Literature DB >> 25864379

Bridging the Two Worlds: A Universal Interface between Enzymatic and DNA Computing Systems.

Shay Mailloux1, Yulia V Gerasimova2, Nataliia Guz1, Dmitry M Kolpashchikov3, Evgeny Katz4.   

Abstract

Molecular computing based on enzymes or nucleic acids has attracted a great deal of attention due to the perspectives of controlling living systems in the way we control electronic computers. Enzyme-based computational systems can respond to a great variety of small molecule inputs. They have the advantage of signal amplification and highly specific recognition. DNA computing systems are most often controlled by oligonucleotide inputs/outputs and are capable of sophisticated computing as well as controlling gene expressions. Here, we developed an interface that enables communication of otherwise incompatible nucleic-acid and enzyme-computational systems. The enzymatic system processes small molecules as inputs and produces NADH as an output. The NADH output triggers electrochemical release of an oligonucleotide, which is accepted by a DNA computational system as an input. This interface is universal because the enzymatic and DNA computing systems are independent of each other in composition and complexity.
© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  NADH; deoxyribozymes; electrochemistry; enzyme computation; molecular computation

Mesh:

Substances:

Year:  2015        PMID: 25864379      PMCID: PMC4495919          DOI: 10.1002/anie.201411148

Source DB:  PubMed          Journal:  Angew Chem Int Ed Engl        ISSN: 1433-7851            Impact factor:   15.336


  57 in total

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4.  Realization and properties of biochemical-computing biocatalytic XOR gate based on enzyme inhibition by a substrate.

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Authors:  Julia E Poje; Tamara Kastratovic; Andrew R Macdonald; Ana C Guillermo; Steven E Troetti; Omar J Jabado; M Leigh Fanning; Darko Stefanovic; Joanne Macdonald
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6.  Kinetic model for a threshold filter in an enzymatic system for bioanalytical and biocomputing applications.

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7.  Catalytic molecular logic devices by DNAzyme displacement.

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  14 in total

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Journal:  Electroanalysis       Date:  2016-08-05       Impact factor: 3.223

2.  Dose-Dependent Response of Personal Glucose Meters to Nicotinamide Coenzymes: Applications to Point-of-Care Diagnostics of Many Non-Glucose Targets in a Single Step.

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Journal:  Angew Chem Int Ed Engl       Date:  2015-11-23       Impact factor: 15.336

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4.  A Stimuli-Responsive Biosensor of Glucose on Layer-by-Layer Films Assembled through Specific Lectin-Glycoenzyme Recognition.

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5.  Design of Flow Systems for Improved Networking and Reduced Noise in Biomolecular Signal Processing in Biocomputing and Biosensing Applications.

Authors:  Arjun Verma; Brian E Fratto; Vladimir Privman; Evgeny Katz
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6.  Molecular computing: paths to chemical Turing machines.

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7.  A DNA-based parity generator/checker for error detection through data transmission with visual readout and an output-correction function.

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8.  Antibody-controlled actuation of DNA-based molecular circuits.

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9.  A label-free and enzyme-free platform with a visible output for constructing versatile logic gates using caged G-quadruplex as the signal transducer.

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10.  Electrochemical Probing through a Redox Capacitor To Acquire Chemical Information on Biothiols.

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