Abstract
Force and torque, stress and strain or work are examples of mechanical and elastic actions which are intimately linked to chemical reactions in the cell. Optical tweezers are a light-based method which allows the real-time manipulation of single molecules and cells to measure their interactions. We describe the technique, briefly reviewing the operating principles and the potential capabilities to the study of biological processes. Additional emphasis is given to the importance of fluctuations in biology and how single-molecule techniques allow access to them. We illustrate the applications by addressing experimental configurations and recent progresses in molecular and cell biology.
Publication types
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Research Support, Non-U.S. Gov't
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Review
MeSH terms
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Animals
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Biochemistry / instrumentation
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Biochemistry / methods*
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Biochemistry / trends
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Biomechanical Phenomena / instrumentation
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Biomechanical Phenomena / methods
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Biomechanical Phenomena / trends
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Biophysics / instrumentation
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Biophysics / methods
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Biophysics / trends
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Dissection / instrumentation
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Dissection / methods
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Dissection / trends
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Eukaryotic Cells / chemistry*
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Eukaryotic Cells / physiology*
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Eukaryotic Cells / ultrastructure
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Humans
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Molecular Biology / instrumentation
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Molecular Biology / methods*
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Molecular Biology / trends
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Molecular Motor Proteins / chemistry
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Molecular Motor Proteins / physiology
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Nucleic Acids / chemistry
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Nucleic Acids / physiology
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Optical Tweezers / standards*
Substances
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Molecular Motor Proteins
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Nucleic Acids