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Visions of DNA Nanotechnology at 40 for the Next 40 A Tribute to Nadrian C. Seeman

Jonoska Natasha Winfree Erik
Innbundet / 2023 / Engelsk

Produktdetaljer

ISBN
9789811998904
Publisert
2023-07-05
Utgiver
Vendor
Springer Verlag, Singapore
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet

Redaktør
Jonoska Natasha
Winfree Erik

Om bidragsyterne

Nataša Jonoska is a mathematician and a Distinguished Professor at the University of South Florida known for her work in DNA computing. In 2007, she won the Rozenberg Tulip Award in DNA Computing for her work in applications of Automata theory and graph theory to DNA nanotechnology and was elected an AAAS Fellow in 2014 for advancements in understanding information processing in molecular self-assembly. She earned her PhD in mathematics from the State University of New York at Binghamton in 1993 when she joined USF. 

Erik Winfree is a Professor of Computer Science, Computation and Neural Systems, and Bioengineering at Caltech. Elected a Fellow of the AAAS (2015), he is the recipient of the Feynman Prize for Nanotechnology (2006), a MacArthur Fellowship (2000), and the first Rozenberg Tulip Award in DNA Computing (2000). Prior to starting his research group at Caltech in 2000, he did postdoctoral work at Princeton and was a visiting researcher at MIT. Professor Winfree earned his bachelor's degree in mathematics from the University of Chicago in 1991, and studied computation and neural systems at Caltech, earning his PhD in 1998.

Visions of DNA Nanotechnology at 40 for the Next 40 A Tribute to Nadrian C. Seeman

Jonoska Natasha Winfree Erik
Innbundet / 2023 / Engelsk
Jonoska Natasha Winfree Erik
Innbundet / 2023 / Engelsk
Nettpris:
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This open access book provides a unique and state-of-the-art view on DNA nanotechnology with an eye toward future developments. Intended as a tribute to Nadrian C. Seeman, who founded the field of DNA nanotechnology, the content is an exciting mixture of technical and non-technical material, reviews, tutorials, perspectives, new findings, and open questions. The book aims to inspire current researchers to sit back and think about the big picture, while also enticing new researchers to enter the field. Most of all, the book captures voices from a unique moment in time: 40 years after the publication of the first paper that envisioned DNA nanotechnology.

From this vantage point, what are the untold stories, the unspoken concerns, the underlying fundamental issues, the overlooked opportunities, and the unifying grand challenges? What will help us see more clearly, see more creatively, or see farther? What is transpiring right now that could pave the way for the future? To addressthese questions, leading researchers have contributed 22 chapters, grouped into five sections: perspectives, chemistry and physics, structures, biochemical circuits, and spatial systems.

This book will be an important reference point in the field of DNA nanotechnology, both for established researchers looking to take stock of the field and its future, and for newcomers such as graduate students and researchers in other fields who are beginning to appreciate the power and applicability of its methods.

Les mer
Beyond Watson-Crick.- DNA nanotechnology out of equilibrium.- The Evolution of DNA-Based Molecular Computing.- DNA Nanotechnology Research in Japan.- Reminiscences from the Trenches.- Beyond DNA.- Controlling single molecule conjugated oligomers and polymers with DNA.- Organizing charge flow with DNA.- DNA Assembly of Dye Aggregates.- Building with DNA.- From Molecules to Mathematics.- Origami Life.- Ok: a kinetic model for locally reconfigurable molecular systems.- Implementing a Theoretician’s Toolkit for Self-Assembly with DNA Components.- Reasoning As If.- Scaling up DNA computing with array-based synthesis and high-throughput sequencing.- Sequenceable Event Recorders.- Computational Design of Nucleic Acid Circuits.- Parallel computations with DNA-encoded chemical reaction networks.- Social DNA Nanorobots.- Models of Gellular Automata.- Patterning DNA origami on membranes through protein self-organization.
Les mer
This open access book provides a unique and state-of-the-art view on DNA nanotechnology with an eye toward future developments. Intended as a tribute to Nadrian C. Seeman, who founded the field of DNA nanotechnology, the content is an exciting mixture of technical and non-technical material, reviews, tutorials, perspectives, new findings, and open questions. The book aims to inspire current researchers to sit back and think about the big picture, while also enticing new researchers to enter the field. Most of all, the book captures voices from a unique moment in time: 40 years after the publication of the first paper that envisioned DNA nanotechnology.

From this vantage point, what are the untold stories, the unspoken concerns, the underlying fundamental issues, the overlooked opportunities, and the unifying grand challenges? What will help us see more clearly, see more creatively, or see farther? What is transpiring right now that could pave the way for the future? To address thesequestions, leading researchers have contributed 22 chapters, grouped into five sections: perspectives, chemistry and physics, structures, biochemical circuits, and spatial systems.

This book will be an important reference point in the field of DNA nanotechnology, both for established researchers looking to take stock of the field and its future, and for newcomers such as graduate students and researchers in other fields who are beginning to appreciate the power and applicability of its methods.

