Nature Biotechnology homepage
Advanced search
 Journal home > Archive > Table of Contents > Research >  Letters > Abstract
Journal home
Advance online publication
Current issue
Archive
Press releases
Supplements
Focuses
Conferences
Guide to authors
Online submissionOnline submission
Permissions
For referees
Free online issue
Contact the journal
Subscribe
Advertising
work@npg
naturereprints
About this site
For librarians
 
NPG Resources
Bioentrepreneur
Nature Reviews Drug Discovery
Nature
Nature Medicine
Nature Genetics
Nature Reviews Genetics
Nature Methods
Nature Chemical Biology
news@nature.com
Clinical Pharmacology & Therapeutics
Nature Conferences
NPG Subject areas
Biotechnology
Cancer
Chemistry
Clinical Medicine
Dentistry
Development
Drug Discovery
Earth Sciences
Evolution & Ecology
Genetics
Immunology
Materials Science
Medical Research
Microbiology
Molecular Cell Biology
Neuroscience
Pharmacology
Physics
Browse all publications
Letters
Nature Biotechnology  22, 867 - 870 (2004)
Published online: 6 June 2004; | doi:10.1038/nbt980

An engineered epigenetic transgene switch in mammalian cells

Beat P Kramer1, Alessandro Usseglio Viretta1, 3, Marie Daoud-El Baba2, Dominique Aubel2, Wilfried Weber1 & Martin Fussenegger1

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

2  Institut Universitaire de Technologie, IUTA, Département Génie Biologique, F-69622 Villeurbanne Cedex, France.

3  Present address: Institute of Robotics and Intelligent Systems, ETH Zurich, CH-8092 Zurich, Switzerland.

Correspondence should be addressed to Martin Fussenegger fussenegger@biotech.biol.ethz.ch
In multicellular systems cell identity is imprinted by epigenetic regulation circuits, which determine the global transcriptome of adult cells in a cell phenotype−specific manner1, 2, 3. By combining two repressors, which control each other's expression, we have developed a mammalian epigenetic circuitry able to switch between two stable transgene expression states after transient administration of two alternate drugs. Engineered Chinese hamster ovary cells (CHO-K1) showed toggle switch−specific expression profiles of a human glycoprotein in culture, as well as after microencapsulation and implantation into mice. Switch dynamics and expression stability could be predicted with mathematical models. Epigenetic transgene control through toggle switches is an important tool for engineering artificial gene networks in mammalian cells.


MORE ARTICLES LIKE THIS

These links to content published by NPG are automatically generated.

RESEARCH

Macrolide-based transgene control in mammalian cells and mice

Nature Biotechnology Research (01 Sep 2002)

Gas-inducible transgene expression in mammalian cells and mice

Nature Biotechnology Research (01 Dec 2004)

Streptogramin-based gene regulation systems for mammalian cells

Nature Biotechnology Research (01 Nov 2000)

Metabolic Investigations on Pristinamycin

Nature Letters to Editor (10 Jul 1965)

 Top
Abstract
Previous | Next
Table of contents
Full textFull text
Download PDFDownload PDF
Send to a friendSend to a friend

naturejobs

More science jobs
Post a job for free
Figures & Tables
Export citation
natureproducts

Search buyers guide:

 
ADVERTISEMENT
 
Nature Biotechnology
ISSN: 1087-0156
EISSN: 1546-1696		 Journal home | Advance online publication | Current issue | Archive | Press releases | Supplements | Focuses | Conferences | For authors | Online submission | Permissions | For referees | Free online issue | About the journal | Contact the journal | Subscribe | Advertising | work@npg | naturereprints | About this site | For librarians
Nature Publishing Group, publisher of Nature, and other science journals and reference works©2004 Nature Publishing Group | Privacy policy