Molecular electronics sensors on a scalable semiconductor chip: A platform for single-molecule measurement of binding kinetics and enzyme activity

For nearly 50 years, the vision of using single molecules in circuits has been seen as providing the ultimate miniaturization of electronic chips. An advanced example of such a molecular electronics chip is presented here, with the important distinction that the molecular circuit elements play the r...

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Autores principales: Fuller, Carl W., Padayatti, Pius S., Abderrahim, Hadi, Adamiak, Lisa, Alagar, Nolan, Ananthapadmanabhan, Nagaraj, Baek, Jihye, Chinni, Sarat, Choi, Chulmin, Delaney, Kevin J., Dubielzig, Rich, Frkanec, Julie, Garcia, Chris, Gardner, Calvin, Gebhardt, Daniel, Geiser, Tim, Gutierrez, Zachariah, Hall, Drew A., Hodges, Andrew P., Hou, Guangyuan, Jain, Sonal, Jones, Teresa, Lobaton, Raymond, Majzik, Zsolt, Marte, Allen, Mohan, Prateek, Mola, Paul, Mudondo, Paul, Mullinix, James, Nguyen, Thuan, Ollinger, Frederick, Orr, Sarah, Ouyang, Yuxuan, Pan, Paul, Park, Namseok, Porras, David, Prabhu, Keshav, Reese, Cassandra, Ruel, Travers, Sauerbrey, Trevor, Sawyer, Jaymie R., Sinha, Prem, Tu, Jacky, Venkatesh, A. G., VijayKumar, Sushmitha, Zheng, Le, Jin, Sungho, Tour, James M., Church, George M., Mola, Paul W., Merriman, Barry
Formato: Online Artículo Texto
Lenguaje:English
Publicado: National Academy of Sciences 2022
Materias:
Biological Sciences
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8812571/
https://www.ncbi.nlm.nih.gov/pubmed/35074874
http://dx.doi.org/10.1073/pnas.2112812119
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author Fuller, Carl W.
Padayatti, Pius S.
Abderrahim, Hadi
Adamiak, Lisa
Alagar, Nolan
Ananthapadmanabhan, Nagaraj
Baek, Jihye
Chinni, Sarat
Choi, Chulmin
Delaney, Kevin J.
Dubielzig, Rich
Frkanec, Julie
Garcia, Chris
Gardner, Calvin
Gebhardt, Daniel
Geiser, Tim
Gutierrez, Zachariah
Hall, Drew A.
Hodges, Andrew P.
Hou, Guangyuan
Jain, Sonal
Jones, Teresa
Lobaton, Raymond
Majzik, Zsolt
Marte, Allen
Mohan, Prateek
Mola, Paul
Mudondo, Paul
Mullinix, James
Nguyen, Thuan
Ollinger, Frederick
Orr, Sarah
Ouyang, Yuxuan
Pan, Paul
Park, Namseok
Porras, David
Prabhu, Keshav
Reese, Cassandra
Ruel, Travers
Sauerbrey, Trevor
Sawyer, Jaymie R.
Sinha, Prem
Tu, Jacky
Venkatesh, A. G.
VijayKumar, Sushmitha
Zheng, Le
Jin, Sungho
Tour, James M.
Church, George M.
Mola, Paul W.
Merriman, Barry
author_facet Fuller, Carl W.
Padayatti, Pius S.
Abderrahim, Hadi
Adamiak, Lisa
Alagar, Nolan
Ananthapadmanabhan, Nagaraj
Baek, Jihye
Chinni, Sarat
Choi, Chulmin
Delaney, Kevin J.
Dubielzig, Rich
Frkanec, Julie
Garcia, Chris
Gardner, Calvin
Gebhardt, Daniel
Geiser, Tim
Gutierrez, Zachariah
Hall, Drew A.
Hodges, Andrew P.
