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Conformation-driven computing: a comparison of designs based on DNA, RNA, and protein

Conformation-driven computing: a comparison of designs based on DNA, RNA, and protein
Conformation-driven computing: a comparison of designs based on DNA, RNA, and protein
Molecular pattern recognition based on conformational interactions is the major basis of control and information processing in biological cells. Designs for pattern recognition devices that use the conformational characteristics of different major classes of biomolecules (DNA, RNA, and protein) are considered.
Molecular computing, biological information processing, cellular control
787-790
Conrad, M.
5b4c1f50-0b05-4e39-abc5-8cab4e408ac8
Zauner, K.-P.
c8b22dbd-10e6-43d8-813b-0766f985cc97
Conrad, M.
5b4c1f50-0b05-4e39-abc5-8cab4e408ac8
Zauner, K.-P.
c8b22dbd-10e6-43d8-813b-0766f985cc97

Conrad, M. and Zauner, K.-P. (1998) Conformation-driven computing: a comparison of designs based on DNA, RNA, and protein. Supramolecular Science, 5, 787-790.

Record type: Article

Abstract

Molecular pattern recognition based on conformational interactions is the major basis of control and information processing in biological cells. Designs for pattern recognition devices that use the conformational characteristics of different major classes of biomolecules (DNA, RNA, and protein) are considered.

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More information

Published date: 1998
Keywords: Molecular computing, biological information processing, cellular control
Organisations: Agents, Interactions & Complexity

Identifiers

Local EPrints ID: 259151
URI: https://eprints.soton.ac.uk/id/eprint/259151
PURE UUID: ddf8392b-6b61-444d-a29c-cdf0cab161c1

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Date deposited: 13 Mar 2004
Last modified: 18 Jul 2017 09:25

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Contributors

Author: M. Conrad
Author: K.-P. Zauner

University divisions

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