DocumentCode
1063918
Title
Molecular computing: the lock-key paradigm
Author
Conrad, Michael
Author_Institution
Wayne State Univ., Detroit, MI, USA
Volume
25
Issue
11
fYear
1992
Firstpage
11
Lastpage
20
Abstract
Molecular computers are natural or artificial systems in which macromolecules individually mediate critical information-processing functions. Biological organisms are the naturally occurring examples. Their information-processing virtuosity traces ultimately to the fact that macromolecules, most notably proteins, can recognize specific molecular objects in their environment in a manner that uses shape and depends sensitively on physiochemical context. The ultimate capabilities of this shape-based mode of computing and the technological implications that this mode may have are discussed. Basic principles of molecular computing are introduced and some ways that they might combine to yield new approaches to information technology are considered. Specifically, signal-integrating, optomolecular and neuromolecular computer architectures are described.
Keywords
biocomputers; biomolecular electronics; computer architecture; neural nets; proteins; biological organisms; information technology; information-processing functions; macromolecules; neuromolecular computer architectures; optomolecular; proteins; signal-integrating; Biological systems; Biology computing; Biomembranes; Isolation technology; Molecular computing; Pattern recognition; Protein engineering;
fLanguage
English
Journal_Title
Computer
Publisher
ieee
ISSN
0018-9162
Type
jour
DOI
10.1109/2.166400
Filename
166400
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