By Evgeny Katz
Chapter 1 Biomolecular Computing: From Unconventional Computing to “Smart” Biosensors and Actuators – Editorial creation (pages 1–8): Prof. Dr. Evgeny Katz
Chapter 2 Peptide?Based Computation: Switches, Gates, and easy mathematics (pages 9–32): Zehavit Dadon, Manickasundaram Samiappan, Nathaniel Wagner, Nurit Ashkenasy and Gonen Ashkenasy
Chapter three Biomolecular Electronics and Protein?Based Optical Computing (pages 33–59): Jordan A. Greco, Nicole L. Wagner, Matthew J. Ranaghan, Sanguthevar Rajasekaran and Robert R. Birge
Chapter four Bioelectronic units managed by means of Enzyme?Based info Processing platforms (pages 61–80): Prof. Dr. Evgeny Katz
Chapter five Enzyme good judgment electronic Biosensors for Biomedical functions (pages 81–101): Prof. Dr. Evgeny Katz and Joseph Wang
Chapter 6 details safety purposes in response to Biomolecular structures (pages 103–116): Guinevere Strack, Heather R. Luckarift, Glenn R. Johnson and Prof. Dr. Evgeny Katz
Chapter 7 Biocomputing: discover Its recognition and clever common sense Detection (pages 117–131): Ming Zhou and Shaojun Dong
Chapter eight a few Experiments and versions in Molecular Computing and Robotics (pages 133–143): Milan N. Stojanovic and Darko Stefanovic
Chapter nine Biomolecular Finite Automata (pages 145–179): Tamar Ratner, Sivan Shoshani, Ron Piran and Ehud Keinan
Chapter 10 In Vivo details Processing utilizing RNA Interference (pages 181–198): Yaakov Benenson
Chapter eleven Biomolecular Computing platforms (pages 199–223): Harish Chandran, Sudhanshu Garg, Nikhil Gopalkrishnan and John H. Reif
Chapter 12 Enumeration method of the research of Interacting Nucleic Acid Strands (pages 225–244): Satoshi Kobayashi and Takaya Kawakami
Chapter thirteen limit Enzymes in Language new release and Plasmid Computing (pages 245–263): Tom Head
Chapter 14 improvement of Bacteria?Based mobile Computing Circuits for Sensing and keep an eye on in organic structures (pages 265–277): Michaela A. Teravest, Zhongjian Li and Largus T. Angenent
Chapter 15 The common sense of determination Making in Environmental micro organism (pages 279–302): Rafael Silva?Rocha, Javier Tamames and Victor de Lorenzo
Chapter sixteen Qualitative and Quantitative facets of a version for techniques encouraged by way of the Functioning of the residing telephone (pages 303–321): Andrzej Ehrenfeucht, Jetty Kleijn, Maciej Koutny and Grzegorz Rozenberg
Chapter 17 Computational tools for Quantitative Submodel comparability (pages 323–346): Andrzej Mizera, Elena Czeizler and Ion Petre
Chapter 18 Conclusions and views (pages 347–350): Prof. Dr. Evgeny Katz
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Extra resources for Biomolecular Information Processing: From Logic Systems to Smart Sensors and Actuators
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The key to successful design of this NAND gate is to accelerate the competing cross-catalytic pathway T1 T3 → T2 . 3e, right panel). 3f) is not a trivial gate; its output is ‘‘1’’ when either one of the inputs is present, but is ‘‘0’’ when neither or both of the inputs are present. 3f). Speciﬁcally, each of the homodimers T1 T1 and T2 T2 catalyzes the formation of T3 , while the heterodimer formed between T1 and T2 (T1 T2 ) catalyzes E1 and N, and E2 and N, to form T1 and T2 , respectively. 3f by thicker lines) are more efﬁcient than the two former pathways, the production of T1 and T2 outraces the production of T3 if both T1 and T2 are initially present at high concentrations.
Optical memories and processors are discussed in this chapter, and prototypes successfully implementing the proposed architectures are described. 2 Biomolecular and Semiconductor Electronics One of the best ways to introduce bioelectronic computing is to compare the potential advantages of these developing technologies with the current advantages of semiconductor-based electronics. The following sections elaborate on key characteristics of computing and serve as a sample of the technical advancements achieved by scientists and engineers over the past few decades.
Biomolecular Information Processing: From Logic Systems to Smart Sensors and Actuators by Evgeny Katz