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An authoritative overview of DNA- and RNA-based biocomputing systems that ties together advances in computer science, biotechnology, materials science and nanotechnology.
An authoritative overview of DNA- and RNA-based biocomputing systems that ties together advances in computer science, biotechnology, materials science and nanotechnology.
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Autorenporträt
Evgeny Katz received his Ph.D. in Chemistry from Frumkin Institute of Electrochemistry (Moscow), Russian Academy of Sciences, in 1983. He was a senior researcher in the Institute of Photosynthesis (Pushchino), Russian Academy of Sciences, in 1983-1991. In 1992-1993 he performed research at München Technische Universität (Germany) as a Humboldt fellow. Later, in 1993-2006, Dr. Katz was a Research Associate Professor at the Hebrew University of Jerusalem. Since 2006 he is Milton Kerker Chaired Professor at the Department of Chemistry and Biomolecular Science, Clarkson University, NY (USA). His scientific interests are in the broad areas of bioelectronics, biosensors, biofuel cells, and biomolecular information processing.
Inhaltsangabe
Introduction to DNA and RNA Computing Development and Applications of Catalytic DNA in Nanoscale Computing and Robotics Organizing DNA Logic Gates on a 2D DNA Platform for Efficient Inter-Gate Communication Engineering DNA Switches for DNA Computing Applications Nanopore Decoding in DNA Computation Spatio-Temporal Patterns with DNA/Enzyme Circuits Versatile Logic Circuits and Innovative in Vitro/Vivo Applications Non-traditional Luminescent Materials for Photonic Logic Nucleic Acid Based Computing in Living Cells Programming Molecular Circuitry and Intracellular Computing Codes for DNA Data Storage DNA Computing: Methodologies and Challenges Output Signal Design in DNA Logic Circuits Strand-Displacement in DNA-Based Nanodevices and Logic DNA Logic Gates DNA Circuits and Communications Development of Logic Gate Nanodevices from Fluorogenic RNA Aptamers Interface between Enzyme-Based and DNA-Based Computing DNA Computing to Solve Biological Problems DNA Computation on Molecular-Scale Databases DNA Transformers Conclusions: Perspectives in DNA and RNA Computing
Introduction to DNA and RNA Computing Development and Applications of Catalytic DNA in Nanoscale Computing and Robotics Organizing DNA Logic Gates on a 2D DNA Platform for Efficient Inter-Gate Communication Engineering DNA Switches for DNA Computing Applications Nanopore Decoding in DNA Computation Spatio-Temporal Patterns with DNA/Enzyme Circuits Versatile Logic Circuits and Innovative in Vitro/Vivo Applications Non-traditional Luminescent Materials for Photonic Logic Nucleic Acid Based Computing in Living Cells Programming Molecular Circuitry and Intracellular Computing Codes for DNA Data Storage DNA Computing: Methodologies and Challenges Output Signal Design in DNA Logic Circuits Strand-Displacement in DNA-Based Nanodevices and Logic DNA Logic Gates DNA Circuits and Communications Development of Logic Gate Nanodevices from Fluorogenic RNA Aptamers Interface between Enzyme-Based and DNA-Based Computing DNA Computing to Solve Biological Problems DNA Computation on Molecular-Scale Databases DNA Transformers Conclusions: Perspectives in DNA and RNA Computing
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