DNA computing

InhaltsverzeichnisComputing by Observing Bio-systems: The Case of Sticker Systems.DNA-Based Computation Times.Computing Beyond the Turing Limit Using the H Systems.Biomolecular Implementation of Computing Devices with Unbounded Memory.Characterization of Non-crosshybridizing DNA Oligonucleotides Manufactured In Vitro.Error Free Self-assembly Using Error Prone Tiles.On the Computational Complexity of P Automata.A Weighted Insertion-Deletion Stacked Pair Thermodynamic Metric for DNA Codes.DNA Extraction by XPCR.A Method of Error Suppression for Self-assembling DNA Tiles.Using Automated Reasoning Systems on Molecular Computing.Parallelism in Gene Assembly.Splicing Systems for Universal Turing Machines.Application of Mismatch Detection Methods in DNA Computing.Bond-Free Languages: Formalizations, Maximality and Construction Methods.Preventing Undesirable Bonds Between DNA Codewords.Testing Structure Freeness of Regular Sets of Biomolecular Sequences.Minimum Basin Algorithm: An Effective Analysis Technique for DNA Energy Landscapes.Efficient Initial Pool Generation for Weighted Graph Problems Using Parallel Overlap Assembly.Partial Words for DNA Coding.Accepting Hybrid Networks of Evolutionary Processors.Building the Components for a Biomolecular Computer.Methods for Manipulating DNA Molecules in a Micrometer Scale Using Optical Techniques.From Cells to Computers: Membrane Computing – A Quick Overview.The Capacity of DNA for Information Encoding.Compact Error-Resilient Computational DNA Tiling Assemblies.Toward “Wet” Implementation of Genetic Algorithm for Protein Engineering.Programmable Control of Nucleation for Algorithmic Self-assembly.DNA Hybridization Catalysts and Catalyst Circuits.Complexity of Self-assembled Shapes.Aqueous Computing with DNA Hairpin-Based RAM.A Programmable Molecular Computer in Microreactors.Combinatorial Aspects of Minimal DNA Expressions.A Design for Cellular Evolutionary Computation by Using Bacteria.An Inexpensive LED-Based Fluorometer Used to Study a Hairpin-Based DNA Nanomachine.Designs of Autonomous Unidirectional Walking DNA Devices.Design of an Autonomous DNA Nanomechanical Device Capable of Universal Computation and Universal Translational Motion.A Clocked DNA-Based Replicator.A Bayesian Algorithm for In Vitro Molecular Evolution of Pattern Classifiers.