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An improved surface passivation method for single-molecule studies

by Ha, Taekjip , Singh, Digvijay , Kim, Hajin , Abeysirigunawardena, Sanjaya C , Hua, Boyang , Han, Kyu Young , Aggarwal, Vasudha , Woodson, Sarah A , Zhou, Ruobo , Shi, Xinghua , Jain, Ankur

in Deoxyribonucleic acid / Diagnostic imaging / DNA / DNA-Directed DNA Polymerase - metabolism / Fluorescence Resonance Energy Transfer - methods / Humans / Innovations / Molecular biology / Polyethylene Glycols - chemistry / Polyethylene Glycols - metabolism / Polysorbates - chemistry / Polysorbates - metabolism / Proliferating Cell Nuclear Antigen - metabolism / Properties / RNA-protein interactions / Silane / Silanes - chemistry / Silanes - metabolism / Studies / Surface Properties / Surfaces / Surfaces (Technology)

2014

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An improved surface passivation method for single-molecule studies

by Ha, Taekjip , Singh, Digvijay , Kim, Hajin , Abeysirigunawardena, Sanjaya C , Hua, Boyang , Han, Kyu Young , Aggarwal, Vasudha , Woodson, Sarah A , Zhou, Ruobo , Shi, Xinghua , Jain, Ankur

2014

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An improved surface passivation method for single-molecule studies

by Ha, Taekjip , Singh, Digvijay , Kim, Hajin , Abeysirigunawardena, Sanjaya C , Hua, Boyang , Han, Kyu Young , Aggarwal, Vasudha , Woodson, Sarah A , Zhou, Ruobo , Shi, Xinghua , Jain, Ankur

2014

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Journal Article

An improved surface passivation method for single-molecule studies

Ha, Taekjip,

Singh, Digvijay,

Kim, Hajin,

Abeysirigunawardena, Sanjaya C,

Hua, Boyang,

Han, Kyu Young,

Aggarwal, Vasudha,

Woodson, Sarah A,

Zhou, Ruobo,

Shi, Xinghua,

Jain, Ankur

2014

Overview

We report a surface passivation method based on dichlorodimethylsilane (DDS)-Tween-20 for in vitro single-molecule studies, which, under the conditions tested here, more efficiently prevented nonspecific binding of biomolecules than the standard poly(ethylene glycol) surface. The DDS-Tween-20 surface was simple and inexpensive to prepare and did not perturb the behavior and activities of tethered biomolecules. It can also be used for single-molecule imaging in the presence of high concentrations of labeled species in solution.

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Publisher

Nature Publishing Group

Subject

Deoxyribonucleic acid

/ Diagnostic imaging

/ DNA

/ DNA-Directed DNA Polymerase - metabolism

/ Fluorescence Resonance Energy Transfer - methods

/ Humans

/ Innovations