds great potential for the development of biological gas conversion processes. Therefore, we aimed to investigate the influence of liquid dilution rate and total gassing rate on the performance of Methanothermobacter marburgensis grown in continuous culture on H2/CO2. By increasing medium dilution rate M. marburgensis biomass concentration decreased while specific methane and specific water productivity increased. Low liquid dilution rates resulted in highest volumetric uptake and production rates. Steady state cultivations were limited in the mass transfer from the gas to the liquid phase. By quantification of biological water production we were able to give additional insight into maintenance requirements of M. marburgensis. At higher growth rates, water production can be used as an additional on-line signal to quantify biological activity, as it is directly correlated to methane productivity. We demonstrate the usefulness of dynamic investigations, such as the medium dilution shift experiment, in order to physiologically characterize hydrogenotrophic methanogens for its maximum specific methane productivity. Process development can focus on the optimization of the gas-liquid mass transfer, until this physiological limit is reached. [Copyright &y& Elsevier]

Published
2012
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108. Courts and Judicial Review

Author

Thio, Li-Ann, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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113. Public/Private

Author

Auby, Jean-Bernard, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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115. Tribunals and Adjudication

Author

Bradley, Kieran, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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118. Criminal and Civil Liability

Author

Fairgrieve, Duncan, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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119. Authoritarian Regimes

Author

Yap, Po Jen, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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120. Public Audit Accountability

Author

Brenninkmeijer, Alex, Lalikova, Laura Frederika, Siry, Dylan, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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122. An Anglo-American Tradition

Author

Cane, Peter, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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123. The Chinese Tradition

Author

Chen, Albert H. Y., Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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129. Information Management

Author

Spiecker genannt Doehmann, Indra, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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132. Administrative Power

Author

Biddulph, Sarah, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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137. Accountability

Author

Psygkas, Athanasios, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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143. Openness and Transparency

Author

Reichel, Jane, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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146. A Middle Eastern Tradition

Author

Mallat, Chibli, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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149. The Rule of Law

Author

Napolitano, Giulio, Cane, Peter, book editor, Hofmann, Herwig C. H., book editor, Ip, Eric C., book editor, and Lindseth, Peter L., book editor

Published
2020
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