Hou, Guangyuan
Jain, Sonal
Jones, Teresa
Lobaton, Raymond
Majzik, Zsolt
Marte, Allen
Mohan, Prateek
Mola, Paul
Mudondo, Paul
Mullinix, James
Nguyen, Thuan
Ollinger, Frederick
Orr, Sarah
Ouyang, Yuxuan
Pan, Paul
Park, Namseok
Porras, David
Prabhu, Keshav
Reese, Cassandra
Ruel, Travers
Sauerbrey, Trevor
Sawyer, Jaymie R.
Sinha, Prem
Tu, Jacky
Venkatesh, A. G.
VijayKumar, Sushmitha
Zheng, Le
Jin, Sungho
Tour, James M.
Church, George M.
Mola, Paul W.
Merriman, Barry
author_sort Fuller, Carl W.
collection PubMed
description For nearly 50 years, the vision of using single molecules in circuits has been seen as providing the ultimate miniaturization of electronic chips. An advanced example of such a molecular electronics chip is presented here, with the important distinction that the molecular circuit elements play the role of general-purpose single-molecule sensors. The device consists of a semiconductor chip with a scalable array architecture. Each array element contains a synthetic molecular wire assembled to span nanoelectrodes in a current monitoring circuit. A central conjugation site is used to attach a single probe molecule that defines the target of the sensor. The chip digitizes the resulting picoamp-scale current-versus-time readout from each sensor element of the array at a rate of 1,000 frames per second. This provides detailed electrical signatures of the single-molecule interactions between the probe and targets present in a solution-phase test sample. This platform is used to measure the interaction kinetics of single molecules, without the use of labels, in a massively parallel fashion. To demonstrate broad applicability, examples are shown for probe molecule binding, including DNA oligos, aptamers, antibodies, and antigens, and the activity of enzymes relevant to diagnostics and sequencing, including a CRISPR/Cas enzyme binding a target DNA, and a DNA polymerase enzyme incorporating nucleotides as it copies a DNA template. All of these applications are accomplished with high sensitivity and resolution, on a manufacturable, scalable, all-electronic semiconductor chip device, thereby bringing the power of modern chips to these diverse areas of biosensing.
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spelling pubmed-88125712022-02-16 Molecular electronics sensors on a scalable semiconductor chip: A platform for single-molecule measurement of binding kinetics and enzyme activity Fuller, Carl W. Padayatti, Pius S. Abderrahim, Hadi Adamiak, Lisa Alagar, Nolan Ananthapadmanabhan, Nagaraj Baek, Jihye Chinni, Sarat Choi, Chulmin Delaney, Kevin J. Dubielzig, Rich Frkanec, Julie Garcia, Chris Gardner, Calvin Gebhardt, Daniel Geiser, Tim Gutierrez, Zachariah Hall, Drew A. Hodges, Andrew P. Hou, Guangyuan Jain, Sonal Jones, Teresa Lobaton, Raymond Majzik, Zsolt Marte, Allen Mohan, Prateek Mola, Paul Mudondo, Paul Mullinix, James Nguyen, Thuan Ollinger, Frederick Orr, Sarah Ouyang, Yuxuan Pan, Paul Park, Namseok Porras, David Prabhu, Keshav Reese, Cassandra Ruel, Travers Sauerbrey, Trevor Sawyer, Jaymie R. Sinha, Prem Tu, Jacky Venkatesh, A. G. VijayKumar, Sushmitha Zheng, Le Jin, Sungho Tour, James M. Church, George M. Mola, Paul W. Merriman, Barry Proc Natl Acad Sci U S A Biological Sciences For nearly 50 years, the vision of using single molecules in circuits has been seen as providing the ultimate miniaturization of electronic chips. An advanced example of such a molecular electronics chip is presented here, with the important distinction that the molecular circuit elements play the role of general-purpose single-molecule sensors. The device consists of a semiconductor chip with a scalable array architecture. Each array element contains a synthetic molecular wire assembled to