Regulated multicistronic expression technology for mammalian metabolic engineering

doi:10.1023/A:1008037916674

. 1998 Nov;28(1-3):111-26.

doi: 10.1023/A:1008037916674.

Regulated multicistronic expression technology for mammalian metabolic engineering

M Fussenegger¹, S Moser, J E Bailey

Affiliations

PMID: 19003413
PMCID: PMC3449837
DOI: 10.1023/A:1008037916674

Regulated multicistronic expression technology for mammalian metabolic engineering

M Fussenegger et al. Cytotechnology. 1998 Nov.

. 1998 Nov;28(1-3):111-26.

doi: 10.1023/A:1008037916674.

Authors

M Fussenegger¹, S Moser, J E Bailey

Affiliation

¹ Swiss Federal Institute of Technology, ETH Zurich, Institute of Biotechnology, CH-8093, Zurich, Switzerland.

PMID: 19003413
PMCID: PMC3449837
DOI: 10.1023/A:1008037916674

Abstract

Contemporary basic research is rapidly revealing increasingly complex molecular regulatory networks which are often interconnected via key signal integrators. These connections among regulatory and catalytic networks often frustrate bioengineers as promising metabolic engineering strategies are bypassed by compensatory metabolic responses or cause unexpected, undesired outcomes such as apoptosis, product protein degradation or inappropriate post- translational modification. Therefore, for metabolic engineering to achieve greater success in mammalian cell culture processes and to become important for future applications such as gene therapy and tissue engineering, this technology must be enhanced to allow simultaneous, in cases conditional, reshaping of metabolic pathways to access difficult-to-attain cell states. Recent advances in this new territory of multigene metabolic engineering are intimately linked to the development of multicistronic expression technology which allows the simultaneous, and in some cases, regulated expression of several genes in mammalian cells. Here we review recent achievements in multicistronic expression technology in view of multigene metabolic engineering.

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References

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1. Bailey JE. Towards a science of metabolic engineering. Science. 1991;252:1668–1675. - PubMed

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[1] Alexander L, Lu HH, Gromeier M and Wimmer E (1994) Dicistronic polioviruses as expression vectors for foreign genes. - PubMed

[2] Alexander L, Lu HH, Gromeier M and Wimmer E (1994) Dicistronic polioviruses as expression vectors for foreign genes. - PubMed

[3] AIDS Res Hum Retroviruses 10Suppl 2: 57-60. - PubMed

[4] AIDS Res Hum Retroviruses 10Suppl 2: 57-60. - PubMed

[5] Al-Rubeai M, Emery AN, Chalder S, Jan DC. Specific monoclonal antibody productivity and the cell-cycle comparisons of batch, continuous and perfusion cultures. Cytotechnology. 1992;9:85–97. - PubMed

[6] Al-Rubeai M, Emery AN, Chalder S, Jan DC. Specific monoclonal antibody productivity and the cell-cycle comparisons of batch, continuous and perfusion cultures. Cytotechnology. 1992;9:85–97. - PubMed

[7] Aubrecht J, Manivasakam P, Schiestl RH. Controlled gene expression in mammalian cells via a regulatory cascade involving the tetracycline transactivator and lac repressor. Gene. 1996;172:227–231. - PubMed

[8] Aubrecht J, Manivasakam P, Schiestl RH. Controlled gene expression in mammalian cells via a regulatory cascade involving the tetracycline transactivator and lac repressor. Gene. 1996;172:227–231. - PubMed

[9] Bailey JE. Towards a science of metabolic engineering. Science. 1991;252:1668–1675. - PubMed

[10] Bailey JE. Towards a science of metabolic engineering. Science. 1991;252:1668–1675. - PubMed

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Regulated multicistronic expression technology for mammalian metabolic engineering

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Regulated multicistronic expression technology for mammalian metabolic engineering

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Abstract

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