Minimum Basin Algorithm: An Effective Analysis Technique for DNA Energy Landscapes
To design DNA nano-machines or analyze DNA molecular reactions, it is important to be able to predict the energy landscape of molecular structures and the energy barrier of a transition between structures on the landscape. Unfortunately, this is difficult for DNA molecules longer than 100 bases. In...
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| Published in | DNA Computing pp. 202 - 214 |
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| Main Authors | , |
| Format | Book Chapter Conference Proceeding |
| Language | English Japanese |
| Published |
Berlin, Heidelberg
Springer Berlin Heidelberg
2005
Springer |
| Series | Lecture Notes in Computer Science |
| Subjects | |
| Online Access | Get full text |
| ISBN | 9783540261742 3540261745 |
| ISSN | 0302-9743 1611-3349 |
| DOI | 10.1007/11493785_18 |
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| Abstract | To design DNA nano-machines or analyze DNA molecular reactions, it is important to be able to predict the energy landscape of molecular structures and the energy barrier of a transition between structures on the landscape. Unfortunately, this is difficult for DNA molecules longer than 100 bases. In this paper, we propose an effective new technique for analyzing a structural transition over a DNA energy landscape. Imagine a very undulating landscape. Suddenly, water starts to gush out from one site and keeps flowing. How will the water surface expand over the landscape? Using a variant of Dijkstra’s and Jarník-Prim’s algorithms, we generate the shape of the basin from its formation process. The resulting basin contains the true energy barrier. Furthermore, a comparison between the basin feature and the corresponding actual chemical reaction shows that the basin can be used as a criterion to explain the reaction. |
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| AbstractList | To design DNA nano-machines or analyze DNA molecular reactions, it is important to be able to predict the energy landscape of molecular structures and the energy barrier of a transition between structures on the landscape. Unfortunately, this is difficult for DNA molecules longer than 100 bases. In this paper, we propose an effective new technique for analyzing a structural transition over a DNA energy landscape. Imagine a very undulating landscape. Suddenly, water starts to gush out from one site and keeps flowing. How will the water surface expand over the landscape? Using a variant of Dijkstra’s and Jarník-Prim’s algorithms, we generate the shape of the basin from its formation process. The resulting basin contains the true energy barrier. Furthermore, a comparison between the basin feature and the corresponding actual chemical reaction shows that the basin can be used as a criterion to explain the reaction. |
| Author | Kubota, Mitsuhiro Hagiya, Masami |
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| Editor | Zandron, Claudio Ferretti, Claudio Mauri, Giancarlo |
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| Keywords | Energy analysis Nanometer scale Machine design DNA computation Landscape Chemical reaction Molecular structure DNA Algorithm analysis Molecular computation |
| Language | English Japanese |
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| PublicationSubtitle | 10th International Workshop on DNA Computing, DNA10, Milan, Italy, June 7-10, 2004, Revised Selected Papers |
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| SubjectTerms | Algorithmics. Computability. Computer arithmetics Applied sciences Computer science; control theory; systems Energy Landscape Exact sciences and technology Lower Energy Barrier Minimum Span Tree Neighboring Structure Theoretical computing Transition Path |
| Title | Minimum Basin Algorithm: An Effective Analysis Technique for DNA Energy Landscapes |
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