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{{Publikation Erster Autor | {{Publikation Erster Autor | ||
|ErsterAutorVorname= | |ErsterAutorVorname=Thomas | ||
|ErsterAutorNachname=Hinze | |ErsterAutorNachname=Hinze | ||
|FurtherAuthors= | |FurtherAuthors=Monika Sturm | ||
}} | }} | ||
{{Inproceedings | {{Inproceedings | ||
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|Month= | |Month= | ||
|Booktitle=Proceedings Theorietag 2000 (TT2000) Wien | |Booktitle=Proceedings Theorietag 2000 (TT2000) Wien | ||
|Editor=R. | |Editor=R. Freund | ||
|Note= | |Note= | ||
|Organization= | |Organization= | ||
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}} | }} | ||
{{Publikation Details | {{Publikation Details | ||
|Abstract=Emphasizing a combination of recent developments in computer science | |Abstract=Emphasizing a combination of recent developments in computer science with molecular bioengineering, a special distributed splicing system (TT6) is proposed. This unconventional model for computation features by a possibility for an in-vitro implementation in the laboratory as well as by a mathematical exact description. The Dresden DNA Computation Group decided to implement such a system on biohardware and optimized all relevant model parameters and components with respect to this objective. | ||
with molecular bioengineering, a special distributed splicing system | |||
(TT6) is proposed. This unconventional model for computation | |||
features by a possibility for an in-vitro implementation in the | |||
laboratory as well as by a mathematical exact description. The | |||
Dresden DNA Computation Group decided to implement such a system on | |||
biohardware and optimized all relevant model parameters and | |||
components with respect to this objective. | |||
|ISBN= | |ISBN= | ||
|ISSN= | |ISSN= | ||
| Zeile 45: | Zeile 36: | ||
year = {2000}, | year = {2000}, | ||
} | } | ||
}} | }} | ||
Aktuelle Version vom 25. März 2015, 16:34 Uhr
Towards an in-vitro Implementation of a Universal Distributed Splicing Model for DNA Computation
Thomas HinzeThomas Hinze, Monika SturmMonika Sturm
Thomas Hinze, Monika Sturm
Towards an in-vitro Implementation of a Universal Distributed Splicing Model for DNA Computation
In R. Freund, eds., Proceedings Theorietag 2000 (TT2000) Wien, 2000
Towards an in-vitro Implementation of a Universal Distributed Splicing Model for DNA Computation
In R. Freund, eds., Proceedings Theorietag 2000 (TT2000) Wien, 2000
- KurzfassungAbstract
Emphasizing a combination of recent developments in computer science with molecular bioengineering, a special distributed splicing system (TT6) is proposed. This unconventional model for computation features by a possibility for an in-vitro implementation in the laboratory as well as by a mathematical exact description. The Dresden DNA Computation Group decided to implement such a system on biohardware and optimized all relevant model parameters and components with respect to this objective. - Forschungsgruppe:Research Group: AutomatentheorieAutomata Theory
@inproceedings{ HinzeSturm-TT2000-00,
author = {T. {Hinze} and M. {Sturm}},
booktitle = {Proceedings Theorietag 2000 (TT2000) Wien},
editor = {R. {Freund}},
title = {Towards an in-vitro Implementation of a Universal Distributed Splicing Model for DNA Computation},
year = {2000},
}
