DNA Computing : 8th International Workshop on DNA Based Computers, DNA8, Sapporo, Japan, June 10-13, 2002, Revised Papers / edited by Masami Hagiya, Azuma Ohuchi.

Format:

Book

Contributor:

Hagiya, Masami, 1957- editor.

Ohuchi, Azuma, editor.

SpringerLink (Online service)

Series:

Computer Science (Springer-11645)

Lecture notes in computer science 0302-9743 ; 2568.

Lecture Notes in Computer Science, 0302-9743 ; 2568

Language:

English

Subjects (All):

Logic, Symbolic and mathematical.

Computers.

Algorithms.

Artificial intelligence.

Bioinformatics.

Mathematical Logic and Foundations.

Computation by Abstract Devices.

Algorithm Analysis and Problem Complexity.

Artificial Intelligence.

Local Subjects:

Mathematical Logic and Foundations.

Computation by Abstract Devices.

Algorithm Analysis and Problem Complexity.

Artificial Intelligence.

Bioinformatics.

Physical Description:

1 online resource (XII, 344 pages).

Edition:

First edition 2003.

Contained In:

Springer eBooks

Place of Publication:

Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2003.

System Details:

text file PDF

Summary:

Biomolecular computing has emerged as an interdisciplinary ?eld that draws - gether chemistry, computer science, mathematics, molecular biology, and physics. Our knowledge on DNA nanotechnology and biomolecular computing increases exponentially with every passing year. The international meeting on DNA Based Computers has been a forum where scientists with di?erent backgrounds, yet sharing a common interest in biomolecular computing, meet and present their latest results. Continuing this tradition, the 8th International Meeting on DNA Based Computers (DNA8) focuses on the current theoretical and experimental results with the greatest impact. Papers and poster presentations were sought in all areas that relate to b- molecular computing, including (but not restricted to): algorithms and appli- tions, analysis of laboratory techniques/theoretical models, computational p- cesses in vitro and in vivo, DNA-computing-based biotechnological applications, DNA devices, error evaluation and correction, in vitro evolution, models of biomolecular computing (using DNA and/or other molecules), molecular - sign, nucleic acid chemistry, and simulation tools. Papers and posters with new experimental results were particularly encouraged. Authors who wished their work to be considered for either oral or poster presentation were asked to select from one of two submission "tracks": - Track A - Full Paper - Track B - One-Page Abstract For authors with late-breaking results, or who were submitting their manuscript to a scienti?c journal, a one-page abstract, rather than a full paper, could be submitted in Track B. Authors could (optionally) include a preprint of their full paper, for consideration only by the program committee.

Contents:

Self-assembly and Autonomous Molecular Computation

Self-assembling DNA Graphs

DNA Nanotubes: Construction and Characterization of Filaments Composed of TX-tile Lattice

The Design of Autonomous DNA Nanomechanical Devices: Walking and Rolling DNA

Cascading Whiplash PCR with a Nicking Enzyme

Molecular Evolution and Application to Biotechnology

A PNA-mediated Whiplash PCR-based Program for In Vitro Protein Evolution

Engineering Signal Processing in Cells: Towards Molecular Concentration Band Detection

Applications to Mathematical Problems

Temperature Gradient-Based DNA Computing for Graph Problems with Weighted Edges

Shortening the Computational Time of the Fluorescent DNA Computing

How Efficiently Can Room at the Bottom Be Traded Away for Speed at the Top?

Hierarchical DNA Memory Based on Nested PCR

Binary Arithmetic for DNA Computers

Implementation of a Random Walk Method for Solving 3-SAT on Circular DNA Molecules

Version Space Learning with DNA Molecules

DNA Implementation of Theorem Proving with Resolution Refutation in Propositional Logic

Universal Biochip Readout of Directed Hamiltonian Path Problems

Nucleic Acid Sequence Design

Algorithms for Testing That Sets of DNA Words Concatenate without Secondary Structure

A PCR-based Protocol for In Vitro Selection of Non-crosshybridizing Oligonucleotides

On Template Method for DNA Sequence Design

From RNA Secondary Structure to Coding Theory: A Combinatorial Approach

Stochastic Local Search Algorithms for DNA Word Design

NACST/Seq: A Sequence Design System with Multiobjective Optimization

A Software Tool for Generating Non-crosshybridizing Libraries of DNA Oligonucleotides

Theory

Splicing Systems: Regularity and Below

On the Computational Power of Insertion-Deletion Systems

Unexpected Universality Results for Three Classes of P Systems with Symport/Antiport

Conformons-P Systems

Parallel Rewriting P Systems with Deadlock

A DNA-based Computational Model Using a Specific Type of Restriction Enzyme

Time-Varying Distributed H Systems of Degree 2 Can Carry Out Parallel Computations.

Other Format:

Printed edition:

ISBN:

978-3-540-36440-5

9783540364405

Access Restriction:

Restricted for use by site license.