WITHDRAWN: Microsecond resolution of enzymatic conformational changes using dark-field microscopy.
We report a novel method to detect angular conformational changes of a molecular motor in a manner sensitive enough to achieve acquisition rates with a time resolution of 2.5mus (equivalent to 400,000fps). We show that this method has sufficient sensitivity to resolve the velocity of the F(1)-ATPase...
| Main Authors: | , , , , |
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| Format: | Journal article |
| Language: | English |
| Published: |
2008
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| Summary: | We report a novel method to detect angular conformational changes of a molecular motor in a manner sensitive enough to achieve acquisition rates with a time resolution of 2.5mus (equivalent to 400,000fps). We show that this method has sufficient sensitivity to resolve the velocity of the F(1)-ATPase gamma-subunit as it travels from one conformational state to another (transition time). Rotation is detected via a gold nanorod attached to the rotating gamma-subunit of an immobilized F(1)-ATPase. Variations in scattered light intensity allow precise measurement of changes in angular position of the rod below the diffraction limit of light. |
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