A DNA superstructure-based replicator without product inhibition

David Y. Zhang; Bernard Yurke

doi:10.1007/s11047-005-4465-x

A DNA superstructure-based replicator without product inhibition

David Y. Zhang, Bernard Yurke

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

A monomer structure based on a hairpin loop is described that can be linked via short oligonucleotide sequences (linkers) to form polymers. Independence of linked monomers allow for exponential complexity of the polymer structure. A method is described wherein the polymer structure can be replicated semi-conservatively with fidelity, given a source of monomer structures and linkers. Furthermore, the separation of the product from the parent allows for exponential amplification. These steps are achieved by secondary structure constraints and toehold-mediated strand displacement, and occur in the absence of enzymes. The parallel polymerization allows for replication to be achieved in O(log N) time, as opposed to O(N) from a processive process.

Original language	English
Pages (from-to)	183-202
Number of pages	20
Journal	Natural Computing
Volume	5
Issue number	2
DOIs	https://doi.org/10.1007/s11047-005-4465-x
State	Published - May 2006
Externally published	Yes

Keywords

DNA based polymers
DNA motors
Self-replication

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10.1007/s11047-005-4465-x

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title = "A DNA superstructure-based replicator without product inhibition",

abstract = "A monomer structure based on a hairpin loop is described that can be linked via short oligonucleotide sequences (linkers) to form polymers. Independence of linked monomers allow for exponential complexity of the polymer structure. A method is described wherein the polymer structure can be replicated semi-conservatively with fidelity, given a source of monomer structures and linkers. Furthermore, the separation of the product from the parent allows for exponential amplification. These steps are achieved by secondary structure constraints and toehold-mediated strand displacement, and occur in the absence of enzymes. The parallel polymerization allows for replication to be achieved in O(log N) time, as opposed to O(N) from a processive process.",

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AU - Yurke, Bernard

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N2 - A monomer structure based on a hairpin loop is described that can be linked via short oligonucleotide sequences (linkers) to form polymers. Independence of linked monomers allow for exponential complexity of the polymer structure. A method is described wherein the polymer structure can be replicated semi-conservatively with fidelity, given a source of monomer structures and linkers. Furthermore, the separation of the product from the parent allows for exponential amplification. These steps are achieved by secondary structure constraints and toehold-mediated strand displacement, and occur in the absence of enzymes. The parallel polymerization allows for replication to be achieved in O(log N) time, as opposed to O(N) from a processive process.

AB - A monomer structure based on a hairpin loop is described that can be linked via short oligonucleotide sequences (linkers) to form polymers. Independence of linked monomers allow for exponential complexity of the polymer structure. A method is described wherein the polymer structure can be replicated semi-conservatively with fidelity, given a source of monomer structures and linkers. Furthermore, the separation of the product from the parent allows for exponential amplification. These steps are achieved by secondary structure constraints and toehold-mediated strand displacement, and occur in the absence of enzymes. The parallel polymerization allows for replication to be achieved in O(log N) time, as opposed to O(N) from a processive process.

KW - DNA based polymers

KW - DNA motors

KW - Self-replication

UR - https://www.scopus.com/pages/publications/33745131836

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DO - 10.1007/s11047-005-4465-x

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VL - 5

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EP - 202

JO - Natural Computing

JF - Natural Computing

IS - 2

ER -

A DNA superstructure-based replicator without product inhibition

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Keywords

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