span nanoelectrodes in a current monitoring circuit. A central conjugation site is used to attach a single probe molecule that defines the target of the sensor. The chip digitizes the resulting picoamp-scale current-versus-time readout from each sensor element of the array at a rate of 1,000 frames per second. This provides detailed electrical signatures of the single-molecule interactions between the probe and targets present in a solution-phase test sample. This platform is used to measure the interaction kinetics of single molecules, without the use of labels, in a massively parallel fashion. To demonstrate broad applicability, examples are shown for probe molecule binding, including DNA oligos, aptamers, antibodies, and antigens, and the activity of enzymes relevant to diagnostics and sequencing, including a CRISPR/Cas enzyme binding a target DNA, and a DNA polymerase enzyme incorporating nucleotides as it copies a DNA template. All of these applications are accomplished with high sensitivity and resolution, on a manufacturable, scalable, all-electronic semiconductor chip device, thereby bringing the power of modern chips to these diverse areas of biosensing. National Academy of Sciences 2022-01-24 2022-02-01 /pmc/articles/PMC8812571/ /pubmed/35074874 http://dx.doi.org/10.1073/pnas.2112812119 Text en Copyright © 2022 the Author(s). Published by PNAS. https://creativecommons.org/licenses/by-nc-nd/4.0/This open access article is distributed under Creative Commons Attribution-NonCommercial-NoDerivatives License 4.0 (CC BY-NC-ND) (https://creativecommons.org/licenses/by-nc-nd/4.0/) .
spellingShingle Biological Sciences
Fuller, Carl W.
Padayatti, Pius S.
Abderrahim, Hadi
Adamiak, Lisa
Alagar, Nolan
Ananthapadmanabhan, Nagaraj
Baek, Jihye
Chinni, Sarat
Choi, Chulmin
Delaney, Kevin J.
Dubielzig, Rich
Frkanec, Julie
Garcia, Chris
Gardner, Calvin
Gebhardt, Daniel
Geiser, Tim
Gutierrez, Zachariah
Hall, Drew A.
Hodges, Andrew P.
Hou, Guangyuan
Jain, Sonal
Jones, Teresa
Lobaton, Raymond
Majzik, Zsolt
Marte, Allen
Mohan, Prateek
Mola, Paul
Mudondo, Paul
Mullinix, James
Nguyen, Thuan
Ollinger, Frederick
Orr, Sarah
Ouyang, Yuxuan
Pan, Paul
Park, Namseok
Porras, David
Prabhu, Keshav
Reese, Cassandra
Ruel, Travers
Sauerbrey, Trevor
Sawyer, Jaymie R.
Sinha, Prem
Tu, Jacky
Venkatesh, A. G.
VijayKumar, Sushmitha
Zheng, Le
Jin, Sungho
Tour, James M.
Church, George M.
Mola, Paul W.
Merriman, Barry
Molecular electronics sensors on a scalable semiconductor chip: A platform for single-molecule measurement of binding kinetics and enzyme activity
title Molecular electronics sensors on a scalable semiconductor chip: A platform for single-molecule measurement of binding kinetics and enzyme activity
title_full Molecular electronics sensors on a scalable semiconductor chip: A platform for single-molecule measurement of binding kinetics and enzyme activity
title_fullStr Molecular electronics sensors on a scalable semiconductor chip: A platform for single-molecule measurement of binding kinetics and enzyme activity
title_full_unstemmed Molecular electronics sensors on a scalable semiconductor chip: A platform for single-molecule measurement of binding kinetics and enzyme activity
title_short Molecular electronics sensors on a scalable semiconductor chip: A platform for single-molecule measurement of binding kinetics and enzyme activity
title_sort molecular electronics sensors on a scalable semiconductor chip: a platform for single-molecule measurement of binding kinetics and enzyme activity
topic Biological Sciences
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8812571/
https://www.ncbi.nlm.nih.gov/pubmed/35074874
http://dx.doi.org/10.1073/pnas.2112812119
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