2011
DOI: 10.1093/bioinformatics/btr543
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Visual DSD: a design and analysis tool for DNA strand displacement systems

Abstract: Summary: The Visual DSD (DNA Strand Displacement) tool allows rapid prototyping and analysis of computational devices implemented using DNA strand displacement, in a convenient web-based graphical interface. It is an implementation of the DSD programming language and compiler described by Lakin et al. (2011) with additional features such as support for polymers of unbounded length. It also supports stochastic and deterministic simulation, construction of continuous-time Markov chains and various export formats… Show more

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Cited by 192 publications
(166 citation statements)
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“…A DSD Fig. 2: Examples of DNA strand displacement reactions illustrated using the software package Visual DSD [25] : the DNA strands are bonded by Watson-Crick base pairing, denoted by * and the basic steps involved are (a) binding of toehold 1 to 1*, (b) branch migration wherein the strand 1-2 partially displaces strand 2-3, and (c) complete separation of strand 2-3 [26].…”
Section: A Dna Strand Displacement Mechanismmentioning
confidence: 99%
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“…A DSD Fig. 2: Examples of DNA strand displacement reactions illustrated using the software package Visual DSD [25] : the DNA strands are bonded by Watson-Crick base pairing, denoted by * and the basic steps involved are (a) binding of toehold 1 to 1*, (b) branch migration wherein the strand 1-2 partially displaces strand 2-3, and (c) complete separation of strand 2-3 [26].…”
Section: A Dna Strand Displacement Mechanismmentioning
confidence: 99%
“…When implemented as elementary DNA reactions, for example by using the software package Visual DSD [25], these reactions can be used to construct a nonlinear QSM feedback controller. Consider the following set of idealized CRNs, where the signal X 1 is the input of the system and the signal A is the output, …”
Section: A Quasi Sliding Mode Controllermentioning
confidence: 99%
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“…adenine-thymine and guaninecytosine), the selection of appropriate DNA sequences allows precise control over the dynamics of the implemented DNA reactions, thus facilitating a precise molecular programming of the desired function, operator or circuit. Sophisticated CAD tools are also now becoming available to facilitate the design of synthetic circuits using this approach [5]. Examples of complex biomolecular circuits successfully designed and implemented through this approach include predator-prey dynamics [6], oscillators [7], and both linear and nonlinear feedback controllers [3], [8], [9].…”
Section: Introductionmentioning
confidence: 99%
“…DNA strand displacement cascades have been used to create digital and analog molecular circuits [4][5][6][7] , switchable nanostructures [8][9][10] , autonomous molecular motors [11][12][13][14][15] , and non-covalent catalytic amplifiers 13,[16][17][18][19][20][21] . Moreover, DNA devices using strand displacement reactions can be simulated and designed for diverse applications using computer-assisted design software [22][23][24] .…”
Section: Introductionmentioning
confidence: 99%