Bromide as a Robust Backfiller on Gold for Precise Control of DNA Conformation and High Stability of Spherical Nucleic Acids

Biwu Liu; Peng Wu; Zhicheng Huang; Lingzi Ma; Juewen Liu

doi:10.1021/jacs.8b01510

Bromide as a Robust Backfiller on Gold for Precise Control of DNA Conformation and High Stability of Spherical Nucleic Acids

Biwu Liu
, Peng Wu
, Zhicheng Huang
, Lingzi Ma
, Juewen Liu

University of Waterloo
Sichuan University

科研成果: 期刊稿件 › 文章 › 同行评审

111 引用（Scopus）

摘要

Functionalization of a gold surface with DNA is often complicated by kinetic traps from unintended DNA base adsorption. Herein, we communicate that Br^- serves as a robust backfilling agent displacing selected DNA bases on gold. Traditional thiol backfillers are too strong, while even 300 mM Br^- is well tolerated. Conjugates prepared with Br^- hybridize 10-fold faster and resist DNA release with better colloidal stability yielding highly sensitive probes. From colorimetric and Raman assays, adsorption affinity ranks as F^- < T ≈ Cl^- < C < G ≈ Br^- < A < I^-, allowing Br^- to displace nonpoly-A sequences from gold. This well-controlled biointerface will impact biosensing, drug delivery, and directed assembly of nanomaterials.

源语言	英语
页（从-至）	4499-4502
页数	4
期刊	Journal of the American Chemical Society
卷	140
期	13
DOI	https://doi.org/10.1021/jacs.8b01510
出版状态	已出版 - 4 4月 2018
已对外发布	是

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abstract = "Functionalization of a gold surface with DNA is often complicated by kinetic traps from unintended DNA base adsorption. Herein, we communicate that Br- serves as a robust backfilling agent displacing selected DNA bases on gold. Traditional thiol backfillers are too strong, while even 300 mM Br- is well tolerated. Conjugates prepared with Br- hybridize 10-fold faster and resist DNA release with better colloidal stability yielding highly sensitive probes. From colorimetric and Raman assays, adsorption affinity ranks as F- < T ≈ Cl- < C < G ≈ Br- < A < I-, allowing Br- to displace nonpoly-A sequences from gold. This well-controlled biointerface will impact biosensing, drug delivery, and directed assembly of nanomaterials.",

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AU - Ma, Lingzi

AU - Liu, Juewen

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N2 - Functionalization of a gold surface with DNA is often complicated by kinetic traps from unintended DNA base adsorption. Herein, we communicate that Br- serves as a robust backfilling agent displacing selected DNA bases on gold. Traditional thiol backfillers are too strong, while even 300 mM Br- is well tolerated. Conjugates prepared with Br- hybridize 10-fold faster and resist DNA release with better colloidal stability yielding highly sensitive probes. From colorimetric and Raman assays, adsorption affinity ranks as F- < T ≈ Cl- < C < G ≈ Br- < A < I-, allowing Br- to displace nonpoly-A sequences from gold. This well-controlled biointerface will impact biosensing, drug delivery, and directed assembly of nanomaterials.

AB - Functionalization of a gold surface with DNA is often complicated by kinetic traps from unintended DNA base adsorption. Herein, we communicate that Br- serves as a robust backfilling agent displacing selected DNA bases on gold. Traditional thiol backfillers are too strong, while even 300 mM Br- is well tolerated. Conjugates prepared with Br- hybridize 10-fold faster and resist DNA release with better colloidal stability yielding highly sensitive probes. From colorimetric and Raman assays, adsorption affinity ranks as F- < T ≈ Cl- < C < G ≈ Br- < A < I-, allowing Br- to displace nonpoly-A sequences from gold. This well-controlled biointerface will impact biosensing, drug delivery, and directed assembly of nanomaterials.

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Bromide as a Robust Backfiller on Gold for Precise Control of DNA Conformation and High Stability of Spherical Nucleic Acids

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