Engineering of synthetic gene networks for restoring homeostasis in experimental chronic diseases and their validation in patient-derived whole blood cultures
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Author
Date
2016Type
- Doctoral Thesis
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Permanent link
https://doi.org/10.3929/ethz-a-010784922Publication status
publishedExternal links
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Publisher
ETH ZürichSubject
CHRONISCHE KRANKHEITEN; SCHUPPENFLECHTE (PATHOLOGIE); HOMÖOSTASE + OSMOREGULATION + REGULATION DES ELEKTROLYTGLEICHGEWICHTES (BIOLOGIE); SYNTHETISCHE BIOLOGIE; BIOCHEMISCHE BIOTECHNOLOGIE; MOLEKULARE SCHALTER (NANOTECHNOLOGIE); REGULATION AUF MOLEKULARER EBENE (BIOLOGIE); BIOLOGISCHE EIGENSCHAFTEN VON BLUT (PHYSIOLOGIE); ZELLKULTUREN + GEWEBEKULTUREN (BIOLOGISCHE TECHNIKEN); CHRONIC DISEASES, CHRONIC AFFECTIONS; PSORIASIS (PATHOLOGY); HOMEOSTASIS + OSMOREGULATION + ELECTROLYTE BALANCE CONTROL (BIOLOGY); SYNTHETIC BIOLOGY; BIOCHEMICAL ENGINEERING; MOLECULAR SWITCHES (NANOTECHNOLOGY); REGULATION ON MOLECULAR LEVEL (BIOLOGY); BIOLOGICAL PROPERTIES OF BLOOD (PHYSIOLOGY); CELL CULTURES + TISSUE CULTURES (BIOLOGICAL TECHNIQUES)Organisational unit
02214 - Biosystems Science and Engineering BSSE03694 - Fussenegger, Martin / Fussenegger, Martin
Notes
Dissertation. ETH Zürich. 2016. No. 23367.More
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