Nanoapertures for AFM-based single-molecule force spectroscopy

Stephan F. Heucke; Elias M. Puchner; Stefan W. Stahl; Alexander W. Holleitner; Hermann E. Gaub; Philip Tinnefeld

doi:10.1504/IJNT.2013.053529

Nanoapertures for AFM-based single-molecule force spectroscopy

Stephan F. Heucke, Elias M. Puchner, Stefan W. Stahl, Alexander W. Holleitner, Hermann E. Gaub, Philip Tinnefeld

Chair of Nanotechnology and Nanomaterials

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Simultaneous single-molecule force spectroscopy and microfluorescence binding measurements are often hampered by background fluorescence from the bulk. Zero-Mode Waveguides (ZMW) restrict the excited volume but require a special design, which allows the tip of the force probing cantilever to protrude into the nanoaperture. Here, we describe the design and fabrication of such ZMW and report the first experiments where binding of fluorescent adenosine triphosphate to the force-activated enzyme titin kinase was measured while the enzyme was subjected to mechanical forces.

Original language	English
Pages (from-to)	607-619
Number of pages	13
Journal	International Journal of Nanotechnology
Volume	10
Issue number	5-7
DOIs	https://doi.org/10.1504/IJNT.2013.053529
State	Published - 2013

Keywords

AFM
Force-activated enzyme
Mechanoenzymatics
Nanoaperture
Nanotechnology
Single-molecule fluorescence
Single-molecule force spectroscopy
Titin kinase
Zero-mode waveguide

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10.1504/IJNT.2013.053529

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title = "Nanoapertures for AFM-based single-molecule force spectroscopy",

abstract = "Simultaneous single-molecule force spectroscopy and microfluorescence binding measurements are often hampered by background fluorescence from the bulk. Zero-Mode Waveguides (ZMW) restrict the excited volume but require a special design, which allows the tip of the force probing cantilever to protrude into the nanoaperture. Here, we describe the design and fabrication of such ZMW and report the first experiments where binding of fluorescent adenosine triphosphate to the force-activated enzyme titin kinase was measured while the enzyme was subjected to mechanical forces.",

keywords = "AFM, Force-activated enzyme, Mechanoenzymatics, Nanoaperture, Nanotechnology, Single-molecule fluorescence, Single-molecule force spectroscopy, Titin kinase, Zero-mode waveguide",

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T1 - Nanoapertures for AFM-based single-molecule force spectroscopy

AU - Heucke, Stephan F.

AU - Puchner, Elias M.

AU - Stahl, Stefan W.

AU - Holleitner, Alexander W.

AU - Gaub, Hermann E.

AU - Tinnefeld, Philip

PY - 2013

Y1 - 2013

N2 - Simultaneous single-molecule force spectroscopy and microfluorescence binding measurements are often hampered by background fluorescence from the bulk. Zero-Mode Waveguides (ZMW) restrict the excited volume but require a special design, which allows the tip of the force probing cantilever to protrude into the nanoaperture. Here, we describe the design and fabrication of such ZMW and report the first experiments where binding of fluorescent adenosine triphosphate to the force-activated enzyme titin kinase was measured while the enzyme was subjected to mechanical forces.

AB - Simultaneous single-molecule force spectroscopy and microfluorescence binding measurements are often hampered by background fluorescence from the bulk. Zero-Mode Waveguides (ZMW) restrict the excited volume but require a special design, which allows the tip of the force probing cantilever to protrude into the nanoaperture. Here, we describe the design and fabrication of such ZMW and report the first experiments where binding of fluorescent adenosine triphosphate to the force-activated enzyme titin kinase was measured while the enzyme was subjected to mechanical forces.

KW - AFM

KW - Force-activated enzyme

KW - Mechanoenzymatics

KW - Nanoaperture

KW - Nanotechnology

KW - Single-molecule fluorescence

KW - Single-molecule force spectroscopy

KW - Titin kinase

KW - Zero-mode waveguide

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DO - 10.1504/IJNT.2013.053529

M3 - Article

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SN - 1475-7435

VL - 10

SP - 607

EP - 619

JO - International Journal of Nanotechnology

JF - International Journal of Nanotechnology

IS - 5-7

ER -

Nanoapertures for AFM-based single-molecule force spectroscopy

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