A DNA version of the self-assembly model of computing, feasible using currently available laboratory techniques, is proposed. Input signals are coded into unmethylated and methylated oligonucleotides which then hybridize with a backbone that contains complementary sequences. Different input signal patterns are thus represented as DNA duplexes with distinctly different conformational dynamics, in particular different equilibria of B and Z DNA. The pattern classification activity of the system is mediated by the interactions that lead to the secondary structural organization. Circular dichroism may be used for readout. © 1998 Elsevier Science Ireland Ltd
In nature, self-assembling and disassembling complexes of proteins and nucleic acids bound to a vari...
International audienceGroove-backbone interaction is a natural and biologically relevant mechanism f...
Abstract. DNA complexes, like the double crossover, are used as building blocks for the assembly of ...
A DNA version of the self-assembly model of computing, feasible using currently available laboratory...
In this study, the DNA logic computing model is established based on the methods of DNA self-assembl...
Abstract. While the topic of Molecular Computation would have ap-peared even a half dozen years ago ...
Abstract Self-assembly is the spontaneous self-ordering of substructures into superstructures driven...
Deoxyribonucleic acids (DNA), Ribonucleic acids (RNA) and Proteins are the computational devices of ...
In this paper we examine the computational capabilities inherent in the hybridiza-tion of DNA molecu...
Efficient and useful simulations for problem solving in self-assembly of nanostructures require repr...
DNA self-assembly, widely developed in the fields of DNA computing and nanotechnology, is related to...
<p>The control of matter and phenomena at the nanoscale is fast becoming one of the most important c...
Nucleic acids have proven to be remarkably versatile as an engineering material for chemical tasks i...
Nucleic acids have proven to be remarkably versatile as an engineering material for chemical tasks i...
AbstractDNA self-assembly is the most advanced and versatile system that has been experimentally dem...
In nature, self-assembling and disassembling complexes of proteins and nucleic acids bound to a vari...
International audienceGroove-backbone interaction is a natural and biologically relevant mechanism f...
Abstract. DNA complexes, like the double crossover, are used as building blocks for the assembly of ...
A DNA version of the self-assembly model of computing, feasible using currently available laboratory...
In this study, the DNA logic computing model is established based on the methods of DNA self-assembl...
Abstract. While the topic of Molecular Computation would have ap-peared even a half dozen years ago ...
Abstract Self-assembly is the spontaneous self-ordering of substructures into superstructures driven...
Deoxyribonucleic acids (DNA), Ribonucleic acids (RNA) and Proteins are the computational devices of ...
In this paper we examine the computational capabilities inherent in the hybridiza-tion of DNA molecu...
Efficient and useful simulations for problem solving in self-assembly of nanostructures require repr...
DNA self-assembly, widely developed in the fields of DNA computing and nanotechnology, is related to...
<p>The control of matter and phenomena at the nanoscale is fast becoming one of the most important c...
Nucleic acids have proven to be remarkably versatile as an engineering material for chemical tasks i...
Nucleic acids have proven to be remarkably versatile as an engineering material for chemical tasks i...
AbstractDNA self-assembly is the most advanced and versatile system that has been experimentally dem...
In nature, self-assembling and disassembling complexes of proteins and nucleic acids bound to a vari...
International audienceGroove-backbone interaction is a natural and biologically relevant mechanism f...
Abstract. DNA complexes, like the double crossover, are used as building blocks for the assembly of ...
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