Title of article
Biologically Relevant Molecular Transducer with Increased Computing Power and Iterative Abilities Original Research Article
Author/Authors
Tamar Ratner، نويسنده , , Ron Piran، نويسنده , , Natasha Jonoska، نويسنده , , Ehud Keinan، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2013
Pages
8
From page
726
To page
733
Abstract
As computing devices, which process data and interconvert information, transducers can encode new information and use their output for subsequent computing, offering high computational power that may be equivalent to a universal Turing machine. We report on an experimental DNA-based molecular transducer that computes iteratively and produces biologically relevant outputs. As a proof of concept, the transducer accomplished division of numbers by 3. The iterative power was demonstrated by a recursive application on an obtained output. This device reads plasmids as input and processes the information according to a predetermined algorithm, which is represented by molecular software. The device writes new information on the plasmid using hardware that comprises DNA-manipulating enzymes. The computation produces dual output: a quotient, represented by newly encoded DNA, and a remainder, represented by E. coli phenotypes. This device algorithmically manipulates genetic codes.
Journal title
Chemistry and Biology
Serial Year
2013
Journal title
Chemistry and Biology
Record number
1160448
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