Les mer
Provides a unique view of DNA nanotechnology on the field’s 40th anniversary Includes multidisciplinary perspectives from chemistry, biology, physics, mathematics, and computer science Presents contributions by leading researchers in the field that will inspire new explorations Open Access
Les mer
Open Access This book is licensed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license and indicate if changes were made. The images or other third party material in this book are included in the book's Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the book's Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder.
Les mer

Relaterte produkter

This open access book provides a unique and state-of-the-art view on DNA nanotechnology with an eye toward future developments. Intended as a tribute to Nadrian C. Seeman, who founded the field of DNA nanotechnology, the content is an exciting mixture of technical and non-technical material, reviews, tutorials, perspectives, new findings, and open questions. The book aims to inspire current researchers to sit back and think about the big picture, while also enticing new researchers to enter the field. Most of all, the book captures voices from a unique moment in time: 40 years after the publication of the first paper that envisioned DNA nanotechnology.

From this vantage point, what are the untold stories, the unspoken concerns, the underlying fundamental issues, the overlooked opportunities, and the unifying grand challenges? What will help us see more clearly, see more creatively, or see farther? What is transpiring right now that could pave the way for the future? To addressthese questions, leading researchers have contributed 22 chapters, grouped into five sections: perspectives, chemistry and physics, structures, biochemical circuits, and spatial systems.

This book will be an important reference point in the field of DNA nanotechnology, both for established researchers looking to take stock of the field and its future, and for newcomers such as graduate students and researchers in other fields who are beginning to appreciate the power and applicability of its methods.

Les mer
Beyond Watson-Crick.- DNA nanotechnology out of equilibrium.- The Evolution of DNA-Based Molecular Computing.- DNA Nanotechnology Research in Japan.- Reminiscences from the Trenches.- Beyond DNA.- Controlling single molecule conjugated oligomers and polymers with DNA.- Organizing charge flow with DNA.- DNA Assembly of Dye Aggregates.- Building with DNA.- From Molecules to Mathematics.- Origami Life.- Ok: a kinetic model for locally reconfigurable molecular systems.- Implementing a Theoretician’s Toolkit for Self-Assembly with DNA Components.- Reasoning As If.- Scaling up DNA computing with array-based synthesis and high-throughput sequencing.- Sequenceable Event Recorders.- Computational Design of Nucleic Acid Circuits.- Parallel computations with DNA-encoded chemical reaction networks.- Social DNA Nanorobots.- Models of Gellular Automata.- Patterning DNA origami on membranes through protein self-organization.
Les mer
This open access book provides a unique and state-of-the-art view on DNA nanotechnology with an eye toward future developments. Intended as a tribute to Nadrian C. Seeman, who founded the field of DNA nanotechnology, the content is an exciting mixture of technical and non-technical material, reviews, tutorials, perspectives, new findings, and open questions. The book aims to inspire current researchers to sit back and think about the big picture, while also enticing new researchers to enter the field. Most of all, the book captures voices from a unique moment in time: 40 years after the publication of the first paper that envisioned DNA nanotechnology.

From this vantage point, what are the untold stories, the unspoken concerns, the underlying fundamental issues, the overlooked opportunities, and the unifying grand challenges? What will help us see more clearly, see more creatively, or see farther? What is transpiring right now that could pave the way for the future? To address thesequestions, leading researchers have contributed 22 chapters, grouped into five sections: perspectives, chemistry and physics, structures, biochemical circuits, and spatial systems.

This book will be an important reference point in the field of DNA nanotechnology, both for established researchers looking to take stock of the field and its future, and for newcomers such as graduate students and researchers in other fields who are beginning to appreciate the power and applicability of its methods.

Les mer
Provides a unique view of DNA nanotechnology on the field’s 40th anniversary Includes multidisciplinary perspectives from chemistry, biology, physics, mathematics, and computer science Presents contributions by leading researchers in the field that will inspire new explorations Open Access
Les mer
Open Access This book is licensed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license and indicate if changes were made. The images or other third party material in this book are included in the book's Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the book's Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder.
Les mer

Produktdetaljer

ISBN
9789811998904
Publisert
2023-07-05
Utgiver
Vendor
Springer Verlag, Singapore
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet

Redaktør
Jonoska Natasha
Winfree Erik

Om bidragsyterne

Nataša Jonoska is a mathematician and a Distinguished Professor at the University of South Florida known for her work in DNA computing. In 2007, she won the Rozenberg Tulip Award in DNA Computing for her work in applications of Automata theory and graph theory to DNA nanotechnology and was elected an AAAS Fellow in 2014 for advancements in understanding information processing in molecular self-assembly. She earned her PhD in mathematics from the State University of New York at Binghamton in 1993 when she joined USF. 

Erik Winfree is a Professor of Computer Science, Computation and Neural Systems, and Bioengineering at Caltech. Elected a Fellow of the AAAS (2015), he is the recipient of the Feynman Prize for Nanotechnology (2006), a MacArthur Fellowship (2000), and the first Rozenberg Tulip Award in DNA Computing (2000). Prior to starting his research group at Caltech in 2000, he did postdoctoral work at Princeton and was a visiting researcher at MIT. Professor Winfree earned his bachelor's degree in mathematics from the University of Chicago in 1991, and studied computation and neural systems at Caltech, earning his PhD in 1998.

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