Biomolecular Information Processing (ePub)

Preface BIOMOLECULAR COMPUTING: FROM UNCONVENTIONAL COMPUTING TO "SMART" BIOSENSORS AND ACTUATORS-EDITORIAL INTRODUCTION PEPTIDE-BASED COMPUTATION: SWITCHES, GATES, AND SIMPLE ARITHMETIC Introduction Peptide-Based Replication Networks Logic Gates within Ternary Networks Symmetry and Order Requirements for Constructing the Logic Gates Taking the Steps toward More Complex Arithmetic Experimental Logic Gates Adaptive Networks Peptide-Based Switches and Gates for Molecular Electronics Summary and Conclusion BIOMOLECULAR ELECTRONICS AND PROTEIN-BASED OPTICAL COMPUTING Introduction Biomolecular and Semiconductor Electronics Bacteriorhodopsin as a Photonic and Holographic Material for Bioelectronics Fourier Transform Holographic Associative Processors Three-Dimensional Optical Memories Genetic Engineering of Bacteriorhodopsin for Device Applications Future Directions BIOELECTRONIC DEVICES CONTROLLED BY ENZYME-BASED INFORMATION PROCESSING SYSTEMS Introduction Enzyme-Based Logic Systems Producing pH Changes as Output Signals Interfacing of the Enzyme Logic Systems with Electrodes Modified with Signal-Responsive Polymers Switchable Biofuel Cells Controlled by the Enzyme Logic Systems Biomolecular Logic Systems Composed of Biocatalytic and Biorecognition Units and Their Integration with Biofuel Cells Processing of Injury Biomarkers by Enzyme Logic Systems Associated with Switchable Electrodes Summary and Outlook ENZYME LOGIC DIGITAL BIOSENSORS FOR BIOMEDICAL APPLICATIONS Introduction Enzyme-Based Logic Systems for Identification of Injury Conditions Multiplexing of Injury Codes for the Parallel Operation of Enzyme Logic Gates Scaling Up the Complexity of the Biocomputing Systems for Biomedical Applications - Mimicking Biochemical Pathways Application of Filter Systems for Improving Digitalization of the Output Signals Generated by Enzyme Logic Systems for Injury Analysis Conclusions and Perspectives INFORMATION SECURITY APPLICATIONS BASED ON BIOMOLECULAR SYSTEMS

Evgeny Katz received his Ph.D. in Chemistry from the Frumkin Institute of Electrochemistry (Moscow) in 1983. He was a senior researcher at the Institute of Photosynthesis (Pushchino), Russian Academy of Sciences (1983-1991), a Humboldt fellow at the Technische Universität München (Germany) (1992-1993), and a research associate professor at the Hebrew University of Jerusalem (1993-2006). Since 2006 he is Milton Kerker Chaired Professor at the Department of Chemistry and Biomolecular Science, Clarkson University, NY (USA). He has (co)authored over 360 papers in the areas of biocomputing, bioelectronics, biosensors and biofuel cells. Thomson Reuters included him in the list of the world?s top 100 chemists over the past 10 years as ranked by the impact of their published research. Professor Katz was also included in the list of top cited chemists prepared by the Royal Society of Chemistry with the worldwide rank 378 based on his Hirsch-index, which is currently 71.

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