Here we describe the experimental validation of two DNA codes, each containing 16-nucleotide strands designed to hybridize only with their complements and not ...
Abstract. In developing hybridization-based DNA computing meth- ods, DNA codes must be created that behave as predicted; otherwise.
Here we describe the experimental validation of two DNA codes, each containing 16-nucleotide strands designed to hybridize only with their complements and not ...
Experimental Validation of DNA Sequences for DNA Computing
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Hybridization was examined by measuring fluorescence as a function of temperature in the presence of SYBR Green I, a dye whose fluorescence increases ...
Experimental Validation of DNA Sequences for DNA Computing: Use of a SYBR Green I Assay. W. Pogozelski, M. Bernard, S. Priore, and A. Macula.
Experimental Validation of DNA Sequences for DNA ... - dblp
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Bibliographic details on Experimental Validation of DNA Sequences for DNA Computing: Use of a SYBR Green I Assay.
This project validated the generation of DNA sequences called a DNA (n,d) code. Fifteen strands of 16 nucleotides each were designed such that a code strand ...
Typical results for a successful experiment to test junction sequences ... The use of SYBR Green along with the Sequence Detection System to predict cross-.
This project validated the generation of DNA sequences called a DNA n,d code. Fifteen strands of 16 nucleotides each were designed such that a code strand ...
Missing: Assay. | Show results with:Assay.
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Priore, M.P. Bernard, A.J.Macula, "Experimental Validation of DNA Sequences for DNA Computing: Use of a SYBR Green Assay", Lecture Notes in Computer Science, ...