Systematic Selection of High‐Affinity ssDNA Sequences to Carbon Nanotubes

Dakyeon Lee; Jaekang Lee; Woojin Kim; Yeongjoo Suh; Jiwoo Park; Sungjee Kim; YongJoo Kim; Sunyoung Kwon; Sanghwa Jeong

doi:10.1002/advs.202308915

Advanced Science (Aug 2024)

Systematic Selection of High‐Affinity ssDNA Sequences to Carbon Nanotubes

Dakyeon Lee,
Jaekang Lee,
Woojin Kim,
Yeongjoo Suh,
Jiwoo Park,
Sungjee Kim,
YongJoo Kim,
Sunyoung Kwon,
Sanghwa Jeong

Affiliations

Dakyeon Lee: School of Biomedical Convergence Engineering Pusan National University Yangsan 50612 Republic of Korea
Jaekang Lee: School of Biomedical Convergence Engineering Pusan National University Yangsan 50612 Republic of Korea
Woojin Kim: Department of Materials Science and Engineering Kookmin University Seoul 02707 Republic of Korea
Yeongjoo Suh: School of Biomedical Convergence Engineering Pusan National University Yangsan 50612 Republic of Korea
Jiwoo Park: School of Biomedical Convergence Engineering Pusan National University Yangsan 50612 Republic of Korea
Sungjee Kim: Department of Chemistry Pohang University of Science and Technology Pohang 37673 Republic of Korea
YongJoo Kim: Department of Materials Science and Engineering Korea University Seoul 02841 Republic of Korea
Sunyoung Kwon: School of Biomedical Convergence Engineering Pusan National University Yangsan 50612 Republic of Korea
Sanghwa Jeong: School of Biomedical Convergence Engineering Pusan National University Yangsan 50612 Republic of Korea

DOI: https://doi.org/10.1002/advs.202308915
Journal volume & issue: Vol. 11, no. 32
pp. n/a – n/a

Abstract

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Abstract Single‐walled carbon nanotubes (SWCNTs) have gained significant interest for their potential in biomedicine and nanoelectronics. The functionalization of SWCNTs with single‐stranded DNA (ssDNA) enables the precise control of SWCNT alignment and the development of optical and electronic biosensors. This study addresses the current gaps in the field by employing high‐throughput systematic selection, enriching high‐affinity ssDNA sequences from a vast random library. Specific base compositions and patterns are identified that govern the binding affinity between ssDNA and SWCNTs. Molecular dynamics simulations validate the stability of ssDNA conformations on SWCNTs and reveal the pivotal role of hydrogen bonds in this interaction. Additionally, it is demonstrated that machine learning could accurately distinguish high‐affinity ssDNA sequences, providing an accessible model on a dedicated webpage (http://service.k‐medai.com/ssdna4cnt). These findings open new avenues for high‐affinity ssDNA‐SWCNT constructs for stable and sensitive molecular detection across diverse scientific disciplines.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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