|InterJournal Complex Systems, 74
|Manuscript Number: |
Submission Date: 963011
|New approaches in mathematical biology: information theory and molecular machines|
Category: Brief Article
My research uses classical information theory to study genetic systems. Information theory, founded by Claude Shannon in the 1940s, has had an enormous impact on communications engineering and computer sciences. Shannon found a way to measure information. We use this measure to precisely characterize the sequence conservation at nucleic-acid binding sites. The resulting methods completely replace the use of "consensus sequences", and therefore provide better models for molecular biologists. An excess of sequence conservation at bacteriophage T7 promoters and at F plasmid IncD repeats led us to predict the existence of proteins that bind the DNA. In another application of information theory, the wonderful fidelity of telephone communications and compact disk (CD) music can be traced directly to Shannons channel capacity theorem. When rederived for molecular biology, this theorem explains the surprising precision of many molecular events. Through connections with the Second Law of Thermodynamics and Maxwells Demon, this approach also has implications for the development of technology at the molecular level